Snap-shot of the ISO 11783-11 online data base Version: 2024061001 @ Copyright International Organization for Standardization, see: www.iso.org/iso/copyright.htm. No reproduction on networking permitted without license from ISO. The export file from the online data base is supplied without liability. Hard and Saved copies of this document are considered uncontrolled and represents a snap-shot of the ISO11783-11 online data base. DD Entity: 0 Internal Data Base DDI Definition: This DDI is reserved for internal use only. Comment: This DDE was a result of Jan 2005 Task Controller meeting. Typically used by Device Classes: Not Assigned Unit: not defined - not defined Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 1 Setpoint Volume Per Area Application Rate as [mm³/m²] Definition: Setpoint Application Rate specified as volume per area as [mm³/m²] Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m² - Capacity per area unit Resolution: 0,01 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,00 - 21474836,47 Submit by: Part 10 Task Force Submit Date: Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 2 Actual Volume Per Area Application Rate as [mm³/m²] Definition: Actual Application Rate specified as volume per area as [mm³/m²] Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m² - Capacity per area unit Resolution: 0,01 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,00 - 21474836,47 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 3 Default Volume Per Area Application Rate as [mm³/m²] Definition: Default Application Rate specified as volume per area as [mm³/m²] Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m² - Capacity per area unit Resolution: 0,01 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,00 - 21474836,47 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 4 Minimum Volume Per Area Application Rate as [mm³/m²] Definition: Minimum Application Rate specified as volume per area as [mm³/m²] Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m² - Capacity per area unit Resolution: 0,01 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,00 - 21474836,47 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 5 Maximum Volume Per Area Application Rate as [mm³/m²] Definition: Maximum Application Rate specified as volume per area as [mm³/m²] Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m² - Capacity per area unit Resolution: 0,01 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,00 - 21474836,47 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 6 Setpoint Mass Per Area Application Rate Definition: Setpoint Application Rate specified as mass per area Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 7 Actual Mass Per Area Application Rate Definition: Actual Application Rate specified as mass per area Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 8 Default Mass Per Area Application Rate Definition: Default Application Rate specified as mass per area Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 9 Minimum Mass Per Area Application Rate Definition: Minimum Application Rate specified as mass per area Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 10 Maximum Mass Per Area Application Rate Definition: Maximum Application Rate specified as mass per area Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 11 Setpoint Count Per Area Application Rate Definition: Setpoint Application Rate specified as count per area Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /m² - Quantity per area unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 12 Actual Count Per Area Application Rate Definition: Actual Application Rate specified as count per area Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /m² - Quantity per area unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 13 Default Count Per Area Application Rate Definition: Default Application Rate specified as count per area Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /m² - Quantity per area unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 14 Minimum Count Per Area Application Rate Definition: Minimum Application Rate specified as count per area Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /m² - Quantity per area unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 15 Maximum Count Per Area Application Rate Definition: Maximum Application Rate specified as count per area Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /m² - Quantity per area unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 16 Setpoint Spacing Application Rate Definition: Setpoint Application Rate specified as distance: e.g. seed spacing of a precision seeder Comment: Handling 0 value for Seed Spacing - The 0 rate indicates nothing shall be applied. Even though Seed spacing defines distance between 2 Seeds. As this is rate DDI, zero value shall indicate no Seeds are applied for Rate Application. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: Published Status Date: 2020-12-15 Status Comments: Comment added Attachments: none DD Entity: 17 Actual Spacing Application Rate Definition: Actual Application Rate specified as distance: e.g. seed spacing of a precision seeder Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 18 Default Spacing Application Rate Definition: Default Application Rate specified as distance: e.g. seed spacing of a precision seeder Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 19 Minimum Spacing Application Rate Definition: Minimum Application Rate specified as distance: e.g. seed spacing of a precision seeder Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 20 Maximum Spacing Application Rate Definition: Maximum Application Rate specified as distance: e.g. seed spacing of a precision seeder Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 21 Setpoint Volume Per Volume Application Rate Definition: Setpoint Application Rate specified as volume per volume Comment: Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers Unit: mm³/m³ - Capacity per capacity unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 22 Actual Volume Per Volume Application Rate Definition: Actual Application Rate specified as volume per volume Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m³ - Capacity per capacity unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 23 Default Volume Per Volume Application Rate Definition: Default Application Rate specified as volume per volume Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m³ - Capacity per capacity unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 24 Minimum Volume Per Volume Application Rate Definition: Minimum Application Rate specified as volume per volume Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m³ - Capacity per capacity unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 25 Maximum Volume Per Volume Application Rate Definition: Maximum Application Rate specified as volume per volume Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/m³ - Capacity per capacity unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 26 Setpoint Mass Per Mass Application Rate Definition: Setpoint Application Rate specified as mass per mass Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: mg/kg - Mass per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 27 Actual Mass Per Mass Application Rate Definition: Actual Application Rate specified as mass per mass Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: mg/kg - Mass per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 28 Default Mass Per Mass Application Rate Definition: Default Application Rate specified as mass per mass Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/kg - Mass per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 29 Minimum Mass Per Mass Application Rate Definition: Minimum Application Rate specified as mass per mass Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/kg - Mass per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 30 MaximumMass Per Mass Application Rate Definition: Maximum Application Rate specified as mass per mass Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/kg - Mass per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 31 Setpoint Volume Per Mass Application Rate Definition: Setpoint Application Rate specified as volume per mass Comment: Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 32 Actual Volume Per Mass Application Rate Definition: Actual Application Rate specified as volume per mass Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 9 - Forage harvester Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Added device class 9 - Forage Harvester Attachments: none DD Entity: 33 Default Volume Per Mass Application Rate Definition: Default Application Rate specified as volume per mass Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 34 Minimum Volume Per Mass Application Rate Definition: Minimum Application Rate specified as volume per mass Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 35 Maximum Volume Per Mass Application Rate Definition: Maximum Application Rate specified as volume per mass Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 36 Setpoint Volume Per Time Application Rate Definition: Setpoint Application Rate specified as volume per time Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/s - Flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 37 Actual Volume Per Time Application Rate Definition: Actual Application Rate specified as volume per time Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/s - Flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 38 Default Volume Per Time Application Rate Definition: Default Application Rate specified as volume per time Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/s - Flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 39 Minimum Volume Per Time Application Rate Definition: Minimum Application Rate specified as volume per time Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/s - Flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 40 Maximum Volume Per Time Application Rate Definition: Maximum Application Rate specified as volume per time Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mm³/s - Flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 41 Setpoint Mass Per Time Application Rate Definition: Setpoint Application Rate specified as mass per time Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/s - Mass flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 42 Actual Mass Per Time Application Rate Definition: Actual Application Rate specified as mass per time Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/s - Mass flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 43 Default Mass Per Time Application Rate Definition: Default Application Rate specified as mass per time Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/s - Mass flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 44 Minimum Mass Per Time Application Rate Definition: Minimum Application Rate specified as mass per time Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/s - Mass flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 45 Maximum Mass Per Time Application Rate Definition: Maximum Application Rate specified as mass per time Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: mg/s - Mass flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 46 Setpoint Count Per Time Application Rate Definition: Setpoint Application Rate specified as count per time Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 47 Actual Count Per Time Application Rate Definition: Actual Application Rate specified as count per time Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 48 Default Count Per Time Application Rate Definition: Default Application Rate specified as count per time Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 49 Minimum Count Per Time Application Rate Definition: Minimum Application Rate specified as count per time Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 50 Maximum Count Per Time Application Rate Definition: Maximum Application Rate specified as count per time Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 51 Setpoint Tillage Depth Definition: Setpoint Tillage Depth of Device Element below soil surface, value increases with depth. In case of a negative value the system will indicate the distance above the ground. Comment: Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 8 - Root Harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 52 Actual Tillage Depth Definition: Actual Tillage Depth of Device Element below soil surface, value increases with depth. In case of a negative value the system will indicate the distance above the ground. Comment: Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 53 Default Tillage Depth Definition: Default Tillage Depth of Device Element below soil surface, value increases with depth. In case of a negative value the system will indicate the distance above the ground. Comment: Use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 8 - Root Harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 54 Minimum Tillage Depth Definition: Minimum Tillage Depth of Device Element below soil surface, value increases with depth. In case of a negative value the system will indicate the distance above the ground. Comment: Supplied by device as physical minimum Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 8 - Root Harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 55 Maximum Tillage Depth Definition: Maximum Tillage Depth of Device Element below soil surface, value increases with depth. In case of a negative value the system will indicate the distance above the ground. Comment: Supplied by device as physical maximum Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 8 - Root Harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 56 Setpoint Seeding Depth Definition: Setpoint Seeding Depth of Device Element below soil surface, value increases with depth Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 57 Actual Seeding Depth Definition: Actual Seeding Depth of Device Element below soil surface, value increases with depth Comment: Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 58 Default Seeding Depth Definition: Default Seeding Depth of Device Element below soil surface, value increases with depth Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 59 Minimum Seeding Depth Definition: Minimum Seeding Depth of Device Element below soil surface, value increases with depth Comment: supplied by device as physical minimum Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 60 Maximum Seeding Depth Definition: Maximum Seeding Depth of Device Element below soil surface, value increases with depth Comment: supplied by device as physical maximum Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 61 Setpoint Working Height Definition: Setpoint Working Height of Device Element above crop or soil Comment: Typically used by Device Classes: 0 - Non-specific system 5 - Fertilizer 6 - Sprayers 7 - Harvesters 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 62 Actual Working Height Definition: Actual Working Height of Device Element above crop or soil Comment: This is the height above the effective control surface. For sprayers this is the height above the crop canapé and for fertilizer spreaders, harvesters, etc it is the height above the ground. Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers 7 - Harvesters 9 - Forage harvester 10 - Irrigation Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Added comment for clarification. Attachments: none DD Entity: 63 Default Working Height Definition: Default Working Height of Device Element above crop or soil Comment: use when missing Position data or outside any Treatment Zone Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers 7 - Harvesters 9 - Forage harvester 10 - Irrigation Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 64 Minimum Working Height Definition: Minimum Working Height of Device Element above crop or soil Comment: supplied by device as physical minimum Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers 7 - Harvesters 9 - Forage harvester 10 - Irrigation Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 65 Maximum Working Height Definition: Maximum Working Height of Device Element above crop or soil Comment: supplied by device as physical maximum Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers 7 - Harvesters 9 - Forage harvester 10 - Irrigation Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 66 Setpoint Working Width Definition: Setpoint Working Width of Device Element Comment: Typically used by Device Classes: 0 - Non-specific system 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops 15 - Municipal Work Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 67 Actual Working Width Definition: Actual Working Width of Device Element Comment: This is the effective / active working width during operation. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Added comment for clarification. Attachments: none DD Entity: 68 Default Working Width Definition: Default Working Width of Device Element Comment: Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 69 Minimum Working Width Definition: Minimum Working Width of Device Element Comment: Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 70 Maximum Working Width Definition: Maximum Working Width of Device Element Comment: Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 71 Setpoint Volume Content Definition: Setpoint Device Element Content specified as volume Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 11 - Transport / Trailers Unit: ml - Capacity large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 72 Actual Volume Content Definition: Actual Device Element Content specified as volume Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: ml - Capacity large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 73 Maximum Volume Content Definition: Maximum Device Element Content specified as volume Comment: is a minimum needed as well ?? Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: ml - Capacity large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 74 Setpoint Mass Content Definition: Setpoint Machine Element Content specified as mass Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: g - Mass large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 75 Actual Mass Content Definition: Actual Device Element Content specified as mass Comment: If the device is equipped with a weighing system which provides the possibility to tare the current load it is possible that the value has a negative sign in case of an unload operation. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: g - Mass large Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: ISO-Published Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 76 Maximum Mass Content Definition: Maximum Device Element Content specified as mass Comment: is a minimum needed as well ?? Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: g - Mass large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 77 Setpoint Count Content Definition: Setpoint Device Element Content specified as count Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: # - Quantity/Count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 78 Actual Count Content Definition: Actual Device Element Content specified as count Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: # - Quantity/Count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 79 Maximum Count Content Definition: Maximum Device Element Content specified as count Comment: is a minimum needed as well ?? Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: # - Quantity/Count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 80 Application Total Volume as [L] Definition: Accumulated Application specified as volume as liter [L] Comment: is a counter of a device element Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: L - Capacity count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 81 Application Total Mass in [kg] Definition: Accumulated Application specified as mass in kilogram [kg] Comment: is a counter of a device element Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: kg - Mass Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 82 Application Total Count Definition: Accumulated Application specified as count Comment: Task total of a device element for the application of a countable product. Often used as total for the group Setpoint, Actual, Default, Minimum & Maximum Count Per Area Application Rate (DDI 11 through 15). This DDI is meant for countable products. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: # - Quantity/Count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2022-08-09 Status Comments: Comment update only! Attachments: none DD Entity: 83 Volume Per Area Yield Definition: Yield as volume per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: ml/m² - Capacity per area large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 84 Mass Per Area Yield Definition: Yield as mass per area, not corrected for the reference moisture percentage DDI 184. Comment: This Mass per Area yield is the mass that includes the actual percentage moisture (DDI 99) if this is measured on e.g. harvesting equipment. This comment is added to clarify and differentiate this DDI from the Dry Mass Per Area Yield (DDI 181). Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 85 Count Per Area Yield Definition: Yield as count per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: /m² - Quantity per area unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 86 Volume Per Time Yield Definition: Yield as volume per time Comment: Typically used by Device Classes: 0 - Non-specific system Unit: ml/s - Float large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 87 Mass Per Time Yield Definition: Yield as mass per time, not corrected for the reference moisture percentage DDI 184. Comment: This Mass per Time yield is the mass that includes the actual percentage moisture (DDI 99) if this is measured on e.g. harvesting equipment. This comment is added to clarify and differentiate this DDI from the Dry Mass Per Time Yield (DDI 182). Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: mg/s - Mass flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 88 Count Per Time Yield Definition: Yield as count per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 89 Yield Total Volume Definition: Accumulated Yield specified as volume Comment: is a counter of a machine element Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: L - Quantity per volume Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 90 Yield Total Mass Definition: Accumulated Yield specified as mass, not corrected for the reference moisture percentage DDI 184. Comment: This Yield Total Mass is the mass that includes the average percentage moisture (DDI 262) if this is measured on e.g. harvesting equipment. This comment is added to clarify and differentiate this DDI from the Yield Total Dry Mass (DDI 183). Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: kg - Mass Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 91 Yield Total Count Definition: Accumulated Yield specified as count Comment: is a counter of a machine element Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: # - Quantity/Count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 92 Volume Per Area Crop Loss Definition: Crop yield loss as volume per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: ml/m² - Capacity per area large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 93 Mass Per Area Crop Loss Definition: Crop yield loss as mass per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 94 Count Per Area Crop Loss Definition: Crop yield loss as count per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: /m² - Quantity per area unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 95 Volume Per Time Crop Loss Definition: Crop yield loss as volume per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: ml/s - Float large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 96 Mass Per Time Crop Loss Definition: Crop yield loss as mass per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: mg/s - Mass flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 97 Count Per Time Crop Loss Definition: Crop yield loss as count per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 98 Percentage Crop Loss Definition: Crop yield loss Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers Unit: ppm - Parts per million Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 99 Crop Moisture Definition: Moisture in crop yield Comment: This DDE defines the actual percentage moisture of the crop. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: ppm - Parts per million Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 100 Crop Contamination Definition: Dirt or foreign material in crop yield Comment: This DDE defines the contamination in ratio of the yield DDI units. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: ppm - Parts per million Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 101 Setpoint Bale Width Definition: Setpoint Bale Width for square baler or round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 102 Actual Bale Width Definition: Actual Bale Width for square baler or round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 103 Default Bale Width Definition: Default Bale Width for square baler or round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 104 Minimum Bale Width Definition: Minimum Bale Width for square baler or round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 105 Maximum Bale Width Definition: Maximum Bale Width for square baler or round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 106 Setpoint Bale Height Definition: Setpoint Bale Height is only applicable to square baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 107 Actual Bale Height Definition: Actual Bale Height is only applicable to square baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: Published Status Date: 2024-04-15 Status Comments: Typo fix only Attachments: none DD Entity: 108 Default Bale Height Definition: Default Bale Height is only applicable to square baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 109 Minimum Bale Height Definition: Minimum Bale Height is only applicable to square baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 110 Maximum Bale Height Definition: Maximum Bale Height is only applicable to square baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 111 Setpoint Bale Size Definition: Setpoint Bale Size as length for a square baler or diameter for a round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 112 Actual Bale Size Definition: Actual Bale Size as length for a square baler or diameter for a round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 113 Default Bale Size Definition: Default Bale Size as length for a square baler or diameter for a round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 114 Minimum Bale Size Definition: Minimum Bale Size as length for a square baler or diameter for a round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 115 Maximum Bale Size Definition: Maximum Bale Size as length for a square baler or diameter for a round baler Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 116 Total Area Definition: Accumulated Area Comment: is a counter of a machine element Typically used by Device Classes: 0 - Non-specific system 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops 15 - Municipal Work Unit: m² - Area Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 117 Effective Total Distance Definition: Accumulated Distance in working position Comment: is a counter of a machine element Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 118 Ineffective Total Distance Definition: Accumulated Distance out of working position Comment: is a counter of a machine element Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 119 Effective Total Time Definition: Accumulated Time in working position Comment: is a counter of a machine element Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 17 - Sensor System Unit: s - Time count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: ISO-Published Status Date: 2011-12-21 Status Comments: Attachments: none DD Entity: 120 Ineffective Total Time Definition: Accumulated Time out of working position Comment: is a counter of a machine element Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: s - Time count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 121 Product Density Mass Per Volume Definition: Product Density as mass per volume Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: mg/l - Mass per capacity unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 122 Product Density Mass PerCount Definition: Product Density as mass per count Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: mg/1000 - 1000 seed Mass Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 123 Product Density Volume Per Count Definition: Product Density as volume per count Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: ml/1000 - Volume per quantity unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2003-08-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 124 Auxiliary Valve Scaling Extend Definition: Factor to apply to AuxValveCommand PortFlowCommand. The scaling of the port flow relates to flow, not to spool position, although the position of the spool is of course indirectly affected. Comment: Typically used by Device Classes: Not Assigned Unit: % - Percent Resolution: 0,1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 125 Auxiliary Valve Scaling Retract Definition: Factor to apply to AuxValveCommand PortFlowCommand. The scaling of the port flow relates to flow, not to spool position, although the position of the spool is of course indirectly affected. Comment: Typically used by Device Classes: Not Assigned Unit: % - Percent Resolution: 0,1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 126 Auxiliary Valve Ramp Extend Up Definition: The valve will apply a ramp to the Auxiliary ValveCommand PortFlowCommand, to limit the acceleration or deceleration of flow. The valve must apply the ramp to create a liniear increase/decrease of flow over time. Comment: Typically used by Device Classes: Not Assigned Unit: ms - Time Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 127 Auxiliary Valve Ramp Extend Down Definition: The valve will apply a ramp to the Auxiliary ValveCommand PortFlowCommand, to limit the acceleration or deceleration of flow. The valve must apply the ramp to create a liniear increase/decrease of flow over time. Comment: Typically used by Device Classes: Not Assigned Unit: ms - Time Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 128 Auxiliary Valve Ramp Retract Up Definition: The valve will apply a ramp to theAuxiliary ValveCommand PortFlowCommand, to limit the acceleration or deceleration of flow. The valve must apply the ramp to create a liniear increase/decrease of flow over time. Comment: Typically used by Device Classes: Not Assigned Unit: ms - Time Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 129 Auxiliary Valve Ramp Retract Down Definition: The valve will apply a ramp to the Auxiliary ValveCommand PortFlowCommand, to limit the acceleration or deceleration of flow. The valve must apply the ramp to create a liniear increase/decrease of flow over time. Comment: Typically used by Device Classes: Not Assigned Unit: ms - Time Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 130 Auxiliary Valve Float Threshold Definition: Safety function. Current output of valve must be above threshold before float command is allowed. Comment: Typically used by Device Classes: Not Assigned Unit: % - Percent Resolution: 0,1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 131 Auxiliary Valve Progressivity Extend Definition: Define non-linear releationship between command and flow by 2nd degree polynomium. (I will get polynomium) Comment: Typically used by Device Classes: Not Assigned Unit: n.a. - Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 132 Auxiliary Valve Progressivity Retract Definition: Define non-linear releationship between command and flow by 2nd degree polynomium. (I will get polynomium) Comment: Typically used by Device Classes: Not Assigned Unit: n.a. - Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 133 Auxiliary Valve Invert Ports Definition: Tell valve to swap extend and retract ports, easier than redoing plumbing on valve Comment: Typically used by Device Classes: Not Assigned Unit: n.a. - Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Lars Althof Submit Date: 2004-09-10 Submit Company: 57 - Sauer-Danfoss Co. Revision Number: 1 Current Status: ISO-Published Status Date: 2005-02-02 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 134 Device Element Offset X Definition: X direction offset of a DeviceElement relative to a Device. Comment: The DDI 134, Device element offset X is used to represent the position offset for any DET element with respect to DRP. Further details and geometry inheritance can be referenced in ISO11783 part 10. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: Published Status Date: 2021-03-09 Status Comments: Comment update Attachments: none DD Entity: 135 Device Element Offset Y Definition: Y direction offset of a DeviceElement relative to a Device. Comment: The DDI 135, Device element offset Y is used to represent the position offset for any DET element with respect to DRP. Further details and geometry inheritance can be referenced in ISO11783 part 10 Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2021-03-09 Status Comments: Comment update Attachments: none DD Entity: 136 Device Element Offset Z Definition: Z direction offset of a DeviceElement relative to a Device. Comment: The DDI 136, Device element offset Z is used to represent the position offset for any DET element with respect to DRP. Further details and geometry inheritance can be referenced in ISO11783 part 10 Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: mm - Length Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2021-03-09 Status Comments: Comment update. Attachments: none DD Entity: 137 Device Volume Capacity (Deprecated) Definition: DeviceElement Volume Capacity, dimension of a DeviceElement Comment: This DDE can be used to define the physical volume capacity that can be filled into this element, like the number of liters that can be filled into a bin. Note, there are a preferred duplicate DDIs 71, 72 and 73! Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: ml - Capacity large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2024-02-05 Status Comments: Update comment to use lower DDIs Attachments: none DD Entity: 138 Device Mass Capacity (Deprecated) Definition: DeviceElement Mass Capacity, dimension of a DeviceElement Comment: This DDE can be used to define the weight that can be loaded into the element. Note, there are a preferred duplicate DDIs 74, 75 and 76! Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: g - Mass large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2024-02-05 Status Comments: Update comment to use lower DDIs Attachments: none DD Entity: 139 Device Count Capacity (Deprecated) Definition: DeviceElement Count Capacity, dimension of a DeviceElement Comment: This DDE can be used to define the count capacity that can be loaded into the element, like the number of seeds that a grain bin can carry. Note, there are a preferred duplicate DDIs 77, 78 and 79! Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: # - Quantity/Count Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2024-02-05 Status Comments: Update comment to use lower DDIs Attachments: none DD Entity: 140 Setpoint Percentage Application Rate Definition: Application Rate expressed as percentage Comment: This DDE defines the setpoint application rate expressed in percentage. Usually this DDI is used within FMIS systems in combination with other information like a base-rate or a default-rate. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: ppm - Parts per million Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2023-07-10 Status Comments: Comment update Attachments: none DD Entity: 141 Actual Work State Definition: Actual Work State, 2 bits defined as 00=disabled/off, 01=enabled/on, 10=error, 11=undefined/not installed Comment: See the DDI 290 attachment "ISO11783-11-DDI-289-SetpointWorkState" as reference for implementation guideline. This DDE has been revised in 2012 to be used as the Actual Work State. A separate Setpoint Work State was added to the data dictionary at that time. Original comment: this DDE was a result of March 2005 TF10 meeting. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: 11783-Part 10 Task Force Submit Date: 2005-03-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 142 Physical Setpoint Time Latency Definition: The Setpoint Value Latency Time is the time lapse between the moment of receival of a setpoint value command by the working set and the moment this setpoint value is physically applied on the device. That means if the setpoint value is communicated on the network (CAN bus) but the system needs 2 seconds to adjust the value physically on the desired unit (device element) then the Setpoint Latency Time is 2 seconds. The setpoint time latency value can only be positive. Comment: The use of this DDE is to inform the overall system (e.g. Dektop Software, Task Controller) how the system works. The TC shall not shift this information into log files nor shall the device do that when sending actual values. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: ms - Time Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-03-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 143 Physical Actual Value Time Latency Definition: The Actual Value Latency Time is the time lapse between the moment this actual value is communicated to the Task Controller, and the moment that this actual value is physically applied on the device. That means if the system needs 2 seconds to calculate or measure a value before communicating it on the network, then the Actual Latency Time value is minus 2 seconds. Depending of the system characteristics the latency time could be negative or positive. In case where the system communicates an actual value before the actual value has been physically applied the latency value should be positive. In case where the system communicates an actual value after the actual value has been physically applied the latency value should be negative. Comment: The use of this DDE is to inform the overall system (e.g. Dektop Software, Task Controller) how the system works. The TC shall not shift this information into log files nor shall the device do that when sending actual values. Example for a positive value: A seed flow sensor is placed at the start of the seed tube. At the moment the sensor measures seed flow X, it takes Y seconds for this flow to reach the coulters. The measured value is ahead of the physical value of the unit (coulters). So the latency could be plus 2 seconds. Example for a negative value: A flow sensor has a delay in its response to a flow change that means it takes Y seconds to realize the change. At the moment the sensor measures flow X, the flow is already present for Y seconds on the physical unit. The actual value is ahead of measured value. So the latency could be minus 2 seconds. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: ms - Time Resolution: 1 SAE SPN: not specified CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-03-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 144 Yaw Angle Definition: Pivot / Yaw Angle of a DeviceElement Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers Unit: ° - Angle Resolution: 0,001 SAE SPN: not specified CANBus Range: -180000 - 180000 Display Range: -180,000 - 180,000 Submit by: 11783-Part 10 Task Force Submit Date: 2005-03-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2023-07-10 Status Comments: Comment "This DDE was a result of March 2005 TF10 meeting." removed Attachments: none DD Entity: 145 Roll Angle Definition: Roll Angle of a DeviceElement Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers Unit: ° - Angle Resolution: 0,001 SAE SPN: not specified CANBus Range: -180000 - 180000 Display Range: -180,000 - 180,000 Submit by: 11783-Part 10 Task Force Submit Date: 2005-03-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-07-10 Status Comments: Comment "This DDE was a result of March 2005 TF10 meeting." removed Attachments: none DD Entity: 146 Pitch Angle Definition: Pitch Angle of a DeviceElement Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers Unit: ° - Angle Resolution: 0,001 SAE SPN: not specified CANBus Range: -180000 - 180000 Display Range: -180,000 - 180,000 Submit by: 11783-Part 10 Task Force Submit Date: 2005-03-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2023-07-10 Status Comments: Comment "This DDE was a result of March 2005 TF10 meeting." removed Attachments: none DD Entity: 147 Log Count Definition: Log Counter, may be used to control data log record generation on a Task Controller Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: n.a. - Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: 11783-Part 10 Task Force Submit Date: 2005-03-01 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2023-07-10 Status Comments: Comment "This DDE was a result of March 2005 TF10 meeting." removed Attachments: none DD Entity: 148 Total Fuel Consumption Definition: Accumulated Fuel Consumption as Counter Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: ml - Capacity large Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Stephan Zelleröhr Submit Date: 2005-04-12 Submit Company: 103 - Agrocom GmbH & Co. Agrarsystem KG Revision Number: 1 Current Status: ISO-Published Status Date: 2005-05-09 Status Comments: DDEs have been moved to published for creating the new Annex A version. Attachments: none DD Entity: 149 Instantaneous Fuel Consumption per Time Definition: Fuel consumption per time Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm³/s - Flow Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Stephan Zelleröhr Submit Date: 2005-04-12 Submit Company: 103 - Agrocom GmbH & Co. Agrarsystem KG Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Added "Instantaneous" for clarification Attachments: none DD Entity: 150 Instantaneous Fuel Consumption per Area Definition: Fuel consumption per area Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm³/m² - Capacity per area unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Stephan Zelleröhr Submit Date: 2005-04-12 Submit Company: 103 - Agrocom GmbH & Co. Agrarsystem KG Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Added "Instantaneous" for clarification. Attachments: none DD Entity: 151 Instantaneous Area Per Time Capacity Definition: Area per time capacity Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm²/s - Area per time unit Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Stephan Zelleröhr Submit Date: 2005-04-12 Submit Company: 103 - Agrocom GmbH & Co. Agrarsystem KG Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Added "Instantaneous" for clarification. Attachments: none DD Entity: 153 Actual Normalized Difference Vegetative Index (NDVI) Definition: The Normalized Difference Vegetative Index (NDVI) computed from crop reflectances as the difference between NIR reflectance in the 780 to 880 nm band and red reflectance in the 640 to 680 nm band divided by the sum of the NIR and red reflectance in the same bands. Comment: Document attached. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: n.a. - Resolution: 0,001 SAE SPN: TBD CANBus Range: -1000 - 1000 Display Range: -1,000 - 1,000 Submit by: Marvin Stone Submit Date: 2008-04-28 Submit Company: 39 - Microfirm Inc. Revision Number: 1 Current Status: Published Status Date: 2020-05-04 Status Comments: CANBus Range and Display Range change Attachments: https://www.isobus.net/isobus/attachments/173/NDVI_definition_summary.pdf DD Entity: 154 Physical Object Length Definition: Length of device element (dimension along the X-axis) Comment: The reference point of the device element shall be located in the center of the device element Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hans Jürgen Nissen Submit Date: 2008-12-03 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Attachments: none DD Entity: 155 Physical Object Width Definition: Width of device element (dimension along the Y-axis) Comment: The reference point of the device element shall be located in the center of the device element Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hans Jürgen Nissen Submit Date: 2008-12-03 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Attachments: none DD Entity: 156 Physical Object Height Definition: Height of device element (dimension along the Z-axis) Comment: The reference point of the device element shall be located in the center of the device element Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hans Jürgen Nissen Submit Date: 2008-12-03 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Attachments: none DD Entity: 157 Connector Type Definition: Specification of the type of coupler. The value definitions are: -1 = Not available 0 = unknown (default), 1 = ISO 6489-3 Tractor drawbar, 2 = ISO 730 Three-point-hitch semi-mounted, 3 = ISO 730 Three-point-hitch mounted, 4 = ISO 6489-1 Hitch-hook, 5 = ISO 6489-2 Clevis coupling 40, 6 = ISO 6489-4 Piton type coupling, 7 = ISO 6489-5 CUNA hitch, 8 = ISO 24347 Ball type hitch, 9 = Chassis Mounted - Self-Propelled, 10 = ISO 5692-2 Pivot wagon hitch All other values are reserved for future assignments. Comment: This DDE allows systems to automatically select the connection between devices. For instance, when 2 devices are on the network that declare device elements with the same connector type, the system can connect them accordingly. This DDE shall be used with the Device Element of type "Connector" only. Other standards for Mechanical connections between towed and towing vehicles to look at are: ISO 8755, ISO 21244, ISO 5692-1, ISO 8718, ISO 12357, ISO 3584, ISO 1102, ISO 11406, ISO 11407, ISO 20019, DIN 74054, DIN 11026, DIN 11043 Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: -1 - 10 Display Range: -1 - 10 Submit by: Hans Jürgen Nissen Submit Date: 2008-12-03 Submit Company: 33 - John Deere Revision Number: 3 Current Status: Published Status Date: 2020-10-05 Status Comments: Define Pivot Wagon Hitch as own type number 10. Attachments: none DD Entity: 158 Prescription Control State Definition: Defines and synchronise the actual state of the prescription system. The state is represented by the lowest significant 2 bits in the lowest significant byte of the process data value: Byte 1: bit 0-1: 00 = manual/off, 01 = auto/on, 10 = error indicator, 11 = undefined/not installed. bits 2-7: reserved set to 0. Byte 2-4: reserved set to 0. The DDI shall support the On Change trigger so that the TC is able to get informed when the value gets changed by the Working Set Master. The TC shall active this trigger when using the DDI. See attachment for more information Comment: The prescription control master and its clients need to be synchronized in terms of their general state or activation by the user (System activated/deactivated in individual setups). This DDE serves 2 purposes, one is to synchronize the prescription control state and the other is to enable a TC client to announce the support and initial state of its prescription control capabilities. Synchronisation by the prescription master (TC) is done by setting the prescription state of connected TC clients with a process data set value message with this DDE. It is recommended that TC clients reply their state immediately when such a message is received. The property flag "setable" and the trigger method "on change" shall be used with this DDE. The state "manual/off" indicates that the device is in manual state and will ignore all prescription commands. The "auto/on" state indicates that the client accepts the prescription commands as far as its overall process state allows. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Matthias Meyer Submit Date: 2008-11-07 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/203/ISO11783-11-DDI-158-Prescription Control State-v2.pdf DD Entity: 159 Number of Sub-Units per Section Definition: Specifies the number of Units for a section (e.g. number of nozzles per sprayer section or number of planter seeding rows common to a controlled section). Comment: This DDE is used in a Section Device Element to indicate the number of physical Units under that section. The Units are of interest to the operator but not needed for the Task Controller operation itself. With this information and the overall width of the section, a Task Controller with a user interface may calculate and depict for instance the row spacing without having individual objects for each row in the DDOP. An implement should not include Unit Device Elements under any Section where this DDI exists. If Unit device elements are defined under a Section element in the DDOP and this DDI value is also included in the Section element, this DDI value shall be ignored. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jason Walter Submit Date: 2008-12-03 Submit Company: 33 - John Deere Revision Number: 1 Current Status: Published Status Date: 2024-02-14 Status Comments: Textual update on the Definition and Comments field only. Attachments: none DD Entity: 160 Section Control State Definition: Specifies the actual state of section control. The value definitions are: Byte 1 (bitfield) Bit 0-1: 00 = manual/off, 01 = auto/on, 10 = error indicator, 11 = undefined/not installed. Bits 2-7: reserved, set to 0. Bytes 2-4: reserved, set to 0. The DDI shall support the On Change trigger so that the TC is able to get informed when the value gets changed by the Working Set Master. The TC shall active this trigger when using the DDI. See attachment for more information Comment: In section control systems, the section control master and its clients need to be synchronized in terms of their general state or activation by the user (System activated/deactivated in individual setups). This DDE serves 2 purposes, one is to synchronize the section control state and the other is to enable a TC client to announce the support and initial state of its section control capabilities. Synchronisation by the section control master (TC) is done by setting the section control state of connected TC clients with a process data set value message with this DDE. It is recommended that TC clients reply their state immediately when such a message is received. The property flag "setable" and the trigger method "on change" should be used with this DDE. The state "manual/off" indicates that the device is in manual state and will ignore all control commands for section control. The "auto/on" state indicates that the client accepts the section control commands as far as its overall process state allows. Listed below are 4 example Use Cases for this DDE: Use case "Start up operation": 1. During a start up the implement shall set the SCS to ‘manual mode’. Use case "Auto request from TC": 1. The implement receives an ‘auto’ request from TC. 2. The implement shall check whether all setup conditions are fulfilled to allow section control. 3. If this check is ok: The implement may respond with ‘auto mode’ and set its internal SCS client to ‘auto mode’. 4. If this check not ok: The implement shall respond with ‘manual mode’. The internal state is still in manual mode. The TC may inform the operator accordingly. Use case "Manual request from TC": 1. The implement receives a manual request from TC. 2. If the implement is still in ‘auto mode’ the implement shall set its internal SCS client to ‘manual mode’. Use case "Loss of requirements for auto mode": 1. The implement internal setup conditions don’t allow for automatic section control anymore. 2. The implement shall set the internal SCS client to ‘manual mode’. 3. The implement shall send the SCS to inform the TC accordingly. On reception of this ‘manual mode’ the TC/Section Control Master may inform the operator accordingly. Typically used by Device Classes: 0 - Non-specific system 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Matthias Meyer Submit Date: 2008-12-03 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/181/ISO11783-11-DDI-160-Section Control State-v2.pdf DD Entity: 161 Actual Condensed Work State (1-16) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 1 to 16 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See attachment on DDI 290 "ISO11783-11-DDI-290-SetpointCondensedWorkState" for implementation guideline. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 162 Actual Condensed Work State (17-32) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 17 to 32 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 163 Actual Condensed Work State (33-48) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 33 to 48 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 164 Actual Condensed Work State (49-64) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 49 to 64 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 165 Actual Condensed Work State (65-80) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 65 to 80 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 166 Actual Condensed Work State (81-96) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 81 to 96 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 167 Actual Condensed Work State (97-112) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 97 to 112 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 168 Actual Condensed Work State (113-128) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 113 to 128 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 169 Actual Condensed Work State (129-144) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 129 to 144 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, tthen he device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 170 Actual Condensed Work State (145-160) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 145 to 160 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 171 Actual Condensed Work State (161-176) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 161 to 176 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 172 Actual Condensed Work State (177-192) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 177 to 192 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 173 Actual Condensed Work State (193-208) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 193 to 208 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 174 Actual Condensed Work State (209-224) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 209 to 224 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 175 Actual Condensed Work State (225-240) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 225 to 240 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 176 Actual Condensed Work State (241-256) Definition: Combination of the actual work states of individual sections or units (e.g. nozzles) number 241 to 256 into a single actual work state of their parent device element. The actual condensed work state contains the child element actual work states, in the driving direction from left to right, where the leftmost child element actual work state are the 2 lowest significant bits of the Process Data Value. Each child device elements actual work state is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element actual work states can be contained in one actual condensed work state of their parent device element. If less than 16 child device element actual work states are available, then the unused bits shall be set to value 11 (not installed). When the parent device element contains the Actual Condensed Work State DDE, then the device descriptor shall not contain the individual actual work state DDEs of the child device elements. Comment: See the DDI 161 attachment "ISO11783-11-DDI-289-SetpointWorkState" for implementation guidelines. This DDE is used to reduce number of messages. Individual work state messages for a many-sectioned device can potentially cause performance issues due to overloading communication. With this DDE, 16 work states can be sent via a single message, resulting in less traffic to convey on/off status for an entire device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Adam Bogenrief Submit Date: 2008-01-14 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 177 Actual length of cut Definition: Actual length of cut for harvested material, e.g. Forage Harvester or Tree Harvester. Comment: none. Typically used by Device Classes: 0 - Non-specific system 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Hans Jürgen Nissen Submit Date: 2008-09-22 Submit Company: 33 - John Deere Revision Number: 1 Current Status: Published Status Date: 2020-04-28 Status Comments: Remove of decimal point in CANBus Range Attachments: none DD Entity: 178 Element Type Instance Definition: This DDI is used to enumerate and identify multiple device elements (DET) of the same type within one Device Description object pool. The value of this DDI is independent of the DET number. The combination of device element type and value of Element Type Instance ETI represents a unique object inside the device description object pool and therefore shall exist only once per object pool. Recommendation: The definition of the device elements should be made from left to right direction or from front to back direction. When in a matrix, count left-to-right first, then front-to-back and at last top-to-bottom. See attachment for more information. Comment: This DDE allows the system to communicate with a device element object independent of the device element number. The same tank of a seeder for instance could have various device element numbers based upon the DDD. The DDD structure may change during setup the implement. In this case a unique implement tank might has a different element number as before. Particular if the Task Controller (TC) use a user interface to display and change data by the operator. Therefore the TC needs clear or rather unique device element information. Assign this DDE for instance to a DET of type bin. This number can be displayed to the operator while it may be printed physically at the bin. The ETI number range from 0 to 65533 inside the object pool corresponds to a displayed value from 1 to 65534 on a user interface or physical device. Note: for a more detailed description please look at the attachment of DDI 179 - "Actual Cultural Practice" Typically used by Device Classes: Not Assigned Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 65533 Display Range: 0 - 65533 Submit by: Matthias Meyer Submit Date: 2010-01-15 Submit Company: 33 - John Deere Revision Number: 1 Current Status: Published Status Date: 2021-08-11 Status Comments: Added latest version of attachment Attachments: none DD Entity: 179 Actual Cultural Practice Definition: This DDI is used to define the current cultural practice which is performed by an individual device operation. For instance a planter/seeder could provide a sowing and a fertilizing operation at the same time. The cultural practice value definitions are: 0=Unknown, 1=Fertilizing, 2=Sowing and Planting, 3=Crop Protection, 4=Tillage, 5=Baling (Pressing), 6=Mowing, 7=Wrapping, 8=Harvesting, 9=Forage Harvesting, 10=Transport, 11=Swathing, 12=Slurry/Manure Application, 13=Self-Loading Wagon, 14=Tedding, 15=Measuring, 16=Irrigation, 17=Feeding/Mixing, 18=Mulching, 19-255=Reserved for future Assignment See attachment for more information and DDI 471 Setpoint Cultural Practice Comment: Implements as Planter or Seeder which provides more than one product application need an option to sign the cultural practice that is performed by each operation. More then ever if the applied products have the same unit type. As for instance a seeder provides a sowing and fertilizing operation which have both mass per area as unit defined. In this case it is not clear to the TC that the second operation is a fertilizing operation. Particular if the TC owns a user interface to display these information to the operator. Through this DDE the TC user interface can display the appropriate information. Adding this DDI to the device element of type device the main cultural practice of the device could be defined. For instance a baler will claim on the bus as forage device class and have set the actual cultural practice as baling. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2010-01-15 Submit Company: 33 - John Deere Revision Number: 2 Current Status: Published Status Date: 2021-12-01 Status Comments: New attachment wand reference information to DDI 471 Setpoint Cultural Practice Attachments: https://www.isobus.net/isobus/attachments/205/Multiple and Single Product Implement Description-v2.pdf DD Entity: 180 Device Reference Point (DRP) to Ground distance Definition: This DDI is used to specify the distance from the Device Reference Point (DRP) down to the ground surface. The DRP to Ground DDI shall be attached only to the Device Element (DET) with element number zero. Comment: Depending on the application it might be required to know the distance of a device element down to the ground. All device element offsets refer to the DRP which is the centre of the device coordinate system and usually not at the ground surface. For instance the DRP of a tractor is the centre of the rear axle. In this case the distance from a GPS receiver (DET of type navigation reference) attached on the roof of the cab is calculated through sum up the Z-offset of the DET and the distance of the DRP to ground. The value of the DRP in this case is equivalent to the radius of the rolling wheel which is attached on the tractor rear axle. Typically used by Device Classes: Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2010-01-15 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 181 Dry Mass Per Area Yield Definition: Actual Dry Mass Per Area Yield. The definition of dry mass is the mass with a reference moisture specified by DDI 184. Comment: The earlier defined DDI 84 is the mass per area that is measured on e.g. harvesting equipment as a mass including a possibly unknown moisture percentage. This DDI 181 is the mass per area yield, corrected to a reference moisture. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lyle Jensen Submit Date: 2010-01-29 Submit Company: 102 - AGCO GmbH & Co Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 182 Dry Mass Per Time Yield Definition: Actual Dry Mass Per Time Yield. The definition of dry mass is the mass with a reference moisture specified by DDI 184. Comment: The earlier defined DDI 87 is the mass per time that is measured on e.g. harvesting equipment as a mass including a possibly unknown moisture percentage. This DDI 182 is the mass per time yield, corrected to a reference moisture. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lyle Jensen Submit Date: 2010-01-29 Submit Company: 102 - AGCO GmbH & Co Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 183 Yield Total Dry Mass Definition: Accumulated Yield specified as dry mass. The definition of dry mass is the mass with a reference moisture specified by DDI 184. Comment: The earlier defined DDI 90 is considered to be the total mass that is measured on e.g. harvesting equipment as a mass including a possibly unknown moisture percentage. This DDI 183 is the yield total mass, corrected to a reference moisture. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lyle Jensen Submit Date: 2010-01-29 Submit Company: 102 - AGCO GmbH & Co Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 184 Reference Moisture For Dry Mass Definition: Moisture percentage used for the dry mass DDIs 181, 182 and 183. Comment: Example: this definition is similar to the "Standard Payable Moisture" term used by farmers. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lyle Jensen Submit Date: 2010-01-29 Submit Company: 102 - AGCO GmbH & Co Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 185 Seed Cotton Mass Per Area Yield Definition: Seed cotton yield as mass per area, not corrected for a possibly included lint percantage. Comment: This Seed Cotton Mass Per Area Yield is the mass of the raw harvested cotton product as it is measured on e.g. harvesting equipment. Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Andy Beck Submit Date: 2010-02-26 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 186 Lint Cotton Mass Per Area Yield Definition: Lint cotton yield as mass per area. Comment: This Lint Cotton Mass Per Area Yield is the mass of the lint after it has been removed from the seed cotton at a cotton gin. Calculated by use of the Lint Turnout Percentage. Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Andy Beck Submit Date: 2010-02-26 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 187 Seed Cotton Mass Per Time Yield Definition: Seed cotton yield as mass per time, not corrected for a possibly included lint percantage. Comment: This Seed Cotton Mass Per Time Yield is the mass of the raw harvested cotton product as it is measured on e.g. harvesting equipment. Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Andy Beck Submit Date: 2010-02-26 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 188 Lint Cotton Mass Per Time Yield Definition: Lint cotton yield as mass per time. Comment: This Lint Cotton Mass Per Time Yield is the mass of the lint after it has been removed from the seed cotton at a cotton gin. Calculated by use of the Lint Turnout Percentage. Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Andy Beck Submit Date: 2010-02-26 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 189 Yield Total Seed Cotton Mass Definition: Accumulated yield specified as seed cotton mass, not corrected for a possibly included lint percantage. Comment: This Yield Total Seed Cotton Mass is the total mass of the raw harvested cotton product as it is measured on e.g. harvesting equipment. Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Andy Beck Submit Date: 2010-02-26 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 190 Yield Total Lint Cotton Mass Definition: Accumulated yield specified as lint cotton mass. Comment: This Yield Total Lint Cotton Mass is the total lint cotton mass, after it has been removed from the total seed cotton at a cotton gin. Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Andy Beck Submit Date: 2010-02-26 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 191 Lint Turnout Percentage Definition: Percent of lint in the seed cotton. Comment: Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Andy Beck Submit Date: 2010-02-26 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2010-03-12 Status Comments: Attachments: none DD Entity: 192 Ambient temperature Definition: Ambient temperature measured by a machine. Unit is milli-Kelvin (mK). Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Timo Oksanen Submit Date: 2011-01-17 Submit Company: Aalto University Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 193 Setpoint Product Pressure Definition: Setpoint Product Pressure to adjust the pressure of the product flow system at the point of dispensing. Comment: On pressure-based control systems, it is important to be able to monitor and control the system pressure to ensure the proper flow rate and droplet size. Being able to display and log pressure is important. On sprayers, this would be the boom pressure. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-01-19 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-03-27 Status Comments: Attachments: none DD Entity: 194 Actual Product Pressure Definition: Actual Product Pressure is the measured pressure in the product flow system at the point of dispensing. Comment: On pressure-based control systems, it is important to be able to monitor and conrol the system pressure to ensure the proper flow rate and droplet size. Being able to display and log pressure is important. On sprayers, this would be the boom pressure. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 195 Minimum Product Pressure Definition: Minimun Product Pressure in the product flow system at the point of dispensing. Comment: Minimum system product pressure to ensure a consistent product flow. See also "Setpoint Product Pressure" Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 196 Maximum Product Pressure Definition: Maximum Product Pressure in the product flow system at the point of dispensing. Comment: Maximum system product to ensure a stable and safe product flow. See also "Setpoint Product Pressure" Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 197 Setpoint Pump Output Pressure Definition: Setpoint Pump Output Pressure to adjust the pressure at the output of the solution pump. Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-01-19 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-03-27 Status Comments: Attachments: none DD Entity: 198 Actual Pump Output Pressure Definition: Actual Pump Output Pressure measured at the output of the solution pump. Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 199 Minimum Pump Output Pressure Definition: Minimum Pump Output Pressure for the output pressure of the solution pump. Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 200 Maximum Pump Output Pressure Definition: Maximum Pump Output Pressure for the output pressure of the solution pump. Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 201 Setpoint Tank Agitation Pressure Definition: Setpoint Tank Agitation Pressure to adjust the pressure for a stir system in a tank. Comment: In a liquid application system, this is the pressure used to stir the tank contents to prevent products in liquid suspension from settling in the tank. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-01-19 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-03-27 Status Comments: Attachments: none DD Entity: 202 Actual Tank Agitation Pressure Definition: Actual Tank Agitation Pressure measured by the tank stir system. Comment: In a liquid application system, this is the pressure used to stir the tank contents to prevent products in liquid suspension from settling in the tank. Typically measured at the agitation manifold. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 203 Minimum Tank Agitation Pressure Definition: Minimun Tank Agitation Pressure for a stir system in a tank. Comment: Minimum tank agitation pressure to prevent products in liquid suspension from settling in the tank. See also "Setpoint Tank Agitation Pressure". Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 204 Maximum Tank Agitation Pressure Definition: Maximun Tank Agitation Pressure for a stir system in a tank. Comment: Maximum tank agitation pressure to prevent products in liquid suspension from settling in the tank. See also "Setpoint Tank Agitation Pressure" Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748364,8 - 214748364,7 Submit by: Tony Woodcock Submit Date: 2011-03-09 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-05 Status Comments: Attachments: none DD Entity: 205 SC Setpoint Turn On Time Definition: The Section Control Turn On Time defines the overall time lapse between the moment the TC sends a turn on section command to the working set and the moment this section is physically turned on and the product is applied. The working set may support this DDE as an optional feature to provide the possibility to store the time settings direct on the device to make the settings available after a power cycle. Therefore this DDE needs always to be setable by the TC and shall not be used to change any working set system behavior. The DDI shall support the On Change trigger so that the TC is able to get informed when the value gets changed by the Working Set Master. The TC shall active this trigger when using the DDI. Comment: The SC Turn On Time setting is used to compensate the average physical machine reaction time (Electrical & Mechanical) from the moment the Task Controller send the command and the Working Set applies the product. To find the right time setting for the used system combination of Task Controller and Working Set it could take awhile and therefore it is a big benefit to store the setting on the working set to make them again available after a power cycle. For working sets supporting Section Control it is recommended to add SC Turn On Time to its device description and make it setable. In case where the device description contains also Physical Setpoint Time Latency or Physical Actual Time Latency the TC Turn On Time will always supercede it. See also attachment and DDI 206, 656 and 657. Typically used by Device Classes: 0 - Non-specific system 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: ms - Time Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2011-03-09 Submit Company: John Deere Revision Number: 2 Current Status: Published Status Date: 2022-01-10 Status Comments: Renamed from SC Tirn On Time to SC Setpoint Turn On Tim and added attachment Attachments: https://www.isobus.net/isobus/attachments/926/ISO11783-11-DDI-205-SC Actual Turn On-Off Time-v1.pdf DD Entity: 206 SC Setpoint Turn Off Time Definition: The Section Control Turn Off Time defines the overall time lapse between the moment the TC sends a turn off section command to the working set and the moment this section is physically turned off. The working set may support this DDE as an optional feature to provide the possibility to store the time settings direct on the device to make the settings available after a power cycle. Therefore this DDE needs always to be setable by the TC and shall not be used to change any working set system behavior. The DDI shall support the On Change trigger so that the TC is able to get informed when the value gets changed by the Working Set Master. The TC shall active this trigger when using the DDI. Comment: The SC Turn Off Time setting is used to compensate the average physical machine reaction time (Electrical & Mechanical) from the moment the Task Controller send the command and the Working Set turns off the sections. To find the right time setting for the used system combination of Task Controller and Working Set it could take awhile and therefore it is a big benefit to store the setting on the Working Set to make them again available after a power cycle. For Working Sets supporting Section Control it is recommended to add SC Turn Off Time to its device description and make it setable. See also DDI 205 including attachment and DDI 656 and 657 Typically used by Device Classes: 0 - Non-specific system 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: ms - Time Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2011-03-09 Submit Company: John Deere Revision Number: 2 Current Status: Published Status Date: 2022-01-10 Status Comments: Renamed to SC Setpoint Turn Off Time; Comment Update Attachments: none DD Entity: 207 Wind speed Definition: Wind speed measured in the treated field at the beginning of operations or on the application implement during operations. Measurements at to be made at 2m height or 1 m over the canopy in tree and bush crops. On implements the wind speed needs to be compansated by implement true ground speed and heading. Comment: Requested by TC23 SC6 WG15 Typically used by Device Classes: 1 - Tractor 5 - Fertilizer 6 - Sprayers 10 - Irrigation 14 - Special Crops 17 - Sensor System Unit: mm/s - Speed Resolution: 1 SAE SPN: CANBus Range: 0 - 100000000 Display Range: 0 - 100000000 Submit by: Bob Benneweis Submit Date: 2011-03-16 Submit Company: Benneweis Consulting Ltd Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 208 Wind direction Definition: Wind direction measured in the treated field at the beginning of operations or on the application implement during operations. Measurements at to be made at 2m height or 1 m over the canopy in tree and bush crops. On implements the wind direction needs to be compansated by implement true ground speed and heading. Comment: Typically used by Device Classes: 1 - Tractor 5 - Fertilizer 6 - Sprayers 10 - Irrigation 14 - Special Crops 17 - Sensor System Unit: ° - Angle Resolution: 1 SAE SPN: CANBus Range: 0 - 359 Display Range: 0 - 359 Submit by: Bob Benneweis Submit Date: 2011-03-16 Submit Company: Benneweis Consulting Ltd Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 209 Relative Humidity Definition: Ambient humidty measured by a weather station in a treated field or on the application implement. Comment: Typically used by Device Classes: 1 - Tractor 5 - Fertilizer 6 - Sprayers 7 - Harvesters 9 - Forage harvester 10 - Irrigation 14 - Special Crops 17 - Sensor System Unit: % - Percent Resolution: 1 SAE SPN: CANBus Range: 0 - 100 Display Range: 0 - 100 Submit by: Bob Benneweis Submit Date: 2011-03-16 Submit Company: Benneweis Consulting Ltd Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-04 Status Comments: Attachments: none DD Entity: 210 Sky conditions Definition: This DDE is used to define the current sky conditions during operation. The METAR format and its abbrivations is used as follows to define the sky conditions: CLR=Clear, NSC=Mostly Sunny, FEW=Partly Sunny, SCT=Partly cloud, BKN=Mostly cloudy, OVC=overcast/cloudy 1. Byte = first character 2. Byte = second character 3. Byte = third character 4. Byte = fourt character Unused bytes shall be set to 0x20 Byte 1 to 4 set to 0x00 = error Byte 1 to 4 set to 0xFF = not available Comment: To setup the METAR abbrivations the IS0 8859-1 standard is used. From the Latin-1 printable characters set the capitals from "A" (0x41) to "Z" (0x5A ) shall be used. The space "SP" (0x20) is used for unused bytes. Example for Clear (CLR): 1. Byte = 0x43(C) 2. Byte = 0x4C(L) 3. Byte = 0x52 (R) 4. Byte = 0x20 (unused) Typically used by Device Classes: 1 - Tractor 5 - Fertilizer 6 - Sprayers 7 - Harvesters 9 - Forage harvester 10 - Irrigation 14 - Special Crops 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Bob Benneweis Submit Date: 2011-03-16 Submit Company: Benneweis Consulting Ltd Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-29 Status Comments: Attachments: none DD Entity: 211 Last Bale Flakes per Bale Definition: The number of flakes in the most recently produced bale. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler can add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 1000 Display Range: 0 - 1000 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 212 Last Bale Average Moisture Definition: The average moisture in the most recently produced bale. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 100000000 Display Range: 0 - 100000000 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 213 Last Bale Average Strokes per Flake Definition: The number of baler plunger compression strokes per flake that has entered the bale compression chamber. This value is the average valid for the most recently produced bale. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 1000 Display Range: 0 - 1000 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 214 Lifetime Bale Count Definition: The number of bales produced by a machine over its entire lifetime. This DDE value can not be set through the process data interface but can be requested and added to a datalog. This DDE value is not affected by a task based total bales but will increment at the same rate as the task based total. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2024-02-05 Status Comments: Add attachment Attachments: https://www.isobus.net/isobus/attachments/245/ISO11783-11-DD-214-Bale Documentation-v1.pdf DD Entity: 215 Lifetime Working Hours Definition: The number of working hours of a device element over its entire lifetime. This DDE value can not be set through the process data interface but can be requested and added to a datalog. Comment: The recommended use of this DDE is to be transmitted on a request basis only. The Lifetime Working Hours is the overall time when the device was turned on. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Note: unit is h and the bit resolution is 0.05 h/bit, this aligns the resolution and range with similar SPNs as defined in SAE J1939-71. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: h - Hour Resolution: 0,05 SAE SPN: CANBus Range: 0 - 4211081215 Display Range: 0,00 - 210554060,75 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2020-05-04 Status Comments: CANBus Range and Display Range correction Attachments: none DD Entity: 216 Actual Bale Hydraulic Pressure Definition: The actual value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber. Comment: The actual pressure is the resultant of the baler controller targeting a certain setpoint plunger load. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: Pa - Pressure Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 217 Last Bale Average Hydraulic Pressure Definition: The average actual value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber. This average is calculated over the most recently produced bale. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: Pa - Pressure Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 218 Setpoint Bale Compression Plunger Load Definition: The setpoint bale compression plunger load expressed as percentage Comment: This value is measured / controlled for each new flake that entered the baler chamber and obtained at the rear dead end of the plunger. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 219 Actual Bale Compression Plunger Load Definition: The actual bale compression plunger load expressed as percentage. Comment: This is the plunger load measured at the rear dead end of the plunger cycle and only updated for each new flake that has entered the baler chamber. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 2 Current Status: Published Status Date: 2018-02-26 Status Comments: There was an industry request to change the unit to ppm. Attachments: none DD Entity: 220 Last Bale Average Bale Compression Plunger Load Definition: The average bale compression plunger load for the most recently produced bale expressed as percentage. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 221 Last Bale Applied Preservative Definition: The total preservative applied to the most recently produced bale. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 222 Last Bale Tag Number Definition: The Last Bale Tag Number as a decimal number in the range of 0 to 2147483647. Note that the value of this DDI has the limitation of being an signed 32 bit number. Comment: For balers: the recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2024-03-05 Status Comments: Change of value range to signed integer format Attachments: none DD Entity: 223 Last Bale Mass Definition: The mass of the bale that has most recently been produced. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-04-30 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Approved Status Date: 2011-04-30 Status Comments: Attachments: none DD Entity: 224 Delta T Definition: The difference between dry bulb temperature and wet bulb temperature measured by a weather station in a treated field or on the application equipment. Comment: This parameter is used to determine spray effectiveness in hot and dry environments. If the Delta T value is too high the effectiveness of the overall spray application does not match the requirement for this operation. This value can be used by the application to notify the operator about the effectiveness and whether he should continue with the application or not. It can also be used to document the application environment within the log files for the task. Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers 7 - Harvesters 9 - Forage harvester 17 - Sensor System Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Meyer Submit Date: 2011-05-25 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2011-06-20 Status Comments: Attachments: none DD Entity: 225 Setpoint Working Length Definition: Setpoint Working Length of Device Element. Comment: This is the desired working length of the device element during operation. For the geometry definition and example use, see the attachment of the Actual Working Length, DDI 226. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Moritz Roeingh Submit Date: 2011-07-12 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2011-08-31 Status Comments: Attachments: none DD Entity: 226 Actual Working Length Definition: Actual Working Length of a Device Element. Comment: Used for Section Control. By using the Actual Working Length of a device element a rectangular area is defined. This area represents the current working area and defines offsets for turning sections on and off by Section Control. The Actual Working Length parameter is useful for fertilizer spreaders and similar implements. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Moritz Roeingh Submit Date: 2011-07-07 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2011-08-31 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/257/ISO11783-11-DDI-226-ActualWorkingLength-v1.pdf DD Entity: 227 Minimum Working Length Definition: Minimum Working Length of Device Element. Comment: This is the minimum working length of the device element during operation. For the geometry definition and example use, see the attachment of the Actual Working Length, DDI 226. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Moritz Roeingh Submit Date: 2011-07-12 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2011-08-31 Status Comments: Attachments: none DD Entity: 228 Maximum Working Length Definition: Maximum Working Length of Device Element. Comment: This is the maximum working length of the device element during operation. For the geometry definition and example use, see the attachment of the Actual Working Length, DDI 226. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Moritz Roeingh Submit Date: 2011-07-12 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2011-08-31 Status Comments: Attachments: none DD Entity: 229 Actual Net Weight Definition: Actual Net Weight value specified as mass Comment: The Actual Net Weight is the current measured mass by a weighing system. For more information see attachment located at Actual Net Weight DDE Typically used by Device Classes: 11 - Transport / Trailers 17 - Sensor System Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2011-09-13 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2011-09-28 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/279/ISO11783-11-DDI-229-Weighing System Implementation-v2.pdf DD Entity: 230 Net Weight State Definition: Net Weight State, 2 bits defined as: 00 = unstable measurement 01 = stable measurement 10 = error (measuring error) Comment: The Net Weight State indicates whether the current Actual Net Weight value is a reliable value or not. Example: After a mass of grain is filled into a grain cart it takes a while until the weighing system is able to provide the valid value of the load. Typically used by Device Classes: 11 - Transport / Trailers 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Matthias Meyer Submit Date: 2011-09-13 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2011-09-28 Status Comments: Attachments: none DD Entity: 231 Setpoint Net Weight Definition: Setpoint Net Weight value. Comment: The Setpoint Net Weight value is used to prompt the weighing system to perform a tare procedure. For more information see attachment located at Actual Net Weight DDE. Typically used by Device Classes: 11 - Transport / Trailers 17 - Sensor System Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2011-09-13 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2011-09-28 Status Comments: Attachments: none DD Entity: 232 Actual Gross Weight Definition: Actual Gross Weight value specified as mass Comment: The Actual Gross Weight is the overall measured mass by a weighing system. For more information see attachment located at Actual Net Weight DDE. Typically used by Device Classes: 11 - Transport / Trailers 17 - Sensor System Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2011-09-13 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2011-09-28 Status Comments: Attachments: none DD Entity: 233 Gross Weight State Definition: Gross Weight State, 2 bits defined as: 00 = unstable measurement 01 = stable measurement 10 = error (measuring error) Comment: The Gross Weight State indicates whether the current Actual Gross Weight value is a reliable value or not. For more information see attachment located at Actual Net Weight DDE. Example: After a mass of grain is filled into a grain cart it takes a while until the weighing system is able to provide the valid value of the load. Typically used by Device Classes: 11 - Transport / Trailers 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Matthias Meyer Submit Date: 2011-09-13 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2011-09-28 Status Comments: Attachments: none DD Entity: 234 Minimum Gross Weight Definition: Minimum Gross Weight specified as mass. Comment: The Minimum Gross Weight may represent the minimum value of the effective range of the weighing system. For more information see attachment located at Actual Net Weight DDE. Typically used by Device Classes: 11 - Transport / Trailers 17 - Sensor System Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2011-09-13 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2011-09-28 Status Comments: Attachments: none DD Entity: 235 Maximum Gross Weight Definition: Maximum Gross Weight specified as mass. Comment: Maximum Gross Weight may represent the maximum value of the effective range of the weighing system. For more information see attachment located at Actual Net Weight DDE. Typically used by Device Classes: 11 - Transport / Trailers 17 - Sensor System Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2011-09-13 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2011-09-28 Status Comments: Attachments: none DD Entity: 236 Thresher Engagement Total Time Definition: Accumulated time while the threshing mechanism is engaged Comment: This DDE represents the total engagement time of the threshing mechanism of the machine and is recommended to be used at maximum once within the device description in the device element that represents the machine. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 237 Actual Header Working Height Status Definition: Actual status of the header being above or below the threshold height for the in-work state. 2 bit status indicator: 00=disabled/off/above threshold height 01=enabled/on/below threshold height 10=error 11=undefined/not installed Comment: The DDE has been defined to be able to communicate a more detailed work state of a machine. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-11-17 Status Comments: Attachments: none DD Entity: 238 Actual Header Rotational Speed Status Definition: Actual status of the header rotational speed being above or below the threshold for in-work state. 2 bit status indicator: 00=disabled/off/below threshold speed 01=enabled/on/above threshold speed 10=error 11=undefined/not installed Comment: The DDE has been defined to be able to communicate a more detailed work state of a machine. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 239 Yield Hold Status Definition: Status indicator for the yield measurement system. When enabled/on, the measurements from the yield measurement system are ignored and the yield is held constant. 2 bit status indicator: 00=disabled/off 01=enabled/on 10=error 11=undefined/not installed Comment: This status indicator can e.g. be set by the operator when entering an area of the field where the yield measurement system yield measurements should not be used. This DDE shall not be setable by the TC. The values of the following list of DDE's is are held constant when this DDE is enabled/on: DDI's 83 to 91, 181 to 183 and 185 to 190. Typically used by Device Classes: 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 240 Actual (Un)Loading System Status Definition: Actual status of the Unloading and/or Loading system. This DDE covers both Unloading and Loading of the device element wherein it is listed. Bits that are not mentioned are reserved and shall be set to 1. Byte 1: 2 bit unloading status indicator, bit 1 and 2: 00=disabled/off 01=enabled/on/unloading 10=error 11=undefined/not installed Byte 2: 2 bit loading status indicator, bit 1 and 2: 00=disabled/off 01=enabled/on/loading 10=error 11=undefined/not installed Byte 3: set to FF Byte 4: set to FF Comment: Note: The bits of a byte are defined from 1 to 8 (87654321) Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 2 Current Status: New Request Submitted Status Date: 2020-04-23 Status Comments: added that byte 3 and 4 shall be set to FF; The value that is transferred over the canbus can be negative Attachments: none DD Entity: 241 Crop Temperature Definition: Temperature of harvested crop Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 242 Setpoint Sieve Clearance Definition: Setpoint separation distance between Sieve elements Comment: Typically used by Device Classes: 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 243 Actual Sieve Clearance Definition: Actual separation distance between Sieve elements Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 244 Minimum Sieve Clearance Definition: Minimal separation distance between Sieve elements Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 245 Maximum Sieve Clearance Definition: Maximum separation distance between Sieve elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 246 Setpoint Chaffer Clearance Definition: Setpoint separation distance between Chaffer elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 247 Actual Chaffer Clearance Definition: Actual separation distance between Chaffer elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 3 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 248 Minimum Chaffer Clearance Definition: Minimum separation distance between Chaffer elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 249 Maximum Chaffer Clearance Definition: Maximum separation distance between Chaffer elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 250 Setpoint Concave Clearance Definition: Setpoint separation distance between Concave elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 251 Actual Concave Clearance Definition: Actual separation distance between Concave elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 3 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 252 Minimum Concave Clearance Definition: Minimum separation distance between Concave elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 253 Maximum Concave Clearance Definition: Maximum separation distance between Concave elements. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 254 Setpoint Separation Fan Rotational Speed Definition: Setpoint rotational speed of the fan used for separating product material from non product material. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 255 Actual Separation Fan Rotational Speed Definition: Actual rotational speed of the fan used for separating product material from non product material. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 3 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 256 Minimum Separation Fan Rotational Speed Definition: Minimum rotational speed of the fan used for separating product material from non product material. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 257 Maximum Separation Fan Rotational Speed Definition: Maximum rotational speed of the fan used for separating product material from non product material. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Jaap van Bergeijk Submit Date: 2011-10-17 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 258 Hydraulic Oil Temperature Definition: Temperature of fluid in the hydraulic system. Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 2000000 Display Range: 0 - 2000000 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 3 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 259 Yield Lag Ignore Time Definition: Amount of time to ignore yield data, starting at the transition from the in-work to the out-of-work state. During this time, the yield sensor provides inconsistent or unreliable crop flow data. Comment: This DDE can be used to filter the yield data when creating yield maps. The values of the following list of DDE's may be inconsistent or unreliable during this yield lag ignore time: DDI's 83 to 91, 181 to 183 and 185 to 190. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: ms - Time Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 3 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 260 Yield Lead Ignore Time Definition: Amount of time to ignore yield data, starting at the transition from the out-of-work to the in-work state. During this time, the yield sensor provides inconsistent or unreliable crop flow data. Comment: This DDE can be used to filter the yield data when creating yield maps. The values of the following list of DDE's may be inconsistent or unreliable during this yield lead ignore time: DDI's 83 to 91, 181 to 183 and 185 to 190. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: ms - Time Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 3 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 261 Average Yield Mass Per Time Definition: Average Yield expressed as mass per unit time, not corrected for the reference moisture percentage DDI 184. This value is the average for a Task and may be reported as a total. Comment: This Average Yield Mass Per Time is the mass that includes the average crop moisture (DDI 262) if this is measured on e.g. harvesting equipment. This average yield mass per time is calculated as the yield total mass (DDI 90) divided by the effective total time (DDI 119) of the active task. When a task is resumed and its previously recorded totals are sent by the task controller to the connected working set, a situation can occur where there is a discrepancy between the yield total mass, the effective total time and the average yield mass per time values. In case all three of these DDI's are present in the device description and all three values are set by the task controller upon resuming a task, the working set shall compute its average yield mass per time from the yield total mass divided by the effective total time and shall discard the average yield mass per time value that it received from the task controller. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 2 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 262 Average Crop Moisture Definition: Average Moisture of the harvested crop. This value is the average for a Task and may be reported as a total. Comment: This is the average of the actual crop moisture (DDI 99) for the active task and is calculated as an average based upon the yield total mass (DDI 90). In order to correctly calculate this value when a task is resumed, the yield total mass shall also be reported by the device as a total. When a task is resumed, the task controller sets both the yield total mass and the average crop moisture values. The device uses these values to derive the total moisture and calculate and report the new average crop moisture values for the resumed task. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 3 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 263 Average Yield Mass Per Area Definition: Average Yield expressed as mass per unit area, not corrected for the reference moisture percentage DDI 184. This value is the average for a Task and may be reported as a total. Comment: This Average Yield Mass Per Area is the mass that includes the average crop moisture (DDI 262) if this is measured on e.g. harvesting equipment. This average yield mass per area is calculated as the yield total mass (DDI 90) divided by the total area (DDI 116) of the active task. When a task is resumed and its previously recorded totals are sent by the task controller to the connected working set, a situation can occur where there is a discrepancy between the yield total mass, the total area and the average yield mass per area values. In case all three of these DDI's are present in the device description and all three values are set by the task controller upon resuming a task, the working set shall compute its average yield mass per area from the yield total mass divided by the total area and shall discard the average yield mass per area value that it received from the task controller. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Robert Waggoner Submit Date: 2011-07-08 Submit Company: AGCO Revision Number: 2 Current Status: ISO-Published Status Date: 2011-10-17 Status Comments: Attachments: none DD Entity: 264 Connector Pivot X-Offset Definition: X direction offset of a connector pivot point relative to DRP. This DDE shall be only attached to a DET element of type connector. Comment: Some connector types are equipped with a pivot point which will influence the accuracy of applications as section control, prescription or sequence control. The Pivot X-Offset is used to define the distance from the device DRP to the connector pivot point in X direction. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-03-07 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/367/ISO11783-11-DDI-264-Connector Pivot X-Offset-v1.pdf DD Entity: 265 Remaining Area Definition: Remaining Area of a field, which is calculated from the total area and the processed area. Comment: See DDI attachment for further details. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops 17 - Sensor System Unit: m² - Area Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Markus Eikler Submit Date: 2011-12-15 Submit Company: Mueller Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/319/ISO11783-11-DDI-265-Remaining Area-v1.pdf DD Entity: 266 Lifetime Application Total Mass Definition: Entire Application Total Mass of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Approved Status Date: 2012-02-15 Status Comments: Status was approved Attachments: none DD Entity: 267 Lifetime Application Total Count Definition: Entire Application Total Count of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 268 Lifetime Yield Total Volume Definition: Entire Yield Total Volume of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: L - Quantity per volume Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 269 Lifetime Yield Total Mass Definition: Entire Yield Total Mass of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 270 Lifetime Yield Total Count Definition: Entire Yield Total Count of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 271 Lifetime Total Area Definition: Entire Total Area of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops 15 - Municipal Work Unit: m² - Area Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 272 Lifetime Effective Total Distance Definition: Entire Total Distance of the device lifetime in working position. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: m - Distance Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-03-09 Status Comments: Attachments: none DD Entity: 273 Lifetime Ineffective Total Distance Definition: Entire Ineffective Total Distance of the device lifetime out of working position. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: m - Distance Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-03-09 Status Comments: Attachments: none DD Entity: 274 Lifetime Effective Total Time Definition: Entire Effective Total Time of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 275 Lifetime Ineffective Total Time Definition: Entire Ineffective Total Time of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 276 Lifetime Fuel Consumption Definition: Entire Fuel Consumption of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: L - Capacity count Resolution: 0,5 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 1073741823,5 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 277 Lifetime Average Fuel Consumption per Time Definition: Entire Average Fuel Consumption per Time of the device lifetime. Comment: This is the overall average of the device. This average does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm³/s - Flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Submit Date: 2012-01-09 Submit Company: Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 278 Lifetime Average Fuel Consumption per Area Definition: Entire Average Fuel Consumption per Area of the device lifetime. Comment: This is the overall average of the device. This average does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: mm³/m² - Capacity per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 279 Lifetime Yield Total Dry Mass Definition: Entire Yield Total Dry Mass of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 280 Lifetime Yield Total Seed Cotton Mass Definition: Entire Yield Total Seed Cotton Mass of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 281 Lifetime Yield Total Lint Cotton Mass Definition: Entire Yield Total Lint Cotton Mass of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 14 - Special Crops Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 282 Lifetime Threshing Engagement Total Time Definition: Entire Threshing Engagement Total Time of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-09 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 283 Precut Total Count Definition: The total number of pre-cutted product units produced by a device during an operation. Comment: Precut Total Count is a total of a device element. It is intended to be used as a task based total value and therefore it is recommended to support the on-time and on-change trigger methods. The total trigger method and the setable property are required for this DDE. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-12 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 284 Uncut Total Count Definition: The total number of un-cutted product units produced by a device during an operation. Comment: Uncut Total Count is a total of a device element. It is intended to be used as a task based total value and therefore it is recommended to support the on-time and on-change trigger methods. The total trigger method and the setable property are required for this DDE. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-12 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 285 Lifetime Precut Total Count Definition: Entire Precut Total Count of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-12 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 286 Lifetime Uncut Total Count Definition: Entire Uncut Total Count of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-01-12 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-02-15 Status Comments: Attachments: none DD Entity: 287 Setpoint Prescription Mode Definition: This DDE defines the source of the Task Controller set point value sent to the Control Function. This DDI shall be defined as DPD in the DDOP and needs to be setable. The TC shall then set this DDI before starting a prescription operation. The WS (Working Set) shall set this value to zero (0) after system start. Comment: The Task Controller Prescription Mode shall have the following values: 0 = Unknown / not defined 1 = Prescription Rate 2 = Prescription Default 3 = Prescription GPS loss 4 = Prescription Out Of Field 5 = Manual Entry 6 = Peer Control 7 and higher are reserved for future assignments Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 6 Display Range: 0 - 6 Submit by: Joe Tevis Submit Date: 2013-09-23 Submit Company: Topcon Revision Number: 2 Current Status: Published Status Date: 2022-10-28 Status Comments: Change status to published Attachments: https://www.isobus.net/isobus/attachments/401/Prescription Mode Supporting Doc-v1.ppt DD Entity: 288 Actual Prescription Mode Definition: This DDE defines the actual source of the set point value used by the Control Function. This DDI shall be defined as DPD in the DDOP and shall not be setable and need to support the on change trigger. The TC should request this DDI in case of an active prescription operation for documentation purpose. Comment: The Control Function Prescription Mode sahll have one of the following values: 0 = Unknown / not defined 1 = TC rate 2 = Manual Entry 3 = Peer Control 4 = Max override 5 = Min override 6 and higher are reserved for future assignments Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 5 Display Range: 0 - 5 Submit by: Joe Tevis Submit Date: 2013-09-23 Submit Company: Topcon Revision Number: 2 Current Status: Published Status Date: 2022-10-28 Status Comments: Change status to published Attachments: none DD Entity: 289 Setpoint Work State Definition: The Setpoint Work State DDI is the control command counterparts to the Work State DDI (141). The separation of the control commands through one DDI from the actual state communicated through another DDI enables verification of the transmission of the control commands independent from the effectuation of the requested control action. Comment: See DDI 290 attachment for implementation guideline. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Status was published Attachments: none DD Entity: 290 Setpoint Condensed Work State (1-16) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 1 to 16 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/345/ISO11783-11-DDI-290-SetpointWorkState-v1.pdf DD Entity: 291 Setpoint Condensed Work State (17-32) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 17 to 32 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 292 Setpoint Condensed Work State (33-48) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 33 to 48 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 293 Setpoint Condensed Work State (49-64) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 49 to 64 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 294 Setpoint Condensed Work State (65-80) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 65 to 80 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 295 Setpoint Condensed Work State (81-96) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 81 to 96 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 296 Setpoint Condensed Work State (97-112) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 97 to 112 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 297 Setpoint Condensed Work State (113-128) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 113 to 128 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Attachments: none DD Entity: 298 Setpoint Condensed Work State (129-144) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 129 to 144 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 299 Setpoint Condensed Work State (145-160) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 145 to 160 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 300 Setpoint Condensed Work State (161-176) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 161 to 176 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 301 Setpoint Condensed Work State (177-192) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 177 to 192 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 302 Setpoint Condensed Work State (193-208) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 193 to 208 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 303 Setpoint Condensed Work State (209-224) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 209 to 224 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 304 Setpoint Condensed Work State (225-240) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 225 to 240 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Attachments: none DD Entity: 305 Setpoint Condensed Work State (241-256) Definition: The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176). The value is a combination of the setpoint work states of individual sections or units (e.g. nozzles) number 241 to 256 into a single setpoint work state of their parent device element. The setpoint condensed work state contains the child element setpoint work states, in the driving direction from left to right, where the leftmost child element setpoint work state are the 2 lowest significant bits of the Process Data Value. Each child device elements setpoint work state is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element setpoint work states can be contained in one setpoint condensed work state of their parent device element. If less than 16 child device element setpoint work states are available, then the unused bits shall be set to value 11 (no change). When the parent device element contains the Setpoint Condensed Work State DDE, then the device descriptor shall not contain the individual setpoint work state DDEs in the child device elements. Comment: See the Setpoint Work State DDI (289) attachment for backwards compatibility and implementation guidelines. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Jaap van Bergeijk Submit Date: 2012-01-19 Submit Company: AGCO corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2012-04-02 Status Comments: Status was published Attachments: none DD Entity: 306 True Rotation Point X-Offset Definition: X direction offset of the device rotation point relative to the DRP. Comment: For devices with more than one axle the rotation point can be located at another position within the device than the DRP. In this case, the True Rotation Point X and Y Offset DDIs shall be used to define the location of the rotation point on the device. Both DDI's shall be attached to the device element of type Device. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 14 - Special Crops 15 - Municipal Work Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-06-05 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-07-03 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/370/ISO11783-11-DDI-306-True Rotation Point-v1.pdf DD Entity: 307 True Rotation Point Y-Offset Definition: Y direction offset of the device rotation point relative to the DRP. Comment: For devices with more than one axle the rotation point can be located at another position within the device than the DRP. In this case, the True Rotation Point X and Y Offset DDIs shall be used to define the location of the rotation point on the device. Both DDI's shall be attached to the device element of type Device. See also attachment of True Rotation Point X-Offset, DDI 306. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 14 - Special Crops 15 - Municipal Work Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-06-05 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-07-03 Status Comments: Attachments: none DD Entity: 308 Actual Percentage Application Rate Definition: Actual Application Rate expressed as percentage Comment: Counterpart to DDI 140 (Percentage Application Rate Setpoint) Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2012-06-05 Submit Company: 98 - Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-07-03 Status Comments: Attachments: none DD Entity: 309 Minimum Percentage Application Rate Definition: Minimum Application Rate expressed as percentage Comment: Supplied by device as physical minimum, see also DDI 140. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-07-03 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-07-03 Status Comments: Attachments: none DD Entity: 310 Maximum Percentage Application Rate Definition: Maximum Application Rate expressed as percentage Comment: Supplied by device as physical maximum, see also DDI 140. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2012-07-03 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2012-07-03 Status Comments: Attachments: none DD Entity: 311 Relative Yield Potential Definition: Relative yield potential provided by a FMIS or a sensor or entered by the operator for a certain task expressed as percentage. Comment: Relative yield potential could be used as input for an intelligent unit to calculate the appropriate amount of fertilizer / seed / etc. more accurate. Typical range is 80 to 120%. Expressed in ppm this is 800,000 to 1,200,000. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-07-26 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-08-27 Status Comments: Attachments: none DD Entity: 312 Minimum Relative Yield Potential Definition: Minimum potential yield expressed as percentage. Comment: This DDIs is used by the system to provide information about its value range support for relative yield potential. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-07-29 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-08-27 Status Comments: Attachments: none DD Entity: 313 Maximum Relative Yield Potential Definition: Maximum potential yield expressed as percentage. Comment: This DDIs is used by the system to provide information about its value range support for relative yield potential. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-08-27 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-08-27 Status Comments: Attachments: none DD Entity: 314 Actual Percentage Crop Dry Matter Definition: Actual Percentage Crop Dry Matter expressed as parts per million. Comment: This DDE defines the actual percentage of dry matter in the harvested crop. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 17 - Sensor System Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-09-17 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-09-24 Status Comments: Attachments: none DD Entity: 315 Average Percentage Crop Dry Matter Definition: Average Percentage Crop Dry Matter expressed as parts per million. Comment: This DDE defines the average percentage of dry matter in the harvested crop. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 17 - Sensor System Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-09-17 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-09-24 Status Comments: Attachments: none DD Entity: 316 Effective Total Fuel Consumption Definition: Accumulated total fuel consumption in working position. Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-09-17 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-09-24 Status Comments: Attachments: none DD Entity: 317 Ineffective Total Fuel Consumption Definition: Accumulated total fuel consumption in non working position. Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-09-17 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-09-24 Status Comments: Attachments: none DD Entity: 318 Effective Total Diesel Exhaust Fluid Consumption Definition: Accumulated total Diesel Exhaust Fluid consumption in working position. Comment: Example: Diesel Exhaust Fluid as specified per ISO22241. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-09-17 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-09-24 Status Comments: Attachments: none DD Entity: 319 Ineffective Total Diesel Exhaust Fluid Consumption Definition: Accumulated total Diesel Exhaust Fluid consumption in non working position. Comment: Example: Diesel Exhaust Fluid as specified per ISO22241. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2012-09-24 Submit Company: CLAAS Agrosystems GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2012-09-24 Status Comments: Attachments: none DD Entity: 320 Last loaded Weight Definition: Last loaded Weight value specified as mass Comment: After a loading Procedure, this DDI sends the loaded Mass. For more information see attachment located at Last loaded Weight DDE Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2013-01-14 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 1 Current Status: Published Status Date: 2020-05-18 Status Comments: Correct link in attachment Attachments: https://www.isobus.net/isobus/attachments/388/ISO_11783-11-DDI-320-Weighing_Load_Unload-v5.pdf DD Entity: 321 Last unloaded Weight Definition: Last unloaded Weight value specified as mass Comment: After a unloading Procedure, this DDI sends the unloaded Mass. For more information see attachment located at Last loaded Weight DDE Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2013-01-14 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2013-02-04 Status Comments: Attachments: none DD Entity: 322 Load Identification Number Definition: The Load Identification Number as a decimal number in the range of 0 to 2147483647. Note that the value of this DDI has the limitation of being an signed 32 bit number. Comment: The DDI Load Identification Number can be used together with the DDI “320 - Last loaded Weight” to document the loading of material on a weighing system. See also the attached document for more details. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 14 - Special Crops 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2013-05-21 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2024-05-21 Status Comments: Status was published Attachments: https://www.isobus.net/isobus/attachments/1005/ISO11783-11-DDI-322-Load_Identification_Number_v1-v2.pdf DD Entity: 323 Unload Identification Number Definition: The Unload Identification Number as a decimal number in the range of 0 to 2147483647. Note that the value of this DDI has the limitation of being an unsigned 32 bit number. Comment: The DDI Unload Identification Number can be used together with the DDI “321 - Last Unloaded Weight” to document the unloading of material on a weighing system. See also the attached document for more details. Note: for more detailed information see also the attachment on DDI 322! Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 14 - Special Crops 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2013-07-15 Submit Company: 367 - Fliegl Agratechnik GmbH Revision Number: 1 Current Status: Published Status Date: 2024-05-03 Status Comments: Attachment deleted and added a note to look at DDI 322 Attachments: none DD Entity: 324 Chopper Engagement Total Time Definition: Accumulated time while the chopping mechanism is engaged Comment: This DDE represents the total engagement time of the chopping mechanism of the machine and is recommended to be used at maximum once within the device description in the device element that represents the machine. This DDE is designated for the chopping unit of a forage harvester. It could be also used for the straw chopper of a harvester. For combine harvesters please also see DDE 236 Threshing Engagement Total Time. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Martin Sperlich Submit Date: 2013-06-17 Submit Company: CLAAS Agrosystems KGaA mbH & Co KG Revision Number: 1 Current Status: ISO-Published Status Date: 2013-07-15 Status Comments: Attachments: none DD Entity: 325 Lifetime Application Total Volume Definition: Entire Application Total Volume of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 9 - Forage harvester 10 - Irrigation Unit: L - Capacity count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Michael Köcher Submit Date: 2013-09-02 Submit Company: AMAZONE Revision Number: 1 Current Status: ISO-Published Status Date: 2013-09-27 Status Comments: Attachments: none DD Entity: 326 Setpoint Header Speed Definition: The setpoint rotational speed of the header attachment of a chopper, mower or combine Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2015-11-27 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2013-12-04 Status Comments: Attachments: none DD Entity: 327 Actual Header Speed Definition: The actual rotational speed of the header attachment of a chopper, mower or combine Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2013-12-04 Status Comments: Attachments: none DD Entity: 328 Minimum Header Speed Definition: The minimum rotational speed of the header attachment of a chopper, mower or combine Comment: This is a value recommented by the manufacturer of the machine as the minimum speed (unlike 0) for a propper working Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 329 Maximum Header Speed Definition: The maximum rotational speed of the header attachment of a chopper, mower or combine Comment: This is a value recommented by the manufacturer of the machine as the maximum speed the machine is able to offer Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 330 Setpoint Cutting drum speed Definition: The setpoint speed of the cutting drum of a chopper Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 331 Actual Cutting drum speed Definition: The actual speed of the cutting drum of a chopper Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 332 Minimum Cutting drum speed Definition: The minimum speed of the cutting drum of a chopper Comment: This is a value recommented by the manufacturer of the machine as the minimum speed (unlike 0) for a propper working Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 333 Maximum Cutting drum speed Definition: The maximum speed of the cutting drum of a chopper Comment: This is a value recommented by the manufacturer of the machine as the maximum speed the machine is able to offer Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: /s - Quantity per time unit Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 334 Operating Hours Since Last Sharpening Definition: This value describes the working hours since the last sharpening of the cutting device. Comment: As the sharpness of the cutting drums cutters on a harvester is an important indicator for cutting quality and an important factor for the fuel usage, this value provides information about quality and effectivity of the harvesting process Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 12 - Farmyard Work 14 - Special Crops 15 - Municipal Work Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 335 Front PTO hours Definition: The hours the Front PTO of the machine was running for the current Task Comment: This value provides information of the active working time for example of the header attachment of a selfpropelled machine Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 336 Rear PTO hours Definition: The hours the Rear PTO of the machine was running for the current Task Comment: This value provides information of the active working time for example the rear PTO of a machine. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2014-01-17 Submit Company: John Deere Revision Number: 2 Current Status: ISO-Published Status Date: 2019-12-16 Status Comments: Status was published Attachments: none DD Entity: 337 Lifetime Front PTO hours Definition: The hours the Front PTO of the machine was running for the lifetime of the machine Comment: This value provides information of the active working time for example of the header attachment of a selfpropelled machine Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 12 - Farmyard Work 14 - Special Crops 15 - Municipal Work Unit: h - Hour Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,0 - 214748364,7 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 338 Lifetime Rear PTO Hours Definition: The hours the Rear PTO of the machine was running for the lifetime of the machine Comment: This value provides information of the active working time for example the rear PTO of a machine. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: h - Hour Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,0 - 214748364,7 Submit by: Meyer Matthias Submit Date: 2014-01-17 Submit Company: John Deere Revision Number: 2 Current Status: ISO-Published Status Date: 2019-12-16 Status Comments: Status was published Attachments: none DD Entity: 339 Effective Total Loading Time Definition: The total time needed in the current task to load a product such as crop. Comment: Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester 11 - Transport / Trailers 12 - Farmyard Work Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 340 Effective Total Unloading Time Definition: The total time needed in the current task to unload a product crop. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 12 - Farmyard Work Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-01-17 Status Comments: Attachments: none DD Entity: 341 Setpoint Grain Kernel Cracker Gap Definition: The setpoint gap (distance) of the grain kernel cracker drums in a chopper. Comment: The gap (distance) of the grain kernel cracker is an indicator to the quality of chopped corn. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2013-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2014-02-24 Status Comments: Attachments: none DD Entity: 342 Actual Grain Kernel Cracker Gap Definition: The actual gap (distance) of the grain kernel cracker drums in a chopper Comment: The actual gap (distance) of the grain kernel cracker is an indicator to the quality of chopped corn. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2014-02-25 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-02-25 Status Comments: Attachments: none DD Entity: 343 Minimum Grain Kernel Cracker Gap Definition: The minimum gap (distance) of the grain kernel cracker drums in a chopper Comment: The minimum gap (distance) of the grain kernel cracker that can be adjusted Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2014-02-25 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-02-25 Status Comments: Attachments: none DD Entity: 344 Maximum Grain Kernel Cracker Gap Definition: The maximum gap (distance) of the grain kernel cracker drums in a chopper Comment: The maximum gap (distance) of the grain kernel cracker that can be adjusted. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2014-02-25 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-02-25 Status Comments: Attachments: none DD Entity: 345 Setpoint Swathing Width Definition: This is the setpoint swathing width of the swath created by a raker. Comment: For mowers the working width DDIs will represent the width of the mower whereas swathing width will represent the swath with created by the mover. Typically used by Device Classes: 0 - Non-specific system 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2014-03-17 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-03-25 Status Comments: Attachments: none DD Entity: 346 Actual Swathing Width Definition: This is the width of the swath currently created by a raker. Comment: For mowers the working width DDIs will represent the width of the mower whereas swathing width will represent the swath width created by the mover. Typically used by Device Classes: 0 - Non-specific system 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2014-03-17 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-03-25 Status Comments: Attachments: none DD Entity: 347 Minimum Swathing Width Definition: This is the minimum swath width the raker can create. Comment: For mowers the working width DDIs will represent the width of the mower whereas swathing width will represent the swath width created by the mover. Typically used by Device Classes: 0 - Non-specific system 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2014-03-17 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-03-25 Status Comments: Attachments: none DD Entity: 348 Maximum Swathing Width Definition: This is the maximum with of the swath the raker can create. Comment: For mowers the working width DDIs will represent the width of the mower whereas swathing width will represent the swath width created by the mover. Typically used by Device Classes: 0 - Non-specific system 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2014-03-17 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2014-03-25 Status Comments: Attachments: none DD Entity: 349 Nozzle Drift Reduction Definition: The Nozzle Drift Reduction classification value of the spraying equipment as percentage Comment: The use of this DDE is to document the current used drift reducing classification of the nozzles or combination of drift reducing technique as percentage value. To record documentation obligation product during applying in adjacency of sensitive areas. For more information about nozzle drift classification see also Standard ISO 22369-1 "Crop protection equipment - Drift classification of spraying equipment" Typically used by Device Classes: 6 - Sprayers Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 100 Display Range: 0 - 100 Submit by: Matthias Meyer Submit Date: 2014-06-18 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2014-06-18 Status Comments: Attachments: none DD Entity: 350 Function or Operation Technique Definition: The Function or Operation Technique DDE can be used to define the operation technique or functionality performed by a device element defined within the DDOP. The values to be used are defined in the attached document. Comment: In a DDOP (Device Description Object Pool) of an ISOBUS device there are different functionalities covered. The device element types in the Task Controller standard which are Device, Function, Bin, Section, Unit, Connector Type, and Navigation Reference do not last out for certain or more complex devices to describe all information in a unique way to the Task Controller Server. For more information see the attached document. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2014-07-01 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2018-04-09 Status Comments: In Version 6 a function for proprietary usage was added Attachments: https://www.isobus.net/isobus/attachments/447/ISO11783-11-DDI-350-Function and Operation Technique Type-v8.pdf DD Entity: 351 Application Total Volume in [ml] Definition: Accumulated Application specified as volume in milliliter [ml] Comment: is a counter of a device element Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2014-07-02 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2014-07-02 Status Comments: Attachments: none DD Entity: 352 Application Total Mass in gram [g] Definition: Accumulated Application specified as mass in gram [g] Comment: is a counter of a device element Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2014-07-02 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2014-07-02 Status Comments: Attachments: none DD Entity: 353 Total Application of Nitrogen [N2] Definition: Accumulated application of nitrogen [N2] specified as gram [g] Comment: This total is a counter of a device element Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2014-06-04 Submit Company: Zunhammer Revision Number: 1 Current Status: Published Status Date: 2020-07-13 Status Comments: Added device class 25 Attachments: none DD Entity: 354 Total Application of Ammonium Definition: Accumulated application of ammonium [NH4] specified as gram [g] Comment: This total is a counter of a device element Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2014-06-04 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2020-07-13 Status Comments: Added device class 25 Attachments: none DD Entity: 355 Total Application of Phosphor Definition: Accumulated application of phosphor (P2O5) specified as gram [g] Comment: This total is a counter of a device element Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2014-06-04 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2020-07-13 Status Comments: Added device class 25 Attachments: none DD Entity: 356 Total Application of Potassium Definition: Accumulated application of potassium [K] specified as gram [g] Comment: This total is a counter of a device element Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2014-06-04 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2021-10-25 Status Comments: Change unit name from K2 to K only Attachments: none DD Entity: 357 Total Application of Dry Matter Definition: Accumulated application of dry matter in kilogram [kg]. Dry matter measured at zero percent of moisture Comment: This total is a counter of a device element Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2014-06-04 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2020-07-13 Status Comments: Added device class 25 Attachments: none DD Entity: 358 Average Dry Yield Mass Per Time Definition: Average Yield expressed as mass per unit time, corrected for the reference moisture percentage DDI 184. This value is the average for a Task and may be reported as a total. Comment: This Average Dry Yield Mass Per Time is the mass flow that has been corrected for the average crop moisture (DDI 262) based on the reference moisture for dry mass (DDI 184). This is the "dry" equivalent to DDI 261. This average yield mass per time is calculated as the yield total dry mass (DDI 183) divided by the effective total time (DDI 119) of the active task. When resuming a task, the working set shall compute its average dry yield mass per time from the yield total mass (DDI 90), average crop moisture (DDI 262), reference moisture percentage (DDI 184), and effective total time (119) assuming these DDI's are sent by the task controller. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Tony Woodcock Submit Date: 2014-08-08 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Published Status Date: 2014-08-26 Status Comments: Status was published Attachments: none DD Entity: 359 Average Dry Yield Mass Per Area Definition: Average Yield expressed as mass per unit area, corrected for the reference moisture percentage DDI 184. This value is the average for a Task and may be reported as a total. Comment: This Average Dry Yield Mass Per Area is the mass flow that has been corrected for the average crop moisture (DDI 262) based on the reference moisture for dry mass (DDI 184). This is the "dry" equivalent to DDI 263. This average yield mass per area is calculated as the yield total dry mass (DDI 183) divided by the total area (DDI 116) of the active task. When resuming a task, the working set shall compute its average dry yield mass per area from the yield total mass (DDI 90), average crop moisture (DDI 262), reference moisture percentage (DDI 184), and total area (DDI 116) assuming these DDI's are sent by the task controller. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Tony Woodcock Submit Date: 2014-08-08 Submit Company: Ag Leader Technology Revision Number: 1 Current Status: ISO-Published Status Date: 2014-08-26 Status Comments: Attachments: none DD Entity: 360 Last Bale Size Definition: The bale size of the most recently produced bale. Bale Size as length for a square baler or diameter for a round baler. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler can add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lynn Derynck Submit Date: 2014-11-07 Submit Company: CNH Industrial N.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2014-12-03 Status Comments: Attachments: none DD Entity: 361 Last Bale Density Definition: The bale density of the most recently produced bale. Unit: mg/l (mass per unit volume) Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler can add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mg/l - Mass per capacity unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lynn Derynck Submit Date: 2014-11-07 Submit Company: CNH Industrial N.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2014-12-03 Status Comments: Attachments: none DD Entity: 362 Total Bale Length Definition: Gives the total baled meters during a task. This is calculated as the sum of the lengths of all knotted bales (square baler). Comment: Typically used by Device Classes: 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lynn Derynck Submit Date: 2014-11-07 Submit Company: CNH Industrial N.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2014-12-03 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/459/ISO_11783-11_DDIdentifier_Total Bale Length-v1.doc DD Entity: 363 Last Bale Dry Mass Definition: The dry mass of the bale that has most recently been produced. This is the bale mass corrected for the average moisture of this bale (DDI 212). Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: g - Mass large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lynn Derynck Submit Date: 2014-11-07 Submit Company: CNH Industrial N.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2014-12-03 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/460/ISO_11783-11_DDIdentifier Last Bale Mass Dry-v1.doc DD Entity: 364 Actual Flake Size Definition: Actual size of the flake that is currently produced by the chamber. Comment: The recommended use of this DDE is for a baler to report this once for each new flake that entered the baler chamber and obtained at the maximum compression of the plunger. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE at each new flake. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 1000 Display Range: 0 - 1000 Submit by: Lynn Derynck Submit Date: 2014-11-07 Submit Company: CNH Industrial N.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2015-01-13 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/461/ISO_11783-11_DDIdentifier_ Flake Size-v1.doc DD Entity: 365 Setpoint Downforce Pressure Definition: Setpoint downforce pressure for an operation Comment: This value represents the system pressure to produce the downforce (or upforce) for an operation messured in Pa (Pascal); In case of an negative value the system pressure would produce Upforce. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer Unit: Pa - Pressure Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Brandon McDonald Submit Date: 2014-12-04 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2015-01-13 Status Comments: Attachments: none DD Entity: 366 Actual Downforce Pressure Definition: Actual downforce pressure for an operation Comment: This value represents the actual system pressure to produce the downforce (or upforce) for an operation messured in Pa (Pascal); In case of an negative value the system pressure would produce Upforce. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer Unit: Pa - Pressure Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Brandon McDonald Submit Date: 2014-12-04 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2015-01-13 Status Comments: Attachments: none DD Entity: 367 Condensed Section Override State (1-16) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 1 to 16 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2014-11-18 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 368 Condensed Section Override State (17-32) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 17 to 32 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-20 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 369 Condensed Section Override State (33-48) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 33 to 48 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-20 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 370 Condensed Section Override State (49-64) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 49 to 64 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-20 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 371 Condensed Section Override State (65-80) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 65 to 80 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 372 Condensed Section Override State (81-96) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 81 to 96 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 373 Condensed Section Override State (97-112) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 97 to 112 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 374 Condensed Section Override State (113-128) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 113 to 128 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 375 Condensed Section Override State (129-144) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 129 to 144 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 376 Condensed Section Override State (145-160) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 145 to 160 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 377 Condensed Section Override State (161-176) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 161 to 176 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 378 Condensed Section Override State (177-192) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 177 to 192 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 379 Condensed Section Override State (193-208) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 193 to 208 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 380 Condensed Section Override State (209-224) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 209 to 224 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 381 Condensed Section Override State (225-240) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 225 to 240 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 382 Condensed Section Override State (241-256) Definition: This DDE is used by the implement to communicate that a certain section is overridden and will not follow the section control commands. The value is a combination of the override states of individual sections number 241 to 256 into a single override state. The condensed section override state contains the child element override states, in the driving direction from left to right, where the leftmost child element override state are the 2 lowest significant bits of the Process Data Value. Each child device elements override state is represented by 2 bits and defined as: 00 = section is not overridden, 01 = section is overridden, 10 = reserved, 11 = undefined / not installed. In total 16 child device element override states can be contained in one condensed section override state. If less than 16 child device element override states are available, then the unused bits shall be set to value 11 (undefined / not installed). This DDE shall be placed in the same device element as the corresponding actual condensed work state. Comment: It is common for SC servers to show the current state of the sections in a proprietary screen. As the implement is allowed to override the commanded state from the task controller it is impossible for the operator to predict what happens when driving into an unworked area. With this DDE it is possible for the SC server to show overridden sections in the proprietary screen. This DDE shall be defined as DPD in the DDOP of the implement. The DPD shall at least support the datalog triggers “on change” and “time based”. The value shall only be sent by the implement if it was requested (single request or datalog trigger) by the TC-SC server. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Michael Köcher Submit Date: 2015-01-21 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-27 Status Comments: Status was published Attachments: none DD Entity: 383 Apparent Wind Direction Definition: The apparent wind is the wind which is measured on a moving vehicle. It is the result of two motions: the actual true wind and the motion of the vehicle. The wind angle is referenced to the present heading of the vehicle (Zero degree refers to the vehicle driving direction). Comment: DDI 207 defines the true wind. DDI 208 defines the true wind angle. Typically used by Device Classes: 0 - Non-specific system Unit: ° - Angle Resolution: 1 SAE SPN: CANBus Range: 0 - 359 Display Range: 0 - 359 Submit by: Jan Steenbock Submit Date: 2015-01-12 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2015-02-10 Status Comments: Attachments: none DD Entity: 384 Apparent Wind Speed Definition: The apparent wind is the wind which is measured on a moving vehicle. It is the result of two motions: the actual true wind and the motion of the vehicle. Comment: DDI 207 defines the true wind. DDI 208 defines the true wind angle. Typically used by Device Classes: 0 - Non-specific system 17 - Sensor System Unit: mm/s - Speed Resolution: 1 SAE SPN: CANBus Range: 0 - 100000000 Display Range: 0 - 100000000 Submit by: Jan Steenbock Submit Date: 2015-01-12 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2015-02-10 Status Comments: Attachments: none DD Entity: 385 MSL Atmospheric Pressure Definition: The atmospheric pressure MSL (Mean Sea Level) is the air pressure related to mean sea level. Comment: In weather charts only the converted pressure to mean sea level is indicated. Only the pressure changes due to the weather has to be considered. Typically used by Device Classes: 0 - Non-specific system 17 - Sensor System Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2000000 Display Range: 0,0 - 200000,0 Submit by: Jan Steenbock Submit Date: 2015-03-30 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-03-30 Status Comments: Attachments: none DD Entity: 386 Actual Atmospheric Pressure Definition: The Actual Atmospheric Pressure is the air pressure currently measured by the weather station. Comment: This value does take the current altitude (field position) into count. Typically used by Device Classes: 0 - Non-specific system 17 - Sensor System Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2000000 Display Range: 0,0 - 200000,0 Submit by: Jan Steenbock Submit Date: 2015-03-30 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-03-30 Status Comments: Attachments: none DD Entity: 387 Total Revolutions in Fractional Revolutions Definition: Accumulated Revolutions specified with fractional revolutions Comment: Forward or Clockwise rotation represented as positive numbers and reverse or Counter-Clockwise rotation represented by negative numbers.To prevent rounding errors the basic unit r/min where chosen. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: # - Quantity/Count Resolution: 0,0001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748,3648 - 214748,3647 Submit by: Mike Schmidt Submit Date: 2015-04-24 Submit Company: AGCO Corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2015-04-24 Status Comments: Attachments: none DD Entity: 388 Total Revolutions in Complete Revolutions Definition: Accumulated Revolutions specified as completed integer revolutions Comment: Forward or Clockwise rotation represented as positive numbers and reverse or Counter-Clockwise rotation represented by negative numbers. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Mike Schmidt Submit Date: 2015-04-24 Submit Company: AGCO Corporation Revision Number: 1 Current Status: ISO-Published Status Date: 2015-04-24 Status Comments: Attachments: none DD Entity: 389 Setpoint Revolutions specified as count per time Definition: Setpoint Revolutions specified as count per time Comment: Forward or Clockwise rotation represented as positive numbers and reverse or Counter-Clockwise rotation represented by negative numbers. To prevent rounding errors the basic unit r/min where chosen. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748,3648 - 214748,3647 Submit by: David Kuhnel Submit Date: 2015-04-24 Submit Company: DICKEY-john Corp Revision Number: 1 Current Status: ISO-Published Status Date: 2015-04-24 Status Comments: Attachments: none DD Entity: 390 Actual Revolutions Per Time Definition: Actual Revolutions specified as count per time Comment: Forward or Clockwise rotation represented as positive numbers and reverse or Counter-Clockwise rotation represented by negative numbers. To prevent rounding errors the basic unit r/min where chosen. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748,3648 - 214748,3647 Submit by: David Kuhnel Submit Date: 2015-03-23 Submit Company: DICKEY-john Corp Revision Number: 1 Current Status: ISO-Published Status Date: 2015-03-23 Status Comments: Attachments: none DD Entity: 391 Default Revolutions Per Time Definition: Default Revolutions specified as count per time Comment: Forward or Clockwise rotation represented as positive numbers and reverse or Counter-Clockwise rotation represented by negative numbers. To prevent rounding errors the basic unit r/min where chosen. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748,3648 - 214748,3647 Submit by: David Kuhnel Submit Date: 2015-03-23 Submit Company: DICKEY-john Corp Revision Number: 1 Current Status: ISO-Published Status Date: 2015-03-23 Status Comments: Attachments: none DD Entity: 392 Minimum Revolutions Per Time Definition: Minimum Revolutions specified as count per time Comment: Forward or Clockwise rotation represented as positive numbers and reverse or Counter-Clockwise rotation represented by negative numbers. To prevent rounding errors the basic unit r/min where chosen. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748,3648 - 214748,3647 Submit by: David Kuhnel Submit Date: 2015-03-23 Submit Company: DICKEY-john Corp Revision Number: 1 Current Status: ISO-Published Status Date: 2015-03-23 Status Comments: Attachments: none DD Entity: 393 Maximum Revolutions Per Time Definition: Maximum Revolutions specified as count per time Comment: Forward or Clockwise rotation represented as positive numbers and reverse or Counter-Clockwise rotation represented by negative numbers. To prevent rounding errors the basic unit r/min where chosen. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -214748,3648 - 214748,3647 Submit by: David Kuhnel Submit Date: 2015-07-02 Submit Company: DICKEY-john Corp Revision Number: 1 Current Status: ISO-Published Status Date: 2015-07-02 Status Comments: Attachments: none DD Entity: 394 Actual Fuel Tank Content Definition: The actual content of the fuel tank Comment: This value can be used to see the refilling of the fuel tank or the theft of fuel. Typically used by Device Classes: 1 - Tractor 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hans van Zadelhoff Submit Date: 2015-07-02 Submit Company: Grimme Landmaschinenfabrik GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-09-05 Status Comments: Status was published Attachments: none DD Entity: 395 Actual Diesel Exhaust Fluid Tank Content Definition: The actualcontent of the diesel exhaust fluid tank Comment: This value can be used to see the refilling of the diesel exhaust fluid tank or the theft of diesel exhaust fluid. Typically used by Device Classes: 1 - Tractor 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hans van Zadelhoff Submit Date: 2015-07-02 Submit Company: Grimme Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-07-02 Status Comments: Attachments: none DD Entity: 396 Setpoint Speed Definition: The setpoint speed that can be specified in a process data variable for communication between farm management information systems and mobile implement control systems. The setpoint speed DDI may also be used in a device description object pool to specify support for speed control by a device. A positive value will represent forward direction and a negative value will represent reverse direction. Comment: The implementation of speed control on the mobile implement control system may use other ISO11783 network parameter groups (e.g. ISO11783-7 Commanded Vehicle Speed and Machine Selected Speed Setpoint) and may be subject to control request authentication requirements. The definition of this DDI has been added to the ISO 11783-11 data dictionary to facilitate the specification of a setpoint speed in a task data transfer file and to enable specification of the support of speed control in a device description object pool. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: mm/s - Speed Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Hans van Zadelhoff Submit Date: 2015-02-12 Submit Company: Grimme Landmaschinenfabrik GmbH & Co. KG Revision Number: 3 Current Status: ISO-Published Status Date: 2015-04-24 Status Comments: Attachments: none DD Entity: 397 Actual Speed Definition: The actual speed as measured on or used by a device for the execution of task based data, e.g. to convert a setpoint rate expressed per area to device specific control data that is expressed as a rate per time. The actual speed can be measured by the device itself or it can be a speed value that is obtained from one of the speed parameter groups that are broadcasted on the ISO11783 network and defined in ISO11783-7. Examples of broadcasted speed parameter groups are wheel based speed, ground based speed and machine selected speed. The source of the actual speed can be specified by a Speed Source DDI that is present in the same device element as the speed DDI. A positive value will represent forward direction and a negative value will represent reverse direction. Comment: This DDI has been added to the data dictionary to support logging of the speed that the device uses for processing and for generation of task data. The addition of a DDI for actual speed allows speed values to be added to the default data set that devices present to a task controller or a data logger. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: mm/s - Speed Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Hans van Zadelhoff Submit Date: 2015-04-24 Submit Company: Grimme Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-04-24 Status Comments: Attachments: none DD Entity: 398 Minimum Speed Definition: The minimum speed that can be specified in a process data variable for communication between farm management information systems and mobile implement control systems. A positive value will represent forward direction and a negative value will represent reverse direction. Comment: This DDI has been added to the data dictionary to support the setting and logging of a minimum speed for a part of a device. See also the definitions of the Setpoint, Actual and Maximum Speed DDIs for additional definition and implementation information of Speed DDIs. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: mm/s - Speed Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Hans van Zadelhoff Submit Date: 2015-09-02 Submit Company: Grimme Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-09-02 Status Comments: Attachments: none DD Entity: 399 Maximum Speed Definition: The maximum speed that can be specified in a process data variable for communication between farm management information systems and mobile implement control systems. A positive value will represent forward direction and a negative value will represent reverse direction. Comment: This DDI has been added to the data dictionary to support the setting and logging of a maximum speed for a part of a device. See also the definitions of the Setpoint, Actual and Minimum Speed DDIs for additional definition and implementation information of Speed DDIs. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: mm/s - Speed Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Hans van Zadelhoff Submit Date: 2015-09-02 Submit Company: Grimme Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-09-02 Status Comments: Attachments: none DD Entity: 400 Speed Source Definition: The Speed Source that the device uses to report actual speed and to process the setpoint, minimum and maximum speeds. The Speed Source value is an enumeration with the following definitions: 0 = Unknown 1 = Wheel-based speed 2 = Ground-based speed 3 = Navigation-based speed 4 = Blended speed 5 = Simulated speed 6 = Machine Selected speed 7 = Machine measured speed (This option indicates the machine uses an own sensor to measures the actual speed, instead of the speed provided on the bus). 8 to 254 = Reserved 255 = No Source available Comment: The Speed Source DDI can be used in conjunction with the Actual Speed DDI to specify which speed measurement method is used to determine the value reported via the Actual, Setpoint, Minimum and Maximum Speed DDIs. When a device receives commands for Setpoint, Minimum or Maximum Speed then the Speed Source can be used to select a ISO 11783-7 command for speed control. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 255 Display Range: 0 - 255 Submit by: Jaap van Bergeijk Submit Date: 2015-09-02 Submit Company: AGCO corporation Revision Number: 2 Current Status: Published Status Date: 2018-04-09 Status Comments: Change information: 8 to 254 = Reserved 255 = No Source available Attachments: none DD Entity: 401 Actual Application of Nitrogen [N2] as [mg/l] Definition: Actual application of Nitrogen [N2] specified as milligram per liter [mg/l] Comment: Is the actual amount of Nitrogen [N2] in liquid manure ( see also DD Entity 353 ) Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: mg/l - Mass per capacity unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2015-09-02 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2020-07-13 Status Comments: added device class 25 Attachments: none DD Entity: 402 Actual application of Ammonium Definition: Actual application of Ammonium [NH4] specified as milligram per liter [mg/l] Comment: Is the actual amount of Ammonium [NH4] in liquig manure ( see also DD Entity 354 ) Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: mg/l - Mass per capacity unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2015-09-02 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2020-07-13 Status Comments: added device class 25 Attachments: none DD Entity: 403 Actual application of Phosphor Definition: Actual application of Phosphor [P2O5] specified as milligram per liter [mg/l] Comment: Is the actual amount of Phosphor [P2O5] in liquid manure ( see also DD Entity 355 ) Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: mg/l - Mass per capacity unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2015-03-11 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2020-07-13 Status Comments: Added device class Attachments: none DD Entity: 404 Actual application of Potassium Definition: Actual application of Potassium [K] specified as gram [g] Comment: is the actual amount of Potassium [K] in liquid manure ( see also DD Entity 356 ) Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: mg/l - Mass per capacity unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2015-09-02 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2021-10-25 Status Comments: Change unit name from K2 to K only Attachments: none DD Entity: 405 Actual application of Dry Matter Definition: Actual application of Dry Matter in kilogram [kg]. Dry matter measured at Zero percent of moisture. Comment: is the actual amount of Dry matter in liquid manure ( see also DD Entity 357 ) Typically used by Device Classes: 5 - Fertilizer 25 - Slurry Applicators Unit: mg/l - Mass per capacity unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Christoph Staub Submit Date: 2015-09-02 Submit Company: Zunhammer GmbH Revision Number: 1 Current Status: Published Status Date: 2020-07-13 Status Comments: Added device class 25 Attachments: none DD Entity: 406 Actual Protein Content Definition: Actual Protein content of a harvested crops Comment: Protein content of harvested crop expressed as a percent mass of the total crop. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Joe Tevis Submit Date: 2015-09-04 Submit Company: Topcon Revision Number: 1 Current Status: ISO-Published Status Date: 2015-09-04 Status Comments: Attachments: none DD Entity: 407 Average Protein Content Definition: Average protein content in a harvested crop Comment: Average protein content of harvested crop. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Joe Tevis Submit Date: 2015-09-04 Submit Company: Topcon Revision Number: 1 Current Status: ISO-Published Status Date: 2015-09-04 Status Comments: Attachments: none DD Entity: 408 Average Crop Contamination Definition: Average amount of dirt or foreign in a harvested crop Comment: Average amount of dirt or foreign in a harvested crop Typically used by Device Classes: 7 - Harvesters Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Ben Craker Submit Date: 2015-09-02 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-15 Status Comments: Attachments: none DD Entity: 409 Total Diesel Exhaust Fluid Consumption Definition: Accumulated Diesel Exhaust Fluid Consumption as a Task Total. Comment: This data definition is the Diesel Exhaust Fluid (DEF) consumption counterpart of the previously defined data dictionary entity 148 - Total Fuel Consumption. These data dictionary entities can be used by devices that support data logging of Fuel and Diesel Exhaust Fluid consumption. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Eric Bongaerts Submit Date: 2015-06-01 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/539/DEF_DDI_Requests-v1.pptx DD Entity: 410 Instantaneous Diesel Exhaust Fluid Consumption per Time Definition: Diesel Exhaust Fluid consumption per time Comment: This data definition is the Diesel Exhaust Fluid (DEF) consumption counterpart of the previously defined data dictionary entity 149 - Instantaneous Fuel Consumption per Time. These data dictionary entities can be used by devices that support data logging of Fuel and Diesel Exhaust Fluid consumption. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/s - Flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Eric Bongaerts Submit Date: 2015-06-01 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 411 Instantaneous Diesel Exhaust Fluid Consumption per Area Definition: Diesel Exhaust Fluid consumption per area Comment: This data definition is the Diesel Exhaust Fluid (DEF) consumption counterpart of the previously defined data dictionary entity 150 - Instantaneous Fuel Consumption per Area. These data dictionary entities can be used by devices that support data logging of Fuel and Diesel Exhaust Fluid consumption. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/m² - Capacity per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Eric Bongaerts Submit Date: 2015-06-01 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 412 Lifetime Diesel Exhaust Fluid Consumption Definition: Accumulated Diesel Exhaust Fluid Consumption over the entire lifetime of the device. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Device shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. This data definition is the Diesel Exhaust Fluid (DEF) consumption counterpart of the previously defined data dictionary entity 276 - Lifetime Fuel Consumption. These data dictionary entities can be used by devices that support data logging of Fuel and Diesel Exhaust Fluid consumption. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: L - Capacity count Resolution: 0,5 SAE SPN: 5963 CANBus Range: 0 - 2147483647 Display Range: 0 - 1073741823,5 Submit by: Eric Bongaerts Submit Date: 2015-06-01 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 413 Lifetime Average Diesel Exhaust Fluid Consumption per Time Definition: Average Diesel Exhaust Fluid Consumption per Time over the entire lifetime of the device. Comment: This is the overall average of the device. This average does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Device shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. This data definition is the Diesel Exhaust Fluid (DEF) consumption counterpart of the previously defined data dictionary entity 277 - Lifetime Average Fuel Consumption per Time. These data dictionary entities can be used by devices that support data logging of Fuel and Diesel Exhaust Fluid consumption. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/s - Flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Eric Bongaerts Submit Date: 2015-06-01 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Status was published Attachments: none DD Entity: 414 Lifetime Average Diesel Exhaust Fluid Consumption per Area Definition: Average Diesel Exhaust Fluid Consumption per Area over the entire lifetime of the device. Comment: This is the overall average of the device. This average does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Device shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. This data definition is the Diesel Exhaust Fluid (DEF) consumption counterpart of the previously defined data dictionary entity 278 - Lifetime Average Fuel Consumption per Area. These data dictionary entities can be used by devices that support data logging of Fuel and Diesel Exhaust Fluid consumption. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/m² - Capacity per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Eric Bongaerts Submit Date: 2015-06-01 Submit Company: AGCO Revision Number: 1 Current Status: ISO-Published Status Date: 2015-06-16 Status Comments: Attachments: none DD Entity: 415 Actual Seed Singulation Percentage Definition: Actual Seed Singulation Percentage calculated from measured seed spacing using ISO 7256-1 "Quality of Feed Index" algorithm Comment: Reference ISO 7256-1 "Quality of Feed Index" for details on the standardized method for calculating the seed singulation parameter. The number of seed drops for calculating this real-time percentage is not specified due to the possible differences in measurement and performance of the equipment and seeding rates. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 2 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 416 Average Seed Singulation Percentage Definition: Average Seed Singulation Percentage calculated from measured seed spacing using ISO 7256-1 "Quality of Feed Index" algorithm. The value is the average for a Task. Comment: Reference ISO 7256-1 "Quality of Feed Index" for details on the standardized method for calculating the seed singulation parameter. The number of seed drops for calculating this real-time percentage is not specified due to the possible differences in measurement and performance of the equipment and seeding rates. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 2 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 417 Actual Seed Skip Percentage Definition: Actual Seed Skip Percentage calculated from measured seed spacing using ISO 7256-1 "Miss Index" algorithm Comment: Reference ISO 7256-1 "Miss Index" for details on the standardized method for calculating a percentage. The number of seed drops for calculating this real-time percentage is not specified due to the possible differences in measurement and performance of the equipment and seeding rates. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 2 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 418 Average Seed Skip Percentage Definition: Average Seed Skip Percentage calculated from measured seed spacing using ISO 7256-1 "Miss Index" algorithm. The value is the average for a Task. Comment: Reference ISO 7256-1 "Miss Index" for details on the standardized method for calculating a percentage. The number of seed drops for calculating this real-time percentage is not specified due to the possible differences in measurement and performance of the equipment and seeding rates. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 3 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 419 Actual Seed Multiple Percentage Definition: Actual Seed Multiple Percentage calculated from measured seed spacing using ISO 7256-1 "Multiples Index" algorithm. Comment: Reference ISO 7256-1 "Multiples Index" for details on the standardized method for calculating a percentage. The number of seed drops for calculating this real-time percentage is not specified due to the possible differences in measurement and performance of the equipment and seeding rates. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 3 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 420 Average Seed Multiple Percentage Definition: Average Seed Multiple Percentage calculated from measured seed spacing using ISO 7256-1 "Multiples Index" algorithm. The value is the average for a Task. Comment: Reference ISO 7256-1 "Multiples Index" for details on the standardized method for calculating a percentage. The number of seed drops for calculating this real-time percentage is not specified due to the possible differences in measurement and performance of the equipment and seeding rates. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 3 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 421 Actual Seed Spacing Deviation Definition: Actual Seed Spacing Deviation from setpoint seed spacing Comment: Deviation is a positive value independently of if distance between seeds is smaller or larger than the setpoint value Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 3 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 422 Average Seed Spacing Deviation Definition: Average Seed Spacing Deviation from setpoint seed spacing. The value is the average for a Task. Comment: Deviation is a positive value independently of if distance between seeds is smaller or larger than the setpoint value Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 3 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 423 Actual Coefficient of Variation of Seed Spacing Percentage Definition: Actual Coefficient of Variation of Seed Spacing Percentage calculated from measured seed spacing using ISO 7256-1 algorithm Comment: Reference ISO 7256-1 "Coefficient of Variation" for details on the standardized method for calculating a percentage. The number of seed drops for calculating this real-time percentage is not specified due to the possible differences in measurement and performance of the equipment and seeding rates. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 3 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 424 Average Coefficient of Variation of Seed Spacing Percentage Definition: Average Coefficient of Variation of Seed Spacing Percentage calculated from measured seed spacing using ISO 7256-1 algorithm. The value is the average for a Task. Comment: Reference ISO 7256-1 "Coefficient of Variation" for details on the standardized method for calculating a percentage. The number of seed drops for calculating this real-time percentage is not specified due to the possible differences in measurement and performance of the equipment and seeding rates. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 5 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 425 Setpoint Maximum Allowed Seed Spacing Deviation Definition: Setpoint Maximum Allowed Seed Spacing Deviation Comment: Value is for TIM purposes. An acceptable seeding quality range can be defined in a task or prescription. Deviation is a positive value independently of if distance between seeds is smaller or larger than the setpoint value Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Rothmund Submit Date: 2015-03-25 Submit Company: HORSCH Revision Number: 5 Current Status: Published Status Date: 2018-08-28 Status Comments: Attachments: none DD Entity: 426 Setpoint Downforce as Force Definition: Setpoint Downforce as Force Comment: This value represents the system pressure to produce the downforce (or upforce) for an operation messured in newton; In case of an negative value the system pressure would produce Upforce. Typically used by Device Classes: 4 - Planters /Seeders Unit: N - Newton Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Rothmund Submit Date: 2015-09-03 Submit Company: HORSCH Revision Number: 1 Current Status: ISO-Published Status Date: 2015-09-03 Status Comments: Attachments: none DD Entity: 427 Actual Downforce as Force Definition: Actual Downforce as Force Comment: This value represents the actual downforce to produce the downforce (or upforce) for an operation messured in newton; In case of an negative value the system pressure would produce Upforce. Typically used by Device Classes: 4 - Planters /Seeders Unit: N - Newton Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Matthias Rothmund Submit Date: 2015-09-03 Submit Company: HORSCH Revision Number: 1 Current Status: ISO-Published Status Date: 2015-09-03 Status Comments: Attachments: none DD Entity: 428 Loaded Total Mass Definition: Accumulated Loads specified as mass, not corrected for the reference moisture percentage DDI 184. Comment: Is a counter of a machine element. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-02 Status Comments: Attachments: none DD Entity: 429 Unloaded Total Mass Definition: Accumulated Unloads specified as mass, not corrected for the reference moisture percentage DDI 184. Comment: Is a counter of a machine element. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-02 Status Comments: Attachments: none DD Entity: 430 Lifetime Loaded Total Mass Definition: Entire Yield Total Mass of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-02 Status Comments: Attachments: none DD Entity: 431 Lifetime Unloaded Total Mass Definition: Entire Unloaded Total Mass of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-02 Status Comments: Attachments: none DD Entity: 432 Setpoint Application Rate of Nitrogen [N2] Definition: Setpoint application rate of nitrogen specified as a mass per area Comment: As a reference the toal amount of nitrogen will be documented with DDE353 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 433 Actual Application Rate of Nitrogen [N2] Definition: Actual application rate of nitrogen specified as a mass per area Comment: As a reference the toal amount of nitrogen will be documented with DDE353 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik Revision Number: 2 Current Status: ISO-Published Status Date: 2021-02-08 Status Comments: Status was published Attachments: none DD Entity: 434 Minimum Application Rate of Nitrogen [N2] Definition: Minimum application rate of nitrogen specified as a mass per area Comment: As a reference the toal amount of nitrogen will be documented with DDE353 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 435 Maximum Application Rate of Nitrogen [N2] Definition: Maximum application rate of nitrogen specified as a mass per area Comment: As a reference the toal amount of nitrogen will be documented with DDE353 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 436 Setpoint Application Rate of Ammonium Definition: Setpoint application rate of Ammonium specified as a mass per area Comment: As a reference the total amount of ammonium will be documented with DDE354 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 437 Actual Application Rate of Ammonium Definition: Actual application rate of Ammonium specified as a mass per area Comment: As a reference the total amount of Ammonium will be documented with DDE354 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 438 Minimum Application Rate of Ammonium Definition: Minimum application rate of Ammonium specified as a mass per area Comment: As a reference the total amount of ammonium will be documented with DDE354 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 439 Maximum Application Rate of Ammonium Definition: Maximum application rate of Ammonium specified as a mass per area Comment: As a reference the total amount of ammonium will be documented with DDE354 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 440 Setpoint Application Rate of Phosphor Definition: Setpoint application rate of phosphor specified as a mass per area Comment: As a reference the total amount of phosphor will be documented with DDE355 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 441 Actual Application Rate of Phosphor Definition: Actual application rate of phosphor specified as a mass per area Comment: As a reference the total amount of phosphor will be documented with DDE355 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 442 Minimum Application Rate of Phosphor Definition: Minimum application rate of phosphor specified as a mass per area Comment: As a reference the total amount of phosphor will be documented with DDE355 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 443 Maximum Application Rate of Phosphor Definition: Maximum application rate of phosphor specified as a mass per area Comment: As a reference the total amount of phosphor will be documented with DDE355 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH & Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 444 Setpoint Application Rate of Potassium Definition: Setpoint application rate of potassium specified as a mass per area Comment: As a reference the toal amount of potassium will be documented with DDE356 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-02 Status Comments: Attachments: none DD Entity: 445 Actual Application Rate of Potassium Definition: Actual application rate of potassium specified as a mass per area Comment: As a reference the toal amount of potassium will be documented with DDE356 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-02 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 446 Minimum Application Rate of Potassium Definition: Minimum application rate of potassium specified as a mass per area Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2016-03-29 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 447 Maximum Application Rate of Potassium Definition: Maximum application rate of potassium specified as a mass per area Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-03 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 448 Setpoint Application Rate of Dry Matter Definition: Setpoint application rate of dry matter expressed as percentage Comment: As a reference the toal amount of dry matter will be documented with DDE 357 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steebock Submit Date: 2015-11-03 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 449 Actual Application Rate of Dry Matter Definition: Actual application rate of dry matter expressed as percentage Comment: As a reference the toal amount of dry matter will be documented with DDE 357 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-09-03 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 450 Minimum Application Rate of Dry Matter Definition: Minimum application rate of dry matter expressed as percentage Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-03 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 451 Maximum Application Rate of Dry Matter Definition: Maximum application rate of dry matter expressed as percentage Comment: Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System 25 - Slurry Applicators Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Jan Steenbock Submit Date: 2015-11-03 Submit Company: Müller-Elektronik GmbH Co. KG Revision Number: 1 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 452 Loaded Total Volume Definition: Accumulated Loaded Volume specified as volume Comment: Is a counter of a machine element Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 17 - Sensor System Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 453 Unloaded Total Volume Definition: Accumulated Unloaded Volume specified as volume Comment: Is a counter of a machine element Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 17 - Sensor System Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 454 Lifetime loaded Total Volume Definition: Entire loaded Volume of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 17 - Sensor System Unit: L - Capacity count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 455 Lifetime Unloaded Total Volume Definition: Entire unloaded Volume of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 17 - Sensor System Unit: L - Capacity count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 456 Last loaded Volume Definition: Last loaded Volume value specified as volume Comment: After a loading Procedure, this DDI sends the loaded Volume. For more information see attachment located at Last loaded Weight DDE320 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 17 - Sensor System Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 457 Last unloaded Volume Definition: Last unloaded Volume value specified as volume Comment: After a unloading Procedure, this DDI sends the uloaded Volume. For more information see attachment located at Last loaded Weight DDE320 Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 17 - Sensor System Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 458 Loaded Total Count Definition: Accumulated Loads specified as count Comment: Is a counter of a device element Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 459 Unloaded Total Count Definition: Accumulated Unloaded specified as count Comment: Task total of a device element. It shall represent the number of products being unloaded in one or more unload operations. The product itself shall be countable. See Unloaded Total Mass (429) or Unloaded Total Volume (453) if the product isn't countable. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: Published Status Date: 2022-08-09 Status Comments: Comment update only! Attachments: none DD Entity: 460 Lifetime Loaded Total Count Definition: Entire Loaded Total Count of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 461 Lifetime Unloaded Total Count Definition: Entire Unloaded Total Count of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 462 Last loaded Count Definition: Last loaded Count value specified as count Comment: After a loading Procedure, this DDI sends the loaded Count. For more information see attachment located at Last loaded Weight DDE320 Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 463 Last unloaded Count Definition: Last unloaded Count value specified as count Comment: After a unloading Procedure, this DDI sends the loaded Count. For more information see attachment located at Last loaded Weight DDE 320 Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-11-03 Status Comments: Attachments: none DD Entity: 464 Haul Counter Definition: Each Time a Device Element is filled and emptied this is called a haul cycle. This counter counts the cycles Comment: Is a counter of a device element. Can be used to count filling and emptying cycles. To more precisely document what your device element is doing, consider to implement DDI 179 Actual Cultural Practice as well - even if the device has only one operation. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: Published Status Date: 2022-08-09 Status Comments: Comment update only! Attachments: none DD Entity: 465 Lifetime Haul Counter Definition: The number of haul cycles done by a machine over its entire lifetime. This DDE value can not be set through the process data interface but can be requested and added to a datalog. This DDE value is not affected by a task based total haul cycles but will increment at the same rate as the task based total. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changes. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 17 - Sensor System Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Franz Hoepfinger Submit Date: 2015-07-24 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 2 Current Status: ISO-Published Status Date: 2015-12-14 Status Comments: Attachments: none DD Entity: 466 Actual relative connector angle Definition: The DDI Actual relative connector angle shall be placed in the device element of type connector in the DDOP of the TC-SC Client. The value describes the actual angle of the longitudinal axis of the implement relative to the longitudinal axis of the tractor. This angle should be used by the TC-SC server to calculate the real position of implement. The TC-SC server may smooth the rendering in any proprietary screen. The reference system is the coordinate system of the tractor. This results in the angles from table 1 of the attachment. In case of for example a malfunction sensor the error value is set to 0xFExxxxxx. Comment: When working with Section Control it is necessary that the TC-Server calculates the exact position of the implement and its boom and sections to mark the covered area on its section control screen properly. To calculate the positions the TC-SC server uses the x and y offsets of the DRP and CRP. This works well for mounted and for non-steered trailed implements but comes up against limits when implements do have a steering axle or even a steering drawbar because the TC-SC server can’t know the current steering angle and moving the DRP doesn’t fit in all means. But this could be solved when the TC-SC server would knew the exact angle of the implement related to the tractor. This information could be provided by the implement because when they have a steering mechanism they even have a sensor to measure the angle between tractor and implement. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 25 - Slurry Applicators Unit: ° - Angle Resolution: 0,001 SAE SPN: CANBus Range: -180000 - 180000 Display Range: -180,000 - 180,000 Submit by: Thomas Konermann Submit Date: 2015-07-27 Submit Company: AMAZONEN-Werke H. Dreyer GmbH & Co. KG Revision Number: 2 Current Status: ISO-Published Status Date: 2016-01-25 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/577/Actual relative connector angle-v1.pdf DD Entity: 467 Actual Percentage Content Definition: Actual Device Element Content specified as percent. Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: % - Percent Resolution: 0,01 SAE SPN: CANBus Range: 0 - 10000 Display Range: 0,00 - 100,00 Submit by: Matthias Meyer Submit Date: 2016-06-13 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 468 Soil Snow/Frozen Condtion Definition: DDI to document the soil snow / frozen condition. Meaning of values: 0 - Not defined 1 - Not frozen or snow-covered 2 - Frozen 3 - Snow-covered >= 4 reserved For a detailed definition of each state please see the attached document. Comment: Typically used by Device Classes: 0 - Non-specific system Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Andres Ferreyra / Martin Sperlich Submit Date: 2019-05-28 Submit Company: AgConnections / CLAAS Revision Number: 1 Current Status: Published Status Date: 2019-07-02 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/838/ISO11783-11-DDI-468-Soil Snow Frozen Condition-v1.pdf DD Entity: 469 Estimated Soil Water Condtion Definition: DDI to document the estimated soil water condition. Meaning of values: 0 - Not defined 1 - Dry 2 - Slightly moist 3 - Moist 4 - Very wet 5 - Saturated 6 - Inundated >= 7 - Reserved Comment: Find a detailed description for each enum value in the attached document. To further document ground conditions see also DDI 'Soil Compaction. Typically used by Device Classes: 0 - Non-specific system Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 6 Display Range: 0 - 6 Submit by: Martin Sperlich / Andres Ferreyra Submit Date: 2018-12-17 Submit Company: CLAAS / AgConnections Revision Number: 1 Current Status: Published Status Date: 2019-07-02 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/792/ISO11783-11-DDI-469-Estimated Soil Water Condition-v1.pdf DD Entity: 470 Soil Compaction Definition: DDI to document the soil compaction. Meaning of values: 0 - Not defined 1 - Loose 2 - Slightly compacted 3 - Compacted 4 - Very compacted >= 5 - Reserved Comment: Find a detailed description for each enum value in the attached document. To further document ground conditions see also DDI 'Estimated Soil Water Condition'. Typically used by Device Classes: 0 - Non-specific system Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4 Display Range: 0 - 4 Submit by: Martin Sperlich / Andres Ferreyra Submit Date: 2018-12-17 Submit Company: CLAAS / AgConnections Revision Number: 1 Current Status: Published Status Date: 2019-07-02 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/793/ISO11783-11-DDI-470-Soil Compaction-v1.pdf DD Entity: 471 Setpoint Cultural Practice Definition: This DDI is used to define the setpoint cultural practice which is performed by an individual device operation. For instance a planter/seeder could provide a sowing and a fertilizing operation at the same time. The cultural practice value definitions are: 0=Unknown, 1=Fertilizing, 2=Sowing and Planting, 3=Crop Protection, 4=Tillage, 5=Baling (Pressing), 6=Mowing, 7=Wrapping, 8=Harvesting, 9=Forage Harvesting, 10=Transport, 11=Swathing, 12=Slurry/Manure Application, 13=Self-Loading Wagon, 14=Tedding, 15=Measuring, 16=Irrigation, 17=Feeding/Mixing, 18=Mulching, 19-255=Reserved See also DDI 179 Actual Cultural Practice for more information and attachment. Comment: If TC Client has capability of setting and storing cultural practice then it may allow TC Server to redefine Cultural Practice for any Control channel via Setpoint Cultural Practice (SCP) DDI for respective Control channel. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Rajashri Munot Submit Date: 2021-10-26 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2021-12-01 Status Comments: First version Attachments: none DD Entity: 472 Setpoint Length of Cut Definition: Setpoint length of cut for harvested material, e.g. Forage Harvester or Tree Harvester. Comment: Typically used by Device Classes: 0 - Non-specific system 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: Published Status Date: 2020-04-28 Status Comments: Correction bit of bit resolution and Display Range Attachments: none DD Entity: 473 Minimum length of cut Definition: Minimum length of cut for harvested material, e.g. Forage Harvester or Tree Harvester. Comment: Typically used by Device Classes: 0 - Non-specific system 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: New Request Submitted Status Date: 2020-04-28 Status Comments: Correction of bit resolution and Display Range Attachments: none DD Entity: 474 Maximum Length of Cut Definition: Maximum length of cut for harvested material, e.g. Forage Harvester or Tree Harvester. Comment: Typically used by Device Classes: 0 - Non-specific system 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,001 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: Published Status Date: 2020-04-28 Status Comments: Correction of bit resolution and Display Range Attachments: none DD Entity: 475 Setpoint Bale Hydraulic Pressure Definition: The setpoint value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber. Comment: Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: Pa - Pressure Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2016-03-21 Status Comments: Attachments: none DD Entity: 476 Minimum Bale Hydraulic Pressure Definition: The minimum value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber. Comment: Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: Pa - Pressure Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2016-03-21 Status Comments: Attachments: none DD Entity: 477 Maximum Bale Hydraulic Pressure Definition: The maximum value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber. Comment: Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: Pa - Pressure Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2016-03-21 Status Comments: Attachments: none DD Entity: 478 Setpoint Flake Size Definition: Setpoint size of the flake to be produced by the chamber. Comment: See also DDI 364. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 1000 Display Range: 0 - 1000 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2016-03-21 Status Comments: Attachments: none DD Entity: 479 Minimum Flake Size Definition: Minimum size of the flake that can be produced by the chamber. Comment: See also DDI 364. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 1000 Display Range: 0 - 1000 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2016-03-21 Status Comments: Attachments: none DD Entity: 480 Maximum Flake Size Definition: Maximum size of the flake that can be produced by the chamber. Comment: See also DDI 364 Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 1000 Display Range: 0 - 1000 Submit by: Frank Wiebeler Submit Date: 2016-03-21 Submit Company: Maschinenfabrik Bernard Krone GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2016-03-21 Status Comments: Attachments: none DD Entity: 481 Setpoint Number of Subbales Definition: Number of smaller bales that shall be included in one bigger bale. Comment: Defines the number of sub-bales included of a big square bale. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-03-09 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 482 Last Bale Number of Subbales Definition: Number of smaller bales included in the latest produced bale. Comment: This DDI is needed as there might be another bale in the chamber. When sending this DDI on dropping the bale on the field, the system can define how many subbales are in that specific bale. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester 11 - Transport / Trailers Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-03-09 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 483 Setpoint Engine Speed Definition: The setpoint of the rotational speed of the engine. Comment: The addition of a DDI for such values allows such values to be added to the default data set that devices present to a task controller or a data logger Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,0000 - 214748,3647 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 484 Actual Engine Speed Definition: Actual rotational speed of the engine. Comment: The addition of a DDI for such values allows such values to be added to the default data set that devices present to a task controller or a data logger. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,0000 - 214748,3647 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 485 Minimum Engine Speed Definition: The minimum of the rotational speed of the engine. Comment: The addition of a DDI for such values allows such values to be added to the default data set that devices present to a task controller or a data logger Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,0000 - 214748,3647 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 486 Maximum Engine Speed Definition: The maximum of the rotational speed of the engine. Comment: The addition of a DDI for such values allows such values to be added to the default data set that devices present to a task controller or a data logger. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,0000 - 214748,3647 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 488 Diesel Exhaust Fluid Tank Percentage Level Definition: The actual level of the Diesel Exhaust Fluid Tank in percent. Comment: The addition of a percentage DDI allows such values to be added to the default data set that devices present to a task controller or a data logger Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: % - Percent Resolution: 0,01 SAE SPN: CANBus Range: 0 - 10000 Display Range: 0,00 - 100,00 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 489 Maximum Diesel Exhaust Fluid Tank Content Definition: This value describes the maximum ammount of Diesel Exhaust fluid, that can be filled into the tank of the machine Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-13 Status Comments: Attachments: none DD Entity: 490 Maximum Fuel Tank Content Definition: This value describes the maximum ammount of fuel that can be filled into the machines Fuel tank. Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-14 Status Comments: Attachments: none DD Entity: 491 Fuel Percentage Level Definition: The actual level of the machine fuel tank in percent. Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: % - Percent Resolution: 0,01 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,00 - 21474836,47 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-14 Status Comments: Attachments: none DD Entity: 492 Total Engine Hours Definition: The total time the engine was running when the task was active. Comment: For the bit resolution and the CANBus range we do harmonize with SAE J1939-71 SPN 253 Engine Total Idle Hours Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: h - Hour Resolution: 0,05 SAE SPN: CANBus Range: 0 - 4211081215 Display Range: 0,00 - 210554060,75 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: Published Status Date: 2020-05-04 Status Comments: CANBus Range and Display Range correction Attachments: none DD Entity: 493 Lifetime Engine Hours Definition: The total time, when the engine was running over the whole lifetime of the machine. Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: h - Hour Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: Status Date: 2016-04-01 Status Comments: Attachments: none DD Entity: 494 Last Event Partner ID (Byte 1-4) Definition: Last Event Partner ID as a decimal number of 128bit length. This DDI should include the Byte 1-4 of the Last Event Partner ID. It should always be sent as Group of 4 DDI's to send all 128 bit together. After this a DDI 147 “Log Count” shall be sent. Comment: Using Methods do determine the Location of a Vehicle or Storage which is not equipped with ISOBUS and GPS. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 0xFFFFFFFF Display Range: 0 - 0xFFFFFFFF Submit by: Franz Hoepfinger Submit Date: 2016-07-20 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2015-10-11 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/727/ISO11783-11-DDI-494 Partner ID-v1.pdf DD Entity: 495 Last Event Partner ID (Byte 5-8) Definition: Last Event Partner ID as a decimal number of 128bit length. This DDI should include the Byte 5-8 of the Last Event Partner ID. It should always be sent as Group of 4 DDI's to send all 128 bit together. After this a DDI 147 “Log Count” shall be sent. Comment: Using Methods do determine the Location of a Vehicle or Storage which is not equipped with ISOBUS and GPS. See also DDI 494 attachment. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0x00000000 - 0xFFFFFFFF Display Range: 0x00000000 - 0xFFFFFFFF Submit by: Franz Hoepfinger Submit Date: 2015-10-11 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 3 Current Status: ISO-Published Status Date: 2016-06-15 Status Comments: Attachments: none DD Entity: 496 Last Event Partner ID (Byte 9-12) Definition: Last Event Partner ID as a decimal number of 128bit length. This DDI should include the Byte 9-12 of the Last Event Partner ID. It should always be sent as Group of 4 DDI's to send all 128 bit together. After this a DDI 147 “Log Count” shall be sent. Comment: Using Methods do determine the Location of a Vehicle or Storage which is not equipped with ISOBUS and GPS. See also DDI 494 attachment. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0x00000000 - 0xFFFFFFFF Display Range: 0x00000000 - 0xFFFFFFFF Submit by: Franz Hoepfinger Submit Date: 2015-10-11 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 3 Current Status: ISO-Published Status Date: 2016-06-15 Status Comments: Attachments: none DD Entity: 497 Last Event Partner ID (Byte 13-16) Definition: Last Event Partner ID as a decimal number of 128bit length. This DDI should include the Byte 13-16 of the Last Event Partner ID. It should always be sent as Group of 4 DDI's to send all 128 bit together. After this a DDI 147 “Log Count” shall be sent. Comment: Using Methods do determine the Location of a Vehicle or Storage which is not equipped with ISOBUS and GPS. See also DDI 494 attachment. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0x00000000 - 0xFFFFFFFF Display Range: 0x00000000 - 0xFFFFFFFF Submit by: Franz Hoepfinger Submit Date: 2015-10-11 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 3 Current Status: ISO-Published Status Date: 2016-06-15 Status Comments: Attachments: none DD Entity: 498 Last Event Partner ID Type Definition: Defines The Type of the Partner ID Device. See Attatchment for Definition. Comment: See also DDI 494 attachment. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0x00000000 - 0xFFFFFFFF Display Range: 0x00000000 - 0xFFFFFFFF Submit by: Franz Hoepfinger Submit Date: 2015-10-11 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 4 Current Status: ISO-Published Status Date: 2016-06-20 Status Comments: Status was published Attachments: none DD Entity: 499 Last Event Partner ID Manufacturer ID Code Definition: The Partner ID has to tell its Manufacturer, and the Manufacturer Numbers from SAE J1939 / ISO 11783 shall be used. Comment: Remark: This is not the Manufacturer of the ISOBUS ECU sending this DDI to the Task-Controller, but the Manufacturer of the “Partner” Device. See also DDI 494 attachment. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0x00000000 - 0xFFFFFFFF Display Range: 0x00000000 - 0xFFFFFFFF Submit by: Franz Hoepfinger Submit Date: 2015-10-11 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 4 Current Status: ISO-Published Status Date: 2016-06-20 Status Comments: Status was published Attachments: none DD Entity: 500 Last Event Partner ID Device Class Definition: This DDI should tell the Device Class of the “Partner” Device. Comment: Look at DDI 494 attachment to get the device class details. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0x00000000 - 0xFFFFFFFF Display Range: 0x00000000 - 0xFFFFFFFF Submit by: Franz Hoepfinger Submit Date: 2015-10-11 Submit Company: 367 - Fliegl Agrartechnik GmbH Revision Number: 4 Current Status: ISO-Published Status Date: 2016-06-20 Status Comments: Status was published Attachments: none DD Entity: 501 Setpoint Engine Torque Definition: The setpoint of the engine torque. Comment: The addition of a DDI for such values allows such values to be added to the default data set that devices present to a task controller or a data logger. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: % - Percent Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 5 Current Status: ISO-Published Status Date: 2016-06-28 Status Comments: Attachments: none DD Entity: 502 Actual Engine Torque Definition: The current torque of the engine. Comment: The addition of a DDI for such values allows such values to be added to the default data set that devices present to a task controller or a data logger Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: % - Percent Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0,000 - 2147483,647 Submit by: Submit Date: 2016-04-01 Submit Company: Revision Number: 2 Current Status: ISO-Published Status Date: 2016-06-28 Status Comments: Attachments: none DD Entity: 503 Minimum Engine Torque Definition: The minimum value of the engine torque Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: % - Percent Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2016-06-28 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-28 Status Comments: Attachments: none DD Entity: 504 Maximum Engine Torque Definition: The maximum value of the engine torque Comment: Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: % - Percent Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Frank Wiebeler Submit Date: 2016-06-28 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-06-28 Status Comments: Attachments: none DD Entity: 505 Tramline Control Level Definition: This DDI defines the Tramline Control capability of the Implement. Comment: The Implement shall provide in its root DeviceElement which Tramline Control Levels are supported. The Tramline Control Levels are independent of each other. It is allowed to support for example only Level 3 Tramlining. Byte 1 Bit 0 = 1 Support Tramline Control Level 1 Byte 1 Bit 1 = 1 Support Tramline Control Level 2 Byte 1 Bit 2 = 1 Support Tramline Control Level 3 Byte 1 Bit 3-7 = 0 Reserved Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 7 Display Range: 0 - 7 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 3 Current Status: Published Status Date: 2023-05-17 Status Comments: added new attachment version 1.14 Attachments: https://www.isobus.net/isobus/attachments/623/TramlineControl_BasicRequirements_v1.14-v1.pdf DD Entity: 506 Setpoint Tramline Control Level Definition: This DDI defines the Tramline Control capability of the Task Controller that is used with the appropriate Implement. Comment: The Task Controller shall send this value to inform the Implement which Tramline Control Level shall be used to operate. In case there is no match between the supported Tramline Control Level on the Task Controller Server side and the Implement, the Task Controller shall inform the Implement by setting the Setpoint Tramline Control Level to 0. This is the response to the Tramline Control Level DDI. 0 No common Level 1 Tramline Control Level 1 2 Tramline Control Level 2 3 Tramline Control Level 3 4-255 Reserved for future Assignment For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 507 Tramline Sequence Number Definition: This DDI defines a group of DDIs which belong together. Comment: In order to ensure that the parameters “Unique A-B Guidance Reference Line ID”, “Actual Track Number”, “Track Number to the right” and “Track Number the left” are belonging together, the Tramline Sequence Number is needed. This parameter has to be sent from the Tramline Controller to indicate a new Tramline Sequence to the Implement. This number shall start with value 1 and increase on every new Tramline Sequence which is going to be sent. These Parameters are only allowed to be sent in a group, except the Unique A-B Guidance Reference Line ID. If one of the parameters is missing, the Tramline Sequence would be invalid. In case the Unique A-B Guidance Reference Line ID shall be part of the Tramline Sequence, this value shall be sent as first value after the Tramline Sequence Number and before other values. It is recommended to send all values belonging to one Tramline Sequence within 500 ms. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 508 Unique A-B Guidance Reference Line ID Definition: This DDI defines a unique ID to identify which Guidance Reference Line is the base for the Tramline calculation. Comment: A field could have more than one Guidance Reference Line. For example the field could have a Guidance Reference Line for the headland and also another Guidance Reference Line for the main field. To distinguish between the several Guidance Reference Lines a Guidance Reference Line ID is used. This unique ID identifies which Guidance Reference Line is the base for the Tramline calculation. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 509 Actual Track Number Definition: This DDI defines a unique number of the Guidance Track the Implement is currently located on. Comment: The Actual Track Number is the unique Number of the Guidance Track the Implement is currently located on. This number is provided by the Guidance System. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 510 Track Number to the right Definition: This DDI defines a unique number of the Guidance Track to right hand side in direction of Implement orientation. Comment: This is the Guidance Track Number to right hand side in direction of Implement orientation. If the Track Number to the right is higher than the Actual Track Number, then the Implement is in the same direction as the A-B reference line. The Implement orientation is independent of the driving direction of the Implement. This value is provided by the Guidance System. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 511 Track Number to the left Definition: This DDI defines a unique number of the Guidance Track to left hand side in direction of Implement orientation. Comment: This is the Guidance Track Number to left hand side in direction of Implement orientation This value may be used in addition to the Track Number to the right for differentiating between the two Guidance Track 0 Numbers (0R and 0L). This value is needed, because there are two cases where the Actual Track Number and the Track Number to the right are both 0. This value is provided by the Guidance System. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 512 Guidance Line Swath Width Definition: The Swath Width is the Distance between two adjacent Guidance Lines in a Guidance Pattern. Comment: The User may prefer to choose a distance between two adjacent Guidance Lines which is a little smaller or bigger than the Seeder Working Width. The Implement may use this information to apply correction on its Tramline calculation. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 513 Guidance Line Deviation Definition: Deviation of the Device-Reference-Point (DRP) to the actual guidance line, in driving direction. Comment: This DDI shall be sent from the Guidance System or Task Controller. It specifies the Deviation in mm between the current Guidance Line and the Device Reference Point which is guided along the Guidance Line. The Guidance Line Deviation is positive when the Guidance Line is located on the right hand side of the Device Reference Point in driving direction. The Guidance Line Deviation is negative when the Guidance Line is located on the left hand side of Device Reference Point in driving direction. For more details see also attachment on DDI 505. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 17 - Sensor System 25 - Slurry Applicators Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 514 GNSS Quality Definition: GNSS Quality Identifier to inform the implement about the used Position Status. Comment: This DDI shall be sent from the Guidance System or Task Controller to the implement. It specifies the quality of the GNSS which is used by the Guidance System or Task Controller. Definition references NMEA2000 Method GNSS parameter as also mentioned in ISO11783-10. For more details see also attachment on DDI 505. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 17 - Sensor System 25 - Slurry Applicators Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 515 Tramline Control State Definition: Specifies the actual state of Tramline Control. The value definitions are: Byte 1 Bits 0-1 = 00 manual/off Byte 1 Bits 0-1 = 01 automatic/on Byte 1 Bits 0-1 = 10 error Byte 1 Bits 0-1 = 11 undefined/not supported Byte 1 Bits 2-7 reserved, set to 0. The DDI shall support the OnChange trigger so that the Task Controller is able to get informed when the value gets changed by the Working Set Master. The Task Controller shall activate this trigger when using the DDI. Comment: The Tramline Control State has the same purpose and definition like the Section Control State DDI 160. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 3 Display Range: 0 - 3 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 516 Tramline Overdosing Rate Definition: Overdosing Rate for the rows adjacent to the Tramline Track. Comment: This DDI specifies the Overdosing Rate for the rows adjacent to the Tramline Tracks. This value is specified in ppm. The value 1.000.000 (100%) is the normal rate. A value > 100% means that a overdosing is applied. In case of a seeding distance, the implement should calculate the overdosing based on seeds per area and recalculate that value to an overdosing seeding rate. Background: If the seeding distance is just multiplied with the overdosing rate, the seeding distance will increase which leads to less seed on the field! Example: In the case the seeding distance is specified the overdosing rate will result in a shorter seed distance. A seeding distance of 20,00 cm with an overdosing rate of 110% will result in a seed distance of 18,18cm for the rows adjacent to the Tramline Tracks. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-01 Status Comments: Attachments: none DD Entity: 517 Setpoint Tramline Condensed Work State (1-16) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 1 to 16 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 1-16 has the same purpose and definition like the Setpoint Condensed Work State 1-16 DDI 290. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 2 Current Status: Published Status Date: 2020-05-04 Status Comments: Brackets (1-16) added Attachments: none DD Entity: 518 Actual Tramline Condensed Work State (1-16) Definition: Combination of the Actual States of individual Tramline Valves number 1 to 16 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 1-16 has the same purpose and definition like the Actual Condensed Work State 1-16 DDI 161. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 2 Current Status: Published Status Date: 2020-05-04 Status Comments: Brackets (1-16) added Attachments: none DD Entity: 519 Last Bale Lifetime Count Definition: The Lifetime Bale Count of the bale that leaves the machine. The value shall be equal to the Lifetime Bale Count that was reported when this bale is knotted. Comment: The recommended use of this DDE is for a baler to report this once for every bale that leaves the machine. A baler can add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE when the bale leaves the machine. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale leaves the machine. The value shall be equal to the Lifetime Bale Count that was reported when this bale is knotted. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-06-06 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2016-09-19 Status Comments: Attachments: none DD Entity: 520 Actual Canopy Height Definition: Actual height of the canopy above ground. Comment: Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers 9 - Forage harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Joe Tevis Submit Date: 2016-10-04 Submit Company: Topcon Precision Ag Revision Number: 2 Current Status: ISO-Published Status Date: 2018-06-18 Status Comments: Status was published Attachments: none DD Entity: 521 GNSS Installation Type Definition: The GNSS Installation Type DDE is used by the device to provide additional information about the type and location of the GPS receiver with reference to the overall system. Additional information are required especially when more than one GNSS receiver is installed on the system. The GPS Installation Type value is an instance enumeration with the following definitions: 0 = Unknown 1 = Tractor integrated antenna 2 = Tractor universal antenna (removable) 3 = First Implement antenna 4 = Second Implement antenna 5 = Display integrated antenna 6 to 100 Reserved Comment: Today some devices are equipped with more than one GPS receivers for certain applications. In this case both do have different offset defined and therefore an application need to be able to identify each receiver clearly. This DDI does provide the possibility to add these additional information below the appropriate device element. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 100 Display Range: 0 - 100 Submit by: Meyer Matthias Submit Date: 2016-10-17 Submit Company: John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2016-11-28 Status Comments: Attachments: none DD Entity: 522 Twine Bale Total Count Definition: The total number of twine bound product units for which Twine binding method was used during operation. Comment: Twine Total Count can be used as total counter of a device element. It is intended to be used as task based and therefore it is recommended to support the on-time and on-change trigger methods. The total trigger method and the setable property are required for this DDE. Note, there is a preferred duplicate DDI 683! Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Elshout Submit Date: 2017-01-26 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: Published Status Date: 2024-02-05 Status Comments: Added hint into comment to other DDI 683 Attachments: none DD Entity: 523 Mesh Bale Total Count (Deprecated) Definition: The total number of mesh bound product units for which mesh binding method was used during operation. Comment: Mesh Total Count can be used as total counter of a device element. It is intended to be used as task based and therefore it is recommended to support the on-time and on-change trigger methods. The total trigger method and the setable property are required for this DDE. Note, there is a preferred duplicate DDI 682! Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Elshout Submit Date: 2017-01-26 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: Published Status Date: 2024-02-05 Status Comments: Added hint into comment to other DDI 682 Attachments: none DD Entity: 524 Lifetime Twine Bale Total Count (Deprecated) Definition: Entire total number of twine bound product units for which Twine binding method was used during operation, of a device lifetime Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Note, there is a preferred duplicate DDI 687! Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Elshout Submit Date: 2017-01-26 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 3 Current Status: Published Status Date: 2024-02-05 Status Comments: Added hint into comment to other DDI 687 Attachments: none DD Entity: 525 Lifetime Mesh Bale Total Count (Deprecated) Definition: Total number of mesh bound product units for which mesh binding method was used during operation, of a device lifetime Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Note, there is a preferred duplicate DDI 686! Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Elshout Submit Date: 2017-01-26 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 2 Current Status: Published Status Date: 2024-02-05 Status Comments: Added hint into comment to other DDI 686 Attachments: none DD Entity: 526 Actual Cooling Fluid Temperature Definition: The actual temperature of the cooling fluid for the machine. Comment: The addition of a DDI for such values allows such values to be added to the default data set that devices present to a task controller or a data logger. If not specially defined within a certain function the assumption is that this DDI represents the engine cooling fluid temperature. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2016-04-01 Submit Company: Maschinenfabrik Bernard Krone Revision Number: 1 Current Status: ISO-Published Status Date: 2017-06-12 Status Comments: Attachments: none DD Entity: 528 Last Bale Capacity Definition: The capacity of the bale that leaves the machine. The mass used for calculation should be DDI 223 (Last Bale Mass). The time used for calculation should be the amount of time needed to produce the bale. Comment: The recommended use of this DDE is for a baler to report this once for every bale that leaves the machine. A baler can add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE when the bale leaves the machine. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: kg/h - Mass per hour unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Lynn Derynck Submit Date: 2017-03-23 Submit Company: CNH Industrial N.V. Revision Number: 1 Current Status: Published Status Date: 2017-11-20 Status Comments: Attachments: none DD Entity: 529 Setpoint Tillage Disc Gang Angle Definition: Setpoint Tillage Gang Angle is the pivot angle of the gangs for the device element Comment: This Serpoint Tillage Gang Angle value represent the angle a tillage disk or disk gang is set to increase or decrease aggressiveness. Typical disk angle is measured perpendicular to implement direction. A single disk angle value typically represents a singular coordinate system where a single value represents an angle offset from the perpendicular plane in each quadrant. See the attachment for more detailed information. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage Unit: ° - Angle Resolution: 0,001 SAE SPN: CANBus Range: -180000 - 180000 Display Range: -180.0 - 180.0 Submit by: Theilen Rick Submit Date: 2017-09-04 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2018-02-14 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/760/ISO11783-11-DDI-529-Tillage Gang Angle_v_1-v1.pdf DD Entity: 530 Actual Tillage Disc Gang Angle Definition: Actual Tillage Gang Angle is the pivot angle of the gangs for the device element. Comment: This Actual Tillage Gang Angle value represent the actual angle of a tillage disk or disk gang. Typical disk angle is measured perpendicular to implement direction. A single disk angle value typically represents a singular coordinate system where a single value represents an angle offset from the perpendicular plane in each quadrant. See the attachment for more detailed information. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage Unit: ° - Angle Resolution: 0,001 SAE SPN: CANBus Range: -180000 - 180000 Display Range: -180.0 - 180.0 Submit by: Theilen Rick Submit Date: 2017-09-04 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2018-02-14 Status Comments: Attachments: none DD Entity: 531 Actual Applied Preservative Per Yield Mass Definition: This DDI shall describe the actual applied preservative per harvested yield mass. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 15 - Municipal Work 17 - Sensor System 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: Published Status Date: 2018-03-19 Status Comments: Attachments: none DD Entity: 532 Setpoint Applied Preservative Per Yield Mass Definition: The desired volume of preservative per harvested yield mass Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 12 - Farmyard Work 14 - Special Crops 15 - Municipal Work 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: ISO-Published Status Date: 2018-03-19 Status Comments: Status was published Attachments: none DD Entity: 533 Default Applied Preservative Per Yield Mass Definition: The default volume of preservative applied per harvested yield mass Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 12 - Farmyard Work 14 - Special Crops 15 - Municipal Work 17 - Sensor System 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: Published Status Date: 2018-03-19 Status Comments: Attachments: none DD Entity: 534 Minimum Applied Preservative Per Yield Mass Definition: The minimum setable value, the preservative system is able to control the flow of preservative. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 15 - Municipal Work 17 - Sensor System 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: ISO-Published Status Date: 2018-03-19 Status Comments: Status was published Attachments: none DD Entity: 535 Maximum Applied Preservative Per Yield Mass Definition: The maximum volume, the preservative system can apply to the harvested yield in a controled way Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 15 - Municipal Work 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: ISO-Published Status Date: 2018-03-19 Status Comments: Status was published Attachments: none DD Entity: 536 Total Applied Preservative Definition: The total volume of applied preservative, respectively silage additive in this task. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 12 - Farmyard Work 14 - Special Crops 15 - Municipal Work 17 - Sensor System 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 26 - Feeder / Mixer Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: Published Status Date: 2023-04-27 Status Comments: Added, respectively silage additive to the definition. Attachments: none DD Entity: 537 Lifetime Applied Preservative Definition: The total applied volume of preservative in the lifetime of the machine Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 12 - Farmyard Work 14 - Special Crops 15 - Municipal Work 17 - Sensor System 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 26 - Feeder / Mixer Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: ISO-Published Status Date: 2018-03-19 Status Comments: Status was published Attachments: none DD Entity: 538 Average Applied Preservative Per Yield Mass Definition: The average volume per mass for this task. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 15 - Municipal Work 17 - Sensor System 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 26 - Feeder / Mixer Unit: mm³/kg - Capacity per mass unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: ISO-Published Status Date: 2018-03-19 Status Comments: Status was published Attachments: none DD Entity: 539 Actual Preservative Tank Volume Definition: The actual volume inside the preservative tank. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 15 - Municipal Work 17 - Sensor System 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 26 - Feeder / Mixer Unit: ml - Capacity large Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: ISO-Published Status Date: 2018-03-19 Status Comments: Status was published Attachments: none DD Entity: 540 Actual Preservative Tank Level Definition: The percentage level of the preservative tank. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 14 - Special Crops 15 - Municipal Work 17 - Sensor System 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 24 - Utility Vehicles 26 - Feeder / Mixer Unit: ppm - Parts per million Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Frank Wiebeler Submit Date: 2017-08-01 Submit Company: Maschinenfabrik Bernard Krone GmbH&CO KG Revision Number: 1 Current Status: ISO-Published Status Date: 2018-03-19 Status Comments: Status was published Attachments: none DD Entity: 541 Actual PTO Speed Definition: Actual Speed of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2018-06-25 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2018-07-11 Status Comments: Attachments: none DD Entity: 542 Setpoint PTO Speed Definition: The desired Speed of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2018-06-25 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2018-07-11 Status Comments: Attachments: none DD Entity: 543 Default PTO Speed Definition: The default Speed of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2018-06-25 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2018-07-11 Status Comments: Attachments: none DD Entity: 544 Minimum PTO Speed Definition: The minimum Speed of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2018-06-25 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2018-07-11 Status Comments: Attachments: none DD Entity: 545 Maximum PTO Speed Definition: The maximum Speed of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: r/min - Revolutions per minute Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2018-06-25 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2018-07-11 Status Comments: Attachments: none DD Entity: 546 Lifetime Chopping Engagement Total Time Definition: Entire Chopping Engagement Total Time of the device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: Not Assigned Unit: s - Time count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Marc-Kevin Doeker Submit Date: 2018-06-25 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2018-07-11 Status Comments: Attachments: none DD Entity: 547 Setpoint Bale Compression Plunger Load (N) Definition: The setpoint bale compression plunger load expressed as Newton. Comment: This value is measured / controlled for each new flake that entered the baler chamber and obtained at the rear dead end of the plunger. This DDI is also available with a unit of ppm, see DDI 218. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: N - Newton Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2018-08-30 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2018-08-30 Status Comments: Attachments: none DD Entity: 548 Actual Bale Compression Plunger Load (N) Definition: The actual bale compression plunger load expressed as Newton. Comment: This is the plunger load measured at the rear dead end of the plunger cycle and only updated for each new flake that has entered the baler chamber. This DDI is also available with a unit of ppm, see DDI 219. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: N - Newton Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2018-08-30 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2018-08-30 Status Comments: Attachments: none DD Entity: 549 Last Bale Average Bale Compression Plunger Load (N) Definition: The average bale compression plunger load for the most recently produced bale expressed as newton. Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. This DDI is also available with a unit of ppm, see DDI 220. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: N - Newton Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Matthias Meyer Submit Date: 2018-08-30 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2018-08-30 Status Comments: Attachments: none DD Entity: 550 Ground Cover Definition: The Ground Cover as an amount of soil that is covered by plants Comment: Here, the cover of the soil with green plants (chlorophyll) is determined. If there are no plants in the field, the cover is 0%, the soil is completely covered with plants (leaves), this corresponds to 100%. The measurement can be determined as described above via sensors / satellites and calculation of biomass indices or via a camera system and corresponding image analysis. Soil coverage can now be used directly to the online application or to create prescription maps. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 17 - Sensor System 25 - Slurry Applicators Unit: % - Percent Resolution: 0,1 SAE SPN: CANBus Range: 0 - 1000 Display Range: 0,0 - 100,0 Submit by: Johann Janker Submit Date: 2018-06-26 Submit Company: Fritzmeier Umwelttechnik GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2018-12-20 Status Comments: Attachments: none DD Entity: 551 Actual PTO Torque Definition: Actual Torque of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: N*m - Newton metre Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2019-02-05 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-02-11 Status Comments: Attachments: none DD Entity: 552 Setpoint PTO Torque Definition: The desired Torque of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: N*m - Newton metre Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2019-02-05 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-02-11 Status Comments: Attachments: none DD Entity: 553 Default PTO Torque Definition: The default Torque of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: N*m - Newton metre Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2019-02-05 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-02-11 Status Comments: Attachments: none DD Entity: 554 Minimum PTO Torque Definition: The minimum Torque of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: N*m - Newton metre Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2019-02-05 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-02-11 Status Comments: Attachments: none DD Entity: 555 Maximum PTO Torque Definition: The maximum Torque of the Power Take-Off (PTO) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: N*m - Newton metre Resolution: 0,0001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748,3647 Submit by: Marc-Kevin Doeker Submit Date: 2019-02-05 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-02-11 Status Comments: Attachments: none DD Entity: 556 Present Weather Conditions Definition: DDI to document the current weather conditions. Meaning of values: 1 - sunny/clear 2 - partly cloudy 3 - overcast 4 - rain 5 - sleet 6 - snow Comment: For details and source see attached document. See also DDI 'Previous Weather Conditions'. Typically used by Device Classes: 0 - Non-specific system Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 1 - 6 Display Range: 1 - 6 Submit by: Martin Sperlich / Andres Ferreyra Submit Date: 2018-12-17 Submit Company: CLAAS / AgConnectios Revision Number: 1 Current Status: Published Status Date: 2019-03-11 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/790/ISO11783-11-DDI-556-Present Weather Conditions-v1.pdf DD Entity: 557 Setpoint Electrical Current Definition: Setpoint electrical Current of a Device Element Comment: similar to "56 - Setpoint Seeding Depth" Typically used by Device Classes: Not Assigned Unit: A - Electrical current Resolution: 0,005 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 10737418,235 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-11 Status Comments: Attachments: none DD Entity: 558 Actual Electrical Current Definition: Actual Electrical Current of Device Element Comment: similar to "57 - Actual Seeding Depth" Typically used by Device Classes: Not Assigned Unit: A - Electrical current Resolution: 0,005 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 10737418,235 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-11 Status Comments: Attachments: none DD Entity: 559 Minimum Electrical Current Definition: Minimum electrical Current of Device Element Comment: supplied by device as physical minimum similar to "59 - Minimum Seeding Depth" Typically used by Device Classes: Not Assigned Unit: A - Electrical current Resolution: 0,005 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 10737418,235 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-11 Status Comments: Attachments: none DD Entity: 560 Maximum Electrical Current Definition: Maximum electrical Current of Device Element Comment: supplied by device as physical minimum similar to "60 - Maximum Seeding Depth" Typically used by Device Classes: Not Assigned Unit: A - Electrical current Resolution: 0,005 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 10737418,235 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-11 Status Comments: Attachments: none DD Entity: 561 Default Electrical Current Definition: Default electrical current of Device Element Comment: The value which will be used by the device if not set through the Task Controller. Typically used by Device Classes: Not Assigned Unit: A - Electrical current Resolution: 0,005 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 10737418,235 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 562 Setpoint Voltage Definition: Setpoint Voltage of a Device Element Comment: similar to "56 - Setpoint Seeding Depth" Typically used by Device Classes: Not Assigned Unit: V - Electrical voltage Resolution: 0,001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483,648 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 563 Default Voltage Definition: Default Voltage of a Device Element Comment: The value that will be used by the device if not set through the TC. Typically used by Device Classes: Not Assigned Unit: V - Electrical voltage Resolution: 0,001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483,648 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 564 Actual Voltage Definition: Actual Voltage of a Device Element Comment: Typically used by Device Classes: 27 - Weeders Unit: V - Electrical voltage Resolution: 0,001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483,648 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 2 Current Status: Published Status Date: 2023-03-28 Status Comments: Added Weeders as device class Attachments: none DD Entity: 565 Minimum Voltage Definition: Minimum Voltage of a Device Element Comment: Typically used by Device Classes: Not Assigned Unit: V - Electrical voltage Resolution: 0,001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483,648 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 566 Maximum Voltage Definition: Maximum Voltage of a Device Element Comment: Typically used by Device Classes: Not Assigned Unit: V - Electrical voltage Resolution: 0,001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483,648 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 567 Actual Electrical Resistance Definition: Actual Electrical Resistance of Device Element Comment: Typically used by Device Classes: Not Assigned Unit: Ohm - Electrical resistance Resolution: 0,01 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 21474836,47 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 568 Setpoint Electrical Power Definition: Setpoint Electrical Power of Device Element Comment: Typically used by Device Classes: Not Assigned Unit: W - Electrical Power Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 569 Actual Electrical Power Definition: Actual Electrical Power of Device Element Comment: Typically used by Device Classes: Not Assigned Unit: W - Electrical Power Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 570 Default Electrical Power Definition: Default Electrical Power of Device Element Comment: The value that will be used by the device it not set by the TC. Typically used by Device Classes: Not Assigned Unit: W - Electrical Power Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 571 Maximum Electrical Power Definition: Maximum Electrical Power of Device Element Comment: Typically used by Device Classes: Not Assigned Unit: W - Electrical Power Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 572 Minimum Electrical Power Definition: Minimum Electrical Power of Device Element Comment: Typically used by Device Classes: Not Assigned Unit: W - Electrical Power Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-12 Status Comments: Attachments: none DD Entity: 573 Total Electrical Energy Definition: Accumulated Electrical Energy Consumption as a Task Total. Comment: Typically used by Device Classes: Not Assigned Unit: kWh - Electrical energy Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-14 Status Comments: Attachments: none DD Entity: 574 Setpoint Electrical Energy per Area Application Rate Definition: Setpoint Electrical Energy Application Rate specified as kWh per area Comment: Typically used by Device Classes: Not Assigned Unit: kWh/m² - Electrical energy per area Resolution: 1,0E-7 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214,7483647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-15 Status Comments: Attachments: none DD Entity: 575 Actual Electrical Energy per Area Application Rate Definition: Actual Electrical Energy Application Rate specified as kWh per area Comment: Typically used by Device Classes: Not Assigned Unit: kWh/m² - Electrical energy per area Resolution: 1,0E-7 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214,7483647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: ISO-Published Status Date: 2019-03-15 Status Comments: Status was published Attachments: none DD Entity: 576 Maximum Electrical Energy per Area Application Rate Definition: Maximum Electrical Energy Application Rate specified as kWh per area Comment: Typically used by Device Classes: Not Assigned Unit: kWh/m² - Electrical energy per area Resolution: 1,0E-7 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214,7483647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 2 Current Status: Published Status Date: 2021-01-11 Status Comments: Typo fixed Attachments: none DD Entity: 577 Minimum Electrical Energy per Area Application Rate Definition: Minimum Electrical Energy Application Rate specified as kWh per area Comment: Typically used by Device Classes: Not Assigned Unit: kWh/m² - Electrical energy per area Resolution: 1,0E-7 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214,7483647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-15 Status Comments: Attachments: none DD Entity: 578 Setpoint Temperature Definition: Setpoint Temperature of Device Element specified as milli Kelvin Comment: Setpoint Temperature of Device Element like a Motor, Engine, inverter, etc. Typically used by Device Classes: Not Assigned Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-15 Status Comments: Attachments: none DD Entity: 579 Actual Temperature Definition: Actual Temperature of Device Element specified as milli Kelvin Comment: Actual Temperature of Device Element like a Motor, Engine, inverter, etc. Typically used by Device Classes: Not Assigned Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-15 Status Comments: Attachments: none DD Entity: 580 Minimum Temperature Definition: Minimum Temperature of Device Element specified as milli Kelvin Comment: Minimum Temperature of Device Element like a Motor, Engine, inverter, etc. Typically used by Device Classes: Not Assigned Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Franz Hoepfinger Submit Date: 2019-03-15 Submit Company: Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-15 Status Comments: Attachments: none DD Entity: 581 Maximum Temperature Definition: Maximum Temperature of Device Element specified as milli Kelvin Comment: Maximum Temperature of Device Element like a Motor, Engine, inverter, etc. Typically used by Device Classes: Not Assigned Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Franz Hoepfinger Submit Date: 2019-03-15 Submit Company: Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-15 Status Comments: Attachments: none DD Entity: 582 Default Temperature Definition: Default Temperature of Device Element specified as milli Kelvin Comment: Default Temperature of Device Element like a Motor, Engine, inverter, etc. Typically used by Device Classes: Not Assigned Unit: mK - Temperature Resolution: 1 SAE SPN: CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Franz Hoepfinger Submit Date: 2019-03-15 Submit Company: Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-15 Status Comments: Attachments: none DD Entity: 583 Setpoint Frequency Definition: Setpoint Frequency of Device Element specified as Hz Comment: Typically used by Device Classes: Not Assigned Unit: Hz - Electrical frequency Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-18 Status Comments: Attachments: none DD Entity: 584 Actual Frequency Definition: Actual Frequency of Device Element specified as Hz Comment: Typically used by Device Classes: Not Assigned Unit: Hz - Electrical frequency Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-18 Status Comments: Attachments: none DD Entity: 585 Minimum Frequency Definition: Minimum Frequency of Device Element specified as Hz Comment: Typically used by Device Classes: Not Assigned Unit: Hz - Electrical frequency Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-18 Status Comments: Attachments: none DD Entity: 586 Maximum Frequency Definition: Maximum Frequency of Device Element specified as Hz Comment: Typically used by Device Classes: Not Assigned Unit: Hz - Electrical frequency Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Franz Hoepfinger Submit Date: 2019-02-15 Submit Company: 973 - Zasso GmbH Revision Number: 1 Current Status: Published Status Date: 2019-03-18 Status Comments: Attachments: none DD Entity: 587 Previous Rainfall Definition: DDI to document past rainfall conditions. Meaning of values: 1 - no rain in the last month 2 - no rain in the last week 3 - no rain in the last 24 hours 4 - rainy without heavy rain in the last 24 hours 5 - heavier rain for some days or rainstorm in the last 24 hours 6 - prolonged rainfall or snowmelt Comment: For details and source see attached document. See also DDI 'Present Weather Conditions'. Typically used by Device Classes: 0 - Non-specific system Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 1 - 6 Display Range: 1 - 6 Submit by: Martin Sperlich / Andres Ferreyra Submit Date: 2018-12-17 Submit Company: CLAAS / AgConnections Revision Number: 1 Current Status: Published Status Date: 2019-04-29 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/791/Previous Rainfall-v1.pdf DD Entity: 588 Setpoint Volume Per Area Application Rate as [ml/m²] Definition: Setpoint Application Rate specified as volume per area for High Flows as [mm³/m²] Comment: New DDI which supports higher flows is being needed. Use case: Manure Application with 28000 gal/acre Typically used by Device Classes: 10 - Irrigation 25 - Slurry Applicators Unit: ml/m² - Capacity per area large Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Stefan Welsch Submit Date: 2019-04-12 Submit Company: 33 - John Deere Revision Number: 1 Current Status: ISO-Published Status Date: 2019-05-02 Status Comments: Status was published Attachments: none DD Entity: 589 Actual Volume Per Area Application Rate as [ml/m²] Definition: Actual Application Rate specified as volume per area for High Flows as [ml/m²] Comment: New DDI Request for high flow applications. Usecase Manure application with 28000 gal/acre Typically used by Device Classes: 10 - Irrigation 25 - Slurry Applicators Unit: ml/m² - Capacity per area large Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Stefan Welsch Submit Date: 2019-04-12 Submit Company: 33 John Deere Revision Number: 1 Current Status: Published Status Date: 2019-05-02 Status Comments: Attachments: none DD Entity: 590 Minimum Volume Per Area Application Rate as [ml/m²] Definition: Minimum Application Rate specified as volume per area for High Flows as [ml/m²] Comment: DDI which supports higher flows is being needed. Use case: Manure Application with 28000 gal/acre Typically used by Device Classes: 10 - Irrigation 25 - Slurry Applicators Unit: ml/m² - Capacity per area large Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Stefan Welsch Submit Date: 2019-05-02 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2019-05-02 Status Comments: Attachments: none DD Entity: 591 Maximum Volume Per Area Application Rate as [ml/m²] Definition: Maximum Volume Per Area Application Rate for high flows as [ml/m²] Comment: DDI which supports higher flows is being needed. Use case: Manure Application with 28000 gal/acre Typically used by Device Classes: 10 - Irrigation 25 - Slurry Applicators Unit: ml/m² - Capacity per area large Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Stefan Welsch Submit Date: 2019-05-02 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2019-05-02 Status Comments: Attachments: none DD Entity: 592 Default Volume Per Area Application Rate as [ml/m²] Definition: Default Volume Per Area Application Rate for high flows as [ml/m²] Comment: DDI which supports higher flows is being needed. Use case: Manure Application with 28000 gal/acre Typically used by Device Classes: 10 - Irrigation 25 - Slurry Applicators Unit: ml/m² - Capacity per area large Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Stefan Welsch Submit Date: 2019-05-02 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2019-05-02 Status Comments: Attachments: none DD Entity: 593 Traction Type Definition: The type of traction system used for a machine. 0 - unknown 1 - Two Track 2 - Four Track 3 - Wheel 4 - Front Track, Rear Wheel 5 - Front Wheel, Rear Track >= 6 are reserved for future assignments Comment: An example use case for Traction Type is a display system with both a TC server encountering a tractor and a guidance system that needs to know the difference between a wheeled or tracked tractor to determine operating parameters. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 24 - Utility Vehicles Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 5 Display Range: 0 - 5 Submit by: Nick Linberg Submit Date: 2019-07-09 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2019-08-13 Status Comments: Attachments: none DD Entity: 594 Steering Type Definition: Steering Type DDI is used to define the current active steering type of a machine. This information can be used to finetune or adjust system behavior or to document which steering type was used during operation. The current supported steering types are listed below: 0 -- unknown 1 – Articulated 2 – Differential 3 - Front wheel 4 - Rear wheel 5 - Four wheel 6 - Differential Front with Active Rear support 7 – Dog-walk Machine >=8 are reserved for future assignments Comment: Steering type reported by device for use by guidance systems. Depending on the DDI implementation and machine capabilities the Steering Type could change during operation. For more details and examples see attachment. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 24 - Utility Vehicles 25 - Slurry Applicators Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 7 Display Range: 0 - 7 Submit by: Paul Matthews Submit Date: 2020-02-10 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2020-02-10 Status Comments: First release Attachments: https://www.isobus.net/isobus/attachments/839/ISO11783-11-DDI-594-Steering Type-v1.pdf DD Entity: 595 Machine Mode Definition: This mode does represent the overall current machine mode and shall be used only one time within the DDOP below the device element of type device. If a machine is capable of differentiating between different modes it can be indicated by this mode. The value definitions are 0 = Unknown / Not defined 1 = Idle 2 = Field Mode 3 = Street Mode 4 = Maintenance 5 = Filling 6 = Emptying 7 = Cleaning 8 and higher are reserved for future assignments Comment: In addition to the current workstate, some machines are capable of differentiating between different modes. In idle/neutral mode, value 1 (Idle) should be used. If a machine is in working/field mode, value 2 (Field Mode) should be indicated. Moving the machine on a road/street should be indicated by value 3 (Street Mode). During maintenance/servicing, the value 4 (Maintenance) must be selected. If the machine is in an unspecified state, value 0 (Unknown / Not defined) should be used. Note: this mode does not define the Work State of a machine function Examples: * A sprayer in the field performing a spraying application is in field mode. A sprayer at the farm filling the bin is in filling mode * A combine harvesting in the field would be in field mode. To indicate unloading the harvester bin DDI 240 should be used Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Marc-Kevin Doeker Submit Date: 2019-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2020-09-21 Status Comments: Added mode 5 to 7; Update definition and comment Attachments: none DD Entity: 596 Cargo Area Cover State Definition: Current state of the Cargo Area Cover. Used to determine whether the Cargo Area was covered during transport or other activities. The Cargo Area Cover State is a value from -1 to 100 % . The value definitions are: -1 = Not defined/Unknown 0 = cover open 100 = cover fully closed Comment: Used to determine whether the Cargo Area is covered during transport or other activities. If the Cargo Area is not covered, value 0 (Open) should be used. If the Cargo Area is fully covered, value 100 (Closed) should be used. If the state changes from open to closed - or vice versa - then a value between 1 and 99 (Intermediate Position) must be selected. If the status cannot be determined, value -1 (Unknown / Not defined) should be used. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: % - Percent Resolution: 1 SAE SPN: CANBus Range: -1 - 100 Display Range: -1 - 100 Submit by: Marc-Kevin Doeker Submit Date: 2019-12-04 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 597 Total Distance Definition: Accumulated Distance (independent of working position and surface) Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Marc-Kevin Doeker Submit Date: 2019-11-19 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 598 Lifetime Total Distance Definition: Entire Total Distance of the device lifetime (independent of working position and surface) Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: m - Distance Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Marc-Kevin Doeker Submit Date: 2019-11-19 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 599 Total Distance Field Definition: Accumulated Distance on the field Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Marc-Kevin Doeker Submit Date: 2019-11-19 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 600 Lifetime Total Distance Field Definition: Entire Total Distance on the field of the device lifetime Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: m - Distance Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Marc-Kevin Doeker Submit Date: 2019-11-19 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 601 Total Distance Street Definition: Accumulated Distance on the street Comment: Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Marc-Kevin Doeker Submit Date: 2019-11-19 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 602 Lifetime Total Distance Street Definition: Entire Total Distance on the street of the device lifetime Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore this DDE shall not be setable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE but shall not support the setable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: Not Assigned 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work 17 - Sensor System 18 - Reserved for Future Assignment 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 23 - Mulchers 24 - Utility Vehicles 25 - Slurry Applicators 26 - Feeder / Mixer Unit: m - Distance Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Marc-Kevin Doeker Submit Date: 2019-11-19 Submit Company: Maschinenfabrik Bernard Krone GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 603 Actual Tramline Condensed Work State (17-32) Definition: Combination of the Actual States of individual Tramline Valves number 17 to 32 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 17-32 has the same purpose and definition like the Actual Condensed Work State 17-32 DDI 162. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 604 Actual Tramline Condensed Work State (33-48) Definition: Combination of the Actual States of individual Tramline Valves number 33 to 48 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 33-48 has the same purpose and definition like the Actual Condensed Work State 33-48 DDI 163. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 605 Actual Tramline Condensed Work State (49-64) Definition: Combination of the Actual States of individual Tramline Valves number 49 to 64 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 49-64 has the same purpose and definition like the Actual Condensed Work State 49-64 DDI 164. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 606 Actual Tramline Condensed Work State (65-80) Definition: Combination of the Actual States of individual Tramline Valves number 65 to 80 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 65-80 has the same purpose and definition like the Actual Condensed Work State 65-80 DDI 165. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 607 Actual Tramline Condensed Work State (81-96) Definition: Combination of the Actual States of individual Tramline Valves number 81 to 96 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 81-96 has the same purpose and definition like the Actual Condensed Work State 81-96 DDI 166. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 608 Actual Tramline Condensed Work State (97-112) Definition: Combination of the Actual States of individual Tramline Valves number 97 to 112 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 97-112 has the same purpose and definition like the Actual Condensed Work State 97-112 DDI 167. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 609 Actual Tramline Condensed Work State (113-128) Definition: Combination of the Actual States of individual Tramline Valves number 113 to 128 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 113-128 has the same purpose and definition like the Actual Condensed Work State 113-128 DDI 168. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 610 Actual Tramline Condensed Work State (129-144) Definition: Combination of the Actual States of individual Tramline Valves number 129 to 144 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 129-144 has the same purpose and definition like the Actual Condensed Work State 129-144 DDI 169. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 611 Actual Tramline Condensed Work State (145-160) Definition: Combination of the Actual States of individual Tramline Valves number 145 to 160 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 145-160 has the same purpose and definition like the Actual Condensed Work State 145-160 DDI 170. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 612 Actual Tramline Condensed Work State (161-176) Definition: Combination of the Actual States of individual Tramline Valves number 161 to 176 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 161-176 has the same purpose and definition like the Actual Condensed Work State 161-176 DDI 171. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 613 Actual Tramline Condensed Work State (177-192) Definition: Combination of the Actual States of individual Tramline Valves number 177 to 192 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 177-192 has the same purpose and definition like the Actual Condensed Work State 177-192 DDI 172. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 614 Actual Tramline Condensed Work State (193-208) Definition: Combination of the Actual States of individual Tramline Valves number 193 to 208 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 193-208 has the same purpose and definition like the Actual Condensed Work State 193-208 DDI 173. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 615 Actual Tramline Condensed Work State (209-224) Definition: Combination of the Actual States of individual Tramline Valves number 209 to 224 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 209-224 has the same purpose and definition like the Actual Condensed Work State 209-224 DDI 174. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 616 Actual Tramline Condensed Work State (225-240) Definition: Combination of the Actual States of individual Tramline Valves number 225 to 240 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 225-240 has the same purpose and definition like the Actual Condensed Work State 225-240 DDI 175. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 617 Actual Tramline Condensed Work State (241-256) Definition: Combination of the Actual States of individual Tramline Valves number 241 to 256 into a single Actual Tramline State of their parent DeviceElement. The Actual Tramline Condensed Work State contains the child element Actual Tramline Work States, in the driving direction from left to right, where the leftmost child element Actual Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Actual Tramline Work State is represented by 2 bits and defined as: 00 = disabled/off, 01 = enabled/on, 10 = error indicator, 11 = undefined/not installed. In total 16 child device element Actual Tramline Work States can be contained in one Actual Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Actual Tramline Work States are available, then the unused bits shall be set to value 11 (not installed). Comment: The Actual Tramline Condensed Work State 241-256 has the same purpose and definition like the Actual Condensed Work State 241-256 DDI 176. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 618 Setpoint Tramline Condensed Work State (17-32) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 17 to 32 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 17-32 has the same purpose and definition like the Setpoint Condensed Work State 17-32 DDI 291. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 619 Setpoint Tramline Condensed Work State (33-48) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 33 to 48 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 33-48 has the same purpose and definition like the Setpoint Condensed Work State 33-48 DDI 292. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 620 Setpoint Tramline Condensed Work State (49-64) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 49 to 64 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 49-64 has the same purpose and definition like the Setpoint Condensed Work State 49-64 DDI 293. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 621 Setpoint Tramline Condensed Work State (65-80) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 65 to 80 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 65-80 has the same purpose and definition like the Setpoint Condensed Work State 65-80 DDI 294. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 622 Setpoint Tramline Condensed Work State (81-96) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 81 to 96 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 81-96 has the same purpose and definition like the Setpoint Condensed Work State 81-96 DDI 295. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 623 Setpoint Tramline Condensed Work State (97-112) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 97 to 112 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 97-112 has the same purpose and definition like the Setpoint Condensed Work State 97-112 DDI 296. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 624 Setpoint Tramline Condensed Work State (113-128) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 113 to 128 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 113-128 has the same purpose and definition like the Setpoint Condensed Work State 113-128 DDI 297. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 625 Setpoint Tramline Condensed Work State (129-144) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 129 to 144 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 129-144 has the same purpose and definition like the Setpoint Condensed Work State 129-144 DDI 298. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 626 Setpoint Tramline Condensed Work State (145-160) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 145 to 160 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 145-160 has the same purpose and definition like the Setpoint Condensed Work State 145-160 DDI 299. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 627 Setpoint Tramline Condensed Work State (161-176) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 161 to 176 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 161-176 has the same purpose and definition like the Setpoint Condensed Work State 161-176 DDI 300. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 628 Setpoint Tramline Condensed Work State (177-192) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 177 to 192 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 177-192 has the same purpose and definition like the Setpoint Condensed Work State 177-192 DDI 301. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 629 Setpoint Tramline Condensed Work State (193-208) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 193 to 208 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 193-208 has the same purpose and definition like the Setpoint Condensed Work State 193-208 DDI 302. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 630 Setpoint Tramline Condensed Work State (209-224) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 209 to 224 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 209-224 has the same purpose and definition like the Setpoint Condensed Work State 209-224 DDI 303. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 631 Setpoint Tramline Condensed Work State (225-240) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 225 to 240 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 225-240 has the same purpose and definition like the Setpoint Condensed Work State 225-240 DDI 304. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 632 Setpoint Tramline Condensed Work State (241-256) Definition: The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs. The value is a combination of the Setpoint Tramline Valve Work States of individual Tramline Valves number 241 to 256 into a single Setpoint Tramline Condensed Work State of their parent DeviceElement. The Setpoint Tramline Condensed Work State contains the child element Setpoint Tramline Work States, in the driving direction from left to right, where the leftmost child element Setpoint Tramline Work State are the 2 lowest significant bits of the Process Data Value. Each child device elements Setpoint Work State is represented by 2 bits and defined as: 00 = disable/off, 01 = enable/on, 10 = error indicator, 11 = no change. In total 16 child device element Setpoint Tramline Work States can be contained in one Setpoint Tramline Condensed Work State of their parent DeviceElement. If less than 16 child device element Setpoint Tramline Work States are available, then the unused bits shall be set to value 11 (no change). Comment: The Setpoint Tramline Condensed Work State 241-256 has the same purpose and definition like the Setpoint Condensed Work State 241-256 DDI 305. For more details see also attachment on DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 4294967295 Display Range: 0 - 4294967295 Submit by: Dominik Diekmann Submit Date: 2019-12-11 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2019-12-16 Status Comments: Attachments: none DD Entity: 633 Setpoint Volume per distance Application Rate Definition: Setpoint Application Rate specified as volume per distance Comment: Defines a target volume to be sprayed per distance travelled. e.g. in vineyards, orchards Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 25 - Slurry Applicators Unit: ml/m - Volume per distance Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Stefan Welsch Submit Date: 2020-06-26 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2020-07-14 Status Comments: Attachments: none DD Entity: 634 Actual Volume per distance Application Rate Definition: Actual liquid application based on distance travelled, e.g. in vineyards, orchards. Comment: Actual liquid application based on distance travelled, e.g. in vineyards, orchards. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 25 - Slurry Applicators Unit: ml/m - Volume per distance Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Stefan Welsch Submit Date: 2020-06-26 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2020-07-14 Status Comments: Attachments: none DD Entity: 635 Default Volume per distance Application Rate Definition: Default Application Rate specified as volume per distance Comment: Defines a default volume to be sprayed per distance travelled. e.g. in vineyards, orchards Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 25 - Slurry Applicators Unit: ml/m - Volume per distance Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Stefan Welsch Submit Date: 2020-07-14 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2020-07-14 Status Comments: Attachments: none DD Entity: 636 Minimum Volume per distance Application Rate Definition: Minimum Application Rate specified as volume per distance Comment: Defines the minimum volume to be sprayed per distance travelled. e.g. in vineyards, orchards Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 25 - Slurry Applicators Unit: ml/m - Volume per distance Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Stefan Welsch Submit Date: 2020-07-14 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2020-07-14 Status Comments: Attachments: none DD Entity: 637 Maximum Volume per distance Application Rate Definition: Maximum Application Rate specified as volume per distance Comment: Defines the maximum volume to be sprayed per distance travelled. e.g. in vineyards, orchards Typically used by Device Classes: 5 - Fertilizer 6 - Sprayers 7 - Harvesters 10 - Irrigation 25 - Slurry Applicators Unit: ml/m - Volume per distance Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Stefan Welsch Submit Date: 2020-07-14 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2020-07-14 Status Comments: Increase version number only Attachments: none DD Entity: 638 Setpoint Tire Pressure Definition: Setpoint Tire Pressure to adjust the pressure of the Tire at the point of dispensing. Comment: On pressure-based control systems, it is important to be able to monitor and control the pressure to ensure the proper Tire pressure. Being able to display and log pressure is important. Typically used by Device Classes: 1 - Tractor 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 25 - Slurry Applicators Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Rajashri Munot Submit Date: 2020-12-10 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2021-02-11 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/897/ISO_11783-11-DDI-638-Setpoint Tire Pressure-v1.pdf DD Entity: 639 Actual Tire Pressure Definition: Actual Tire Pressure is the measured pressure in the tire during operation. Comment: On pressure-based control systems, it is important to be able to monitor and control the pressure to ensure the proper performance. Being able to display and log pressure is important. Typically used by Device Classes: 1 - Tractor 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 25 - Slurry Applicators Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Rajashri Munot Submit Date: 2020-12-09 Submit Company: John Deere Revision Number: 3 Current Status: Published Status Date: 2021-04-01 Status Comments: Fix typo Attachments: none DD Entity: 640 Default Tire Pressure Definition: Default Tire Pressure in the tire during operation. Comment: Default Tire Pressure to ensure a stable and safe tire. Typically used by Device Classes: 1 - Tractor 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 25 - Slurry Applicators Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Rajashri Munot Submit Date: 2020-12-09 Submit Company: John Deere Revision Number: 2 Current Status: Published Status Date: 2021-04-01 Status Comments: Fix typo Attachments: none DD Entity: 641 Minimum Tire Pressure Definition: Minimum Tire Pressure in the tire at the time of operation Comment: Minimum Tire pressure to ensure a consistent performance. Typically used by Device Classes: 1 - Tractor 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 25 - Slurry Applicators Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Rajashri Munot Submit Date: 2020-12-09 Submit Company: John Deere Revision Number: 2 Current Status: Published Status Date: 2021-04-19 Status Comments: Typo fix Attachments: none DD Entity: 642 Maximum Tire Pressure Definition: Maximum Tire Pressure in the tire during operation Comment: Maximum Tire pressure to ensure a stable and safe tire. Typically used by Device Classes: 1 - Tractor 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 25 - Slurry Applicators Unit: Pa - Pressure Resolution: 0,1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 214748364,7 Submit by: Rajashri Munot Submit Date: 2020-12-09 Submit Company: John Deere Revision Number: 2 Current Status: Published Status Date: 2021-04-19 Status Comments: Typo fix Attachments: none DD Entity: 643 Actual Tire Temperature Definition: Actual Tire Temperature is the measured temperature in the tire during operation. Comment: See also the attachment on DDI 638 Setpoint Tire Pressure to get more information about potential device description object pools and where to add Tire DDIs. Typically used by Device Classes: 1 - Tractor 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 11 - Transport / Trailers 25 - Slurry Applicators Unit: mK - Temperature Resolution: 1 SAE SPN: PGN 65268 SPN 242 Tire Temperature CANBus Range: 0 - 1000000 Display Range: 0 - 1000000 Submit by: Franz Höpfinger Submit Date: 2021-08-02 Submit Company: 1116 - HR Agrartechnik GmbH Revision Number: 1 Current Status: Published Status Date: 2021-08-10 Status Comments: Attachments: none DD Entity: 644 Binding Method Definition: Specification of the method used to bind bales. The value definitions represent a set of flags. The flag values are: 0 = unknown (default) 1 = Mesh 2 = Twine 3 = Film 4 = Twine & Mesh 5 = Twine & Film 6 and higher are are reserved for future assignments Comment: This DDE allows a baler to specify what method is being used to bind the bales. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 5 Display Range: 0 - 5 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 2 Current Status: New Request Submitted Status Date: 2022-03-21 Status Comments: added 4 and 5; Attachments: none DD Entity: 645 Last Bale Number of Knives Definition: Number of cutting knives used in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2021-09-13 Status Comments: Attachments: none DD Entity: 646 Last Bale Binding Twine Consumption Definition: Binding twine consumption in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 2 Current Status: Published Status Date: 2023-04-24 Status Comments: Only wording changed from "Twine Binding" to "Binding Twine" Attachments: none DD Entity: 647 Last Bale Binding Mesh Consumption Definition: Binding mesh consumption in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2022-10-10 Status Comments: Added "Binding" to name Attachments: none DD Entity: 648 Last Bale Binding Film Consumption Definition: Binding film consumption in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2022-10-10 Status Comments: Added "Binding" to name Attachments: none DD Entity: 649 Last Bale Binding Film Stretching Definition: Binding film stretching in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: % - Percent Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2022-10-10 Status Comments: Added "Binding" to name Attachments: none DD Entity: 650 Last Bale Wrapping Film Width Definition: Wrapping film width in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2021-09-13 Status Comments: Attachments: none DD Entity: 651 Last Bale Wrapping Film Consumption Definition: Wrapping film consumption in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2021-09-13 Status Comments: Attachments: none DD Entity: 652 Last Bale Wrapping Film Stretching Definition: Wrapping film stretching in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: % - Percent Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2021-09-13 Status Comments: Attachments: none DD Entity: 653 Last Bale Wrapping Film Overlap Percentage Definition: Wrapping film overlap percentage in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: % - Percent Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483,647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2021-09-13 Status Comments: Attachments: none DD Entity: 654 Last Bale Wrapping Film Layers Definition: Wrapping film layers in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2021-04-20 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2021-09-13 Status Comments: Attachments: none DD Entity: 655 Electrical Apparent Soil Conductivity Definition: Electrical conductivity also called the EC-Value. For materials this is a constant. For material mixes like soil you can measure a apparent conductivity, which gives information about the soil conditions. Comment: See Attachement for more Info. Typically used by Device Classes: 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 17 - Sensor System Unit: mS/m - Milli Siemens per meter Resolution: 0,1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -3300.0 - 3300.0 Submit by: Franz Höpfinger Submit Date: 2021-04-14 Submit Company: 850 - Geoprospectors GmbH Revision Number: 1 Current Status: Published Status Date: 2021-10-05 Status Comments: Attachments: https://www.isobus.net/isobus/attachments/910/ISO_11783-11_DDI-655-Electrical_Apparent_Soil_Conductivity-v1.pdf DD Entity: 656 SC Actual Turn On Time Definition: Definition: The Section Control Actual Turn On Time defines the overall time lapse between the moment the TC client sends the actual Section state and the moment this section is physically turned on and the product is applied. The working set may support this DDE as an optional feature to provide the possibility to store the time settings direct on the device to make the settings available after a power cycle. Therefore this DDE needs always to be settable by the TC and shall not be used to change any working set system behavior. The DDI shall support the On Change trigger so that the TC is able to get informed when the value gets changed by the Working Set Master. The TC shall activate this trigger when using the DDI. Comment: This value should be provided by the implement manufacturer if applicable and otherwise only DDI 205 "SC Setpoint Turn On Time" shall be provided. If the system does not define SC Actual Turn On Time and SC Setpoint Turn On Time separately, it implies that "SC Setpoint Turn On Time" may be considered for drawing Actual Coverage. If "SC Actual Turn On Time" is defined as 0, the coverage ON shall be immediate. The usage of " SC Actual Turn On Time" does not eliminate usage of "SC Setpoint Turn On time - DDI 205", it is supporting information for better coverage Map based on Actual CWS. See also DDI 205 including attachment and DDI 206 and 657 Typically used by Device Classes: 1 - Tractor 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Rajashri Munot Submit Date: 2021-10-14 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2022-01-10 Status Comments: First version Attachments: none DD Entity: 657 SC Actual Turn Off Time Definition: The Section Control Actual Turn Off Time defines the overall time lapse between the moment the TC client sends the actual Section state and the moment this section is physically turned off and the product is stopped from being applied. The working set may support this DDE as an optional feature to provide the possibility to store the time settings direct on the device to make the settings available after a power cycle. Therefore this DDE needs always to be settable by the TC and shall not be used to change any working set system behavior. The DDI shall support the On Change trigger so that the TC is able to get informed when the value gets changed by the Working Set Master. The TC shall activate this trigger when using the DDI. Comment: This value should be provided by the implement manufacturer if applicable and otherwise only DDI 206 "SC Setpoint Turn Off Time" shall be provided. If the system does not define SC Actual Turn Off Time and SC Setpoint Turn Off Time separately, it implies that "SC Setpoint Turn Off Time" may be considered for drawing Actual Coverage. If "SC Actual Turn Off Time" is defined as 0, the coverage OFF shall be immediate. The usage of " SC Actual Turn Off Time" does not eliminate usage of "SC Setpoint Turn Off time - DDI 206", it is supporting information for better coverage Map based on Actual CWS. See also DDI 205 including attachment and DDI 206 and 656 Typically used by Device Classes: 1 - Tractor 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Rajashri Munot Submit Date: 2021-10-14 Submit Company: John Deere Revision Number: 1 Current Status: Published Status Date: 2022-01-10 Status Comments: First version Attachments: none DD Entity: 658 Actual CO2 equivalent specified as mass per area Definition: Actual CO2 equivalent specified as mass per area Comment: For more details see also ISO-14040 and ISO-14044 documents. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 25 - Slurry Applicators Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2022-10-20 Submit Company: GRIMME Landmaschinenfabrik GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2022-11-15 Status Comments: Attachments: none DD Entity: 659 Actual CO2 equivalent specified as mass per time Definition: Actual CO2 equivalent specified as mass per time Comment: For more details see also ISO-14040 and ISO-14044 documents. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 25 - Slurry Applicators 26 - Feeder / Mixer Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2022-10-20 Submit Company: GRIMME Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2022-11-15 Status Comments: Attachments: none DD Entity: 660 Actual CO2 equivalent specified as mass per mass Definition: Actual CO2 equivalent specified as mass per mass (application rate) Comment: For more details see also ISO-14040 and ISO-14044 documents. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 25 - Slurry Applicators Unit: mg/kg - Mass per mass unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2022-10-20 Submit Company: GRIMME Landmaschinenfabrik GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2022-11-15 Status Comments: Attachments: none DD Entity: 661 Actual CO2 equivalent specified as mass per yield Definition: Actual CO2 equivalent specified as mass per yield mass Comment: For more details see also ISO-14040 and ISO-14044 documents. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 19 - Timber Harvesters Unit: mg/kg - Mass per mass unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2022-10-20 Submit Company: GRIMME Landmaschinenfabrik GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2022-11-15 Status Comments: Attachments: none DD Entity: 662 Actual CO2 equivalent specified as mass per volume Definition: Actual CO2 equivalent specified as mass per volume Comment: For more details see also ISO-14040 and ISO-14044 documents. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 25 - Slurry Applicators Unit: mg/l - Mass per capacity unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2022-10-20 Submit Company: GRIMME Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2022-11-15 Status Comments: Attachments: none DD Entity: 663 Actual CO2 equivalent specified as mass per count Definition: Actual CO2 equivalent specified as mass per count Comment: For more details see also ISO-14040 and ISO-14044 documents. Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 7 - Harvesters 8 - Root Harvester 19 - Timber Harvesters Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2022-10-20 Submit Company: GRIMME Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2022-11-15 Status Comments: Attachments: none DD Entity: 664 Total CO2 equivalent Definition: Accumulated CO2 equivalent specified as mass in kilogram [kg] Comment: For more details see also ISO-14040 and ISO-14044 documents. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 25 - Slurry Applicators 26 - Feeder / Mixer Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2022-10-20 Submit Company: GRIMME Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2022-11-15 Status Comments: Attachments: none DD Entity: 665 Lifetime total CO2 equivalent Definition: Entire Lifetime CO2 equivalent specified as mass in kilogram [kg] Comment: For more details see also ISO-14040 and ISO-14044 documents. Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 19 - Timber Harvesters 20 - Forwarders 21 - Timber loaders 22 - Timber Processing Machines 25 - Slurry Applicators 26 - Feeder / Mixer Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2022-10-20 Submit Company: GRIMME Landmaschinenfabrik GmbH & Co. KG Revision Number: 1 Current Status: Published Status Date: 2022-11-15 Status Comments: Attachments: none DD Entity: 666 Working Direction Definition: This DDI defines the intended Working Direction in the field and also defines the numbering of the Bouts. Comment: The Working Direction defines the intended Working Direction in the field and also defines the numbering of the Bouts. If the Working Direction is 1 (working from left to right, compared to AB-reference line) the numbering of the Bouts is also from left to right in ascending order. If the Working Direction is 2 (working from right to left, compared to AB-reference line) the numbering of the Bouts is from right to left in ascending order. For more details see attachment DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: 0 - 2 Display Range: 0 - 2 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 667 Distance between Guidance Track Number 0R and 1 Definition: This DDI defines the distance between tracks 0R and 1. Comment: If the user wants to start with a different Working Width than 100%, the Track Number 0 has to be divided in two separate Tracks 0R and 0L. Therefore, the Tracks 0R and 0L are deviated from the original Track 0. To calculate the correct positions of these Tracks, the distance d0R/1 between Track 0R and 1 and the distance d0R/0L between 0R and 0L have to be defined. For more details see attachment DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 668 Distance between Guidance Track Number 0R and 0L Definition: This DDI defines the distance between tracks 0R and 0L. Comment: If the user wants to start with a different Working Width than 100%, the Track Number 0 has to be divided in two separate Tracks 0R and 0L. Therefore, the Tracks 0R and 0L are deviated from the original Track 0. To calculate the correct positions of these Tracks, the distance d0R/1 between Track 0R and 1 and the distance d0R/0L between 0R and 0L have to be defined. For more details see attachment DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 669 Bout Track Number Shift Definition: This DDI defines the amount of tramlines the Tramline pattern is to be shifted. Comment: The implement may have the possibility to give a Bout Track Number Shift in its calculation to shift the Tramline pattern. In that case the Tramline calculation is based on the following formula: Bout Track Number = Guidance Track Number + 1 + Bout Track Number Shift. The Task Controller shall store Bout track number shift in conjunction with the Unique A-B Guidance Reference Line ID. The TC shall send this value on change of Unique A-B Guidance Reference Line ID to inform the implement that it needs to take this Bout Track Number Shift into account. Therefore, this DDI should be settable. The Guidance Track Numbers are not influenced by this DDI. A positive Bout Track Number Shift will shift the Tramline pattern in the direction of the lower Guidance Track Numbers. A negative Bout Track Number Shift will shift the Tramline pattern in the direction of the higher Guidance Track Numbers. For more details see attachment DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: not defined - not defined Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 670 Tramline Crop protection/fertilization Working Width Definition: Working Width of the Crop protection/fertilization vehicle which will drive on the tramline tracks. Comment: Working Width of the Crop protection/fertilization vehicle. This is also the distance between the single Tramline Tracks. This value is a manual user input and is provided by the Implement to the Task Controller. For more details see attachment DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 671 Tramline Tire Width Definition: Width of the largest tire which should fit on the Tramline Track. Comment: This is the Width of the largest tire which should fit on the Tramline Track. The distance between the rows besides the Tramline Track shall be wider than the Tire Width to avoid crop damage. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 672 Tramline Wheel Distance Definition: Distance between the centres of the Wheels of the Crop protection/fertilization vehicle. Comment: For more details see attachment DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 673 Tramline Irrigation Working Width Definition: The Working Width of the Irrigation system is the Distance between the single Tramline Tracks for the Irrigation system. Comment: Besides a Tramlining rhythm for a Sprayer, a second Tramlining rhythm with a different pattern for an irrigation system may exist. The Working Width of the Irrigation system is also the Distance between the single Tramline Tracks for the Irrigation system. This value is a manual user input and is provided by the Implement to the Tramline Controller. The following picture shows an example with a 6m Seed drill Width, 24m Sprayer Width and a 66m Irrigation Width. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 674 Tramline Irrigation Tire Width Definition: Width of the largest tire which should fit on the Tramline Track. Comment: This is the Width of the largest Tire which should fit on the Tramline Track. The distance between the rows besides the Tramline Track shall be wider than the Irrigation Tire Width to avoid crop damage. For more details see attachment DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 675 Tramline Irrigation Wheel Distance Definition: Distance between the centre of the Wheels of the Irrigation system. Comment: For more details see attachment DDI 505. Typically used by Device Classes: 4 - Planters /Seeders Unit: mm - Length Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Karsten Helweg Submit Date: 2015-12-10 Submit Company: Competence Center ISOBUS e.V. Revision Number: 1 Current Status: Published Status Date: 2022-12-02 Status Comments: Attachments: none DD Entity: 676 Last Bale Binding Mesh Layers Definition: Binding mesh layers in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2023-03-23 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2023-04-27 Status Comments: New added Attachments: none DD Entity: 677 Last Bale Binding Film Layers Definition: Binding film layers in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2023-03-23 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2023-04-27 Status Comments: New added Attachments: none DD Entity: 678 Last Bale Binding Twine Layers Definition: Binding twine layers in the most recently produced bale Comment: The recommended use of this DDE is for a baler to report this once for every bale that is produced. A baler may add this to its default set of data, based on an internal on-change data trigger that causes the baler to report the value of this DDE after the bale is produced. The recommendation for data logging is that all "Last Bale" DDEs that are supported by a device are reported together at the moment that the bale is produced and leaves the machine. Typically used by Device Classes: 7 - Harvesters 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Mike Schmidt on behalf of Steffen Hoffmann Submit Date: 2023-04-28 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2023-05-02 Status Comments: Attachments: none DD Entity: 679 Crop Contamination Total Mass Definition: Accumulated mass of contamination in yield by dirt or foreign material as a total counter Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 680 Crop Contamination Lifetime Total Mass Definition: Accumulated mass of contamination in yield by dirt or foreign material as a lifetime counter Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: kg - Mass Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 681 Film bale Total Count Definition: The total number of foil or film bound product units for which foil or film binding method was used during operation. Comment: Foil or Film Total Count can be used as total counter of a device element. It is intended to be used as task based and therefore it is recommended to support the on-time and on-change trigger methods. The total trigger method and the settable property are required for this DDE. Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Indra Tjalma Submit Date: 2023-03-27 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-03-27 Status Comments: Attachments: none DD Entity: 682 Mesh bale Total Count Definition: The total number of mesh bound product units for which mesh binding method was used during operation. Comment: Mesh Total Count can be used as total counter of a device element. It is intended to be used as task based and therefore it is recommended to support the on-time and on-change trigger methods. The total trigger method and the settable property are required for this DDE. Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Indra Tjalma Submit Date: 2023-03-27 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-03-27 Status Comments: Attachments: none DD Entity: 683 Twine bale Total Count Definition: The total number of twine bound product units for which twine binding method was used during operation. Comment: Twine Total Count can be used as total counter of a device element. It is intended to be used as task based and therefore it is recommended to support the on-time and on-change trigger methods. The total trigger method and the settable property are required for this DDE. Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Indra Tjalma Submit Date: 2023-03-27 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-03-27 Status Comments: Attachments: none DD Entity: 684 Wrapping Film bale Total Count Definition: The total number of wrapping units for which wrapping film binding method was used during operation. Comment: Wrapping Film Total Count can be used as total counter of a device element. It is intended to be used as task based and therefore it is recommended to support the on-time and on-change trigger methods. The total trigger method and the settable property are required for this DDE. Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Indra Tjalma Submit Date: 2023-03-27 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-03-27 Status Comments: Attachments: none DD Entity: 685 Lifetime Film Bale Total Count Definition: Total number of film or foil bound product units for which film or foil binding method was used during operation, of a device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore, this DDE shall not be settable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE, but shall not support the settable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: - 2147483647 Submit by: Indra Tjalma Submit Date: 2023-03-27 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-03-27 Status Comments: Attachments: none DD Entity: 686 Lifetime Mesh Bale Total Count Definition: Total number of mesh bound product units for which mesh binding method was used during operation, of a device lifetime Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore, this DDE shall not be settable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE, but shall not support the settable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: - 2147483647 Submit by: Indra Tjalma Submit Date: 2023-03-27 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-03-27 Status Comments: Attachments: none DD Entity: 687 Lifetime Twine Bale Total Count Definition: Total number of twine bound product units for which Twine binding method was used during operation, of a device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore, this DDE shall not be settable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE, but shall not support the settable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: - 2147483647 Submit by: Indra Tjalma Submit Date: 2023-03-27 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-03-27 Status Comments: Attachments: none DD Entity: 688 Lifetime Wrapping Film Bale Total Count Definition: Total number of wrapping units for which wrapping film binding method was used during operation, of a device lifetime. Comment: This is the overall total of the device. This total does not refer to an application controlled by a Task Controller. Therefore, this DDE shall not be settable within the device description and neither shall the device reset the value when the task status changed. It is up to the device control system when to reset this value. The Working Set Master shall support the total trigger method for this DDE, but shall not support the settable property. The Task Controller can request and store this DDE at the end of a task. But it shall not set this DDE when the task is resumed. Typically used by Device Classes: 9 - Forage harvester Unit: # - Quantity/Count Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: - 2147483647 Submit by: Indra Tjalma Submit Date: 2023-03-27 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: New Request Submitted Status Date: 2023-03-27 Status Comments: Attachments: none DD Entity: 689 Effective Total Electrical Battery Energy Consumption Definition: Accumulated total electrical battery energy consumption in working position. Comment: Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: kWh - Electrical energy Resolution: 0,001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483,648 - 2147483,647 Submit by: Johannes Nägele Submit Date: 2023-12-04 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2024-02-19 Status Comments: Attachments: none DD Entity: 690 Ineffective Total Electrical Battery Energy Consumption Definition: Accumulated total electrical battery energy consumption in non working position. Comment: Energy throughput of the battery including secondary consumers like DC/DC converter, AC compressor... Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: kWh - Electrical energy Resolution: 0,001 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483,648 - 2147483,647 Submit by: Johannes Nägele Submit Date: 2023-12-04 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2024-02-19 Status Comments: Attachments: none DD Entity: 691 Instantaneous Electrical Battery Energy Consumption per Time Definition: Electrical battery energy consumption per time Comment: Energy throughput of the battery including secondary consumers like DC/DC converter, AC compressor... Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: W - Electrical Power Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Johannes Nägele Submit Date: 2023-12-04 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2024-02-19 Status Comments: Attachments: none DD Entity: 692 Instantaneous Electrical Battery Energy Consumption per Area Definition: Electrical battery energy consumption per area Comment: Energy throughput of the battery including secondary consumers like DC/DC converter, AC compressor... Typically used by Device Classes: 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers Unit: kWh/m² - Electrical energy per area Resolution: 1,0E-5 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -21474,83648 - 21474,836470000002 Submit by: Johannes Nägele Submit Date: 2023-12-04 Submit Company: AGCO Revision Number: 1 Current Status: Published Status Date: 2024-02-19 Status Comments: Attachments: none DD Entity: 32768 Maximum Droplet Size Definition: Definition: The maximum droplet size the system can produce. Defined as: 0 = Unknown, 1 = Extremely Fine - XF, 2 = Very Fine - VF, 3 = Fine - F, 4 = Medium - M, 5 = Coarse - C, 6 = Very Coarse - VC, 7 = Extremely Coarse - XC, 8 = Ultra Coarse - UC, 9-254 = Reserved, 255 = No Droplet Size Available. Comment: Droplet sizes are currently defined in ISO 25358 and are broken into 8 classification categories and also assigned a corresponding colour code as follows: Extremely Fine = Purple, Very Fine = Red, Fine = Orange, Medium = Yellow, Coarse = Green, Very Coarse = Blue, Extremely Coarse = White, Ultra Coarse = Black Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 255 Display Range: 0 - 255 Submit by: John Summers Submit Date: 2021-03-08 Submit Company: TeeJet Technologies Revision Number: 1 Current Status: Published Status Date: 2021-05-12 Status Comments: Attachments: none DD Entity: 32769 Maximum Crop Grade Diameter Definition: Maximum crop diameter in mm, measured with crop specific methods Comment: The diameter of the crop to indicate its grade. An example of the application of this DDI is grading root crops such as potatoes and onions. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 32770 Maximum Crop Grade Length Definition: Maximum crop length in mm, measured with crop specific methods Comment: The length of the crop to indicate its grade. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 32771 Maximum Crop Contamination Mass per Area Definition: Maximum absolut mass of contamination in yield by dirt or foreign material per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-05-02 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 32772 Maximum Crop Contamination Mass per Time Definition: Maximum mass of contamination in yield by dirt or foreign material per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-05-02 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 32773 Maximum Crop Conditioning Intensity Definition: The maximum level of crop conditioning intensity, expressed as a percentage of the maximum level offered by the implement. Comment: Conditioning means, changing the physical properties of the crop. For example, mowers can condition the mowed crop at a particular intensity level, to speed up the drying process. A percentage of the maximum level offered by the implement' is used, because there is currently no known sensor which can measure a conditioning level. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: % - Percent Resolution: 0,01 SAE SPN: CANBus Range: 0 - 10000 Display Range: 0 - 10000 Submit by: Mike Schmidt Submit Date: 2024-03-13 Submit Company: AGCO Corporation Revision Number: 2 Current Status: ISO-Published Status Date: 2024-06-10 Status Comments: Status was published Attachments: none DD Entity: 36864 Minimum Droplet Size Definition: The minimum droplet size the system can produce. Defined as: 0 = Unknown, 1 = Extremely Fine - XF, 2 = Very Fine - VF, 3 = Fine - F, 4 = Medium - M, 5 = Coarse - C, 6 = Very Coarse - VC, 7 = Extremely Coarse - XC, 8 = Ultra Coarse - UC, 9-254 = Reserved, 255 = No Droplet Size Available. Comment: Droplet sizes are currently defined in ISO 25358 and are broken into 8 classification categories and also assigned a corresponding colour code as follows: Extremely Fine = Purple, Very Fine = Red, Fine = Orange, Medium = Yellow, Coarse = Green, Very Coarse = Blue, Extremely Coarse = White, Ultra Coarse = Black Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 255 Display Range: 0 - 255 Submit by: John Summers Submit Date: 2021-03-08 Submit Company: TeeJet Technologies Revision Number: 1 Current Status: Published Status Date: 2021-05-12 Status Comments: Attachments: none DD Entity: 36865 Minimum Crop Grade Diameter Definition: Minimum crop diameter in mm, measured with crop specific methods Comment: The diameter of the crop to indicate its grade. An example of the application of this DDI is grading root crops such as potatoes and onions. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 36866 Minimum Crop Grade Length Definition: Minimum crop length in mm, measured with crop specific methods Comment: The length of the crop to indicate its grade. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 36867 Minimum Crop Contamination Mass per Area Definition: Minimum absolut mass of contamination in yield by dirt or foreign material per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-05-02 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 36868 Minimum Crop Contamination Mass per Time Definition: Minimum mass of contamination in yield by dirt or foreign material per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-05-02 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 36869 Minimum Crop Conditioning Intensity Definition: The minimum level of crop conditioning intensity, expressed as a percentage of the maximum level offered by the implement. Comment: Conditioning means, changing the physical properties of the crop. For example, mowers can condition the mowed crop at a particular intensity level, to speed up the drying process. A percentage of the maximum level offered by the implement' is used, because there is currently no known sensor which can measure a conditioning level. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: % - Percent Resolution: 0,01 SAE SPN: CANBus Range: 0 - 10000 Display Range: 0 - 10000 Submit by: Mike Schmidt Submit Date: 2024-03-13 Submit Company: AGCO Corporation Revision Number: 2 Current Status: ISO-Published Status Date: 2024-06-10 Status Comments: Status was published Attachments: none DD Entity: 40960 Default Droplet Size Definition: The default droplet size the system is producing. Defined as: 0 = Unknown, 1 = Extremely Fine - XF, 2 = Very Fine - VF, 3 = Fine - F, 4 = Medium - M, 5 = Coarse - C, 6 = Very Coarse - VC, 7 = Extremely Coarse - XC, 8 = Ultra Coarse - UC, 9-254 = Reserved, 255 = No Droplet Size Available. Comment: Droplet sizes are currently defined in ISO 25358 and are broken into 8 classification categories and also assigned a corresponding colour code as follows: Extremely Fine = Purple, Very Fine = Red, Fine = Orange, Medium = Yellow, Coarse = Green, Very Coarse = Blue, Extremely Coarse = White, Ultra Coarse = Black Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 255 Display Range: 0 - 255 Submit by: John Summers Submit Date: 2021-05-12 Submit Company: TeeJet Technologies Revision Number: 1 Current Status: Published Status Date: 2021-05-12 Status Comments: Attachments: none DD Entity: 40961 Default Crop Grade Diameter Definition: Default crop diameter in mm, measured with crop specific methods Comment: The diameter of the crop to indicate its grade. An example of the application of this DDI is grading root crops such as potatoes and onions. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 40962 Default Crop Grade Length Definition: Default crop length in mm, measured with crop specific methods Comment: The length of the crop to indicate its grade. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 40963 Default Crop Contamination Mass per Area Definition: Default absolut mass of contamination in yield by dirt or foreign material per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-05-02 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 40964 Default Crop Contamination Mass per Time Definition: Default mass of contamination in yield by dirt or foreign material per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-05-02 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 40965 Default Crop Conditioning Intensity Definition: The default level of crop conditioning intensity, expressed as a percentage of the maximum level offered by the implement. Comment: Conditioning means, changing the physical properties of the crop. For example, mowers can condition the mowed crop at a particular intensity level, to speed up the drying process. A percentage of the maximum level offered by the implement' is used, because there is currently no known sensor which can measure a conditioning level. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: % - Percent Resolution: 0,01 SAE SPN: CANBus Range: 0 - 10000 Display Range: 0 - 10000 Submit by: Mike Schmidt Submit Date: 2024-03-13 Submit Company: AGCO Corporation Revision Number: 2 Current Status: ISO-Published Status Date: 2024-06-10 Status Comments: Status was published Attachments: none DD Entity: 45056 Actual Droplet Size Definition: The actual droplet size the system is producing. Defined as: 0 = Unknown, 1 = Extremely Fine - XF, 2 = Very Fine - VF, 3 = Fine - F, 4 = Medium - M, 5 = Coarse - C, 6 = Very Coarse - VC, 7 = Extremely Coarse - XC, 8 = Ultra Coarse - UC, 9-254 = Reserved, 255 = No Droplet Size Available. Comment: Droplet sizes are currently defined in ISO 25358 and are broken into 8 classification categories and also assigned a corresponding colour code as follows: Extremely Fine = Purple, Very Fine = Red, Fine = Orange, Medium = Yellow, Coarse = Green, Very Coarse = Blue, Extremely Coarse = White, Ultra Coarse = Black Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 255 Display Range: 0 - 255 Submit by: John Summers Submit Date: 2021-03-08 Submit Company: TeeJet Technologies Revision Number: 1 Current Status: Published Status Date: 2021-05-12 Status Comments: Attachments: none DD Entity: 45057 Actual Crop Grade Diameter Definition: Actual crop diameter in mm, measured with crop specific methods Comment: The diameter of the crop to indicate its grade. An example of the application of this DDI is grading root crops such as potatoes and onions. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 45058 Actual Crop Grade Length Definition: Actual crop length in mm, measured with crop specific methods Comment: The length of the crop to indicate its grade. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 45059 Actual Crop Contamination Mass per Area Definition: Absolut mass of contamination in yield by dirt or foreign material per area, see also DDI 100. Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 45060 Actual Crop Contamination Mass per Time Definition: Absolut mass of contamination in yield by dirt or foreign material per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 45061 Actual Crop Conditioning Intensity Definition: The actual level of crop conditioning intensity, expressed as a percentage of the maximum level offered by the implement. Comment: Conditioning means, changing the physical properties of the crop. For example, mowers can condition the mowed crop at a particular intensity level, to speed up the drying process. A percentage of the maximum level offered by the implement' is used, because there is currently no known sensor which can measure a conditioning level. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: % - Percent Resolution: 0,01 SAE SPN: CANBus Range: 0 - 10000 Display Range: 0 - 10000 Submit by: Mike Schmidt Submit Date: 2024-03-13 Submit Company: AGCO Corporation Revision Number: 2 Current Status: ISO-Published Status Date: 2024-06-10 Status Comments: Status was published Attachments: none DD Entity: 49152 Setpoint Droplet Size Definition: The setpoint for droplet size. Defined as: 0 = Unknown, 1 = Extremely Fine - XF, 2 = Very Fine - VF, 3 = Fine - F, 4 = Medium - M, 5 = Coarse - C, 6 = Very Coarse - VC, 7 = Extremely Coarse - XC, 8 = Ultra Coarse - UC, 9-254 = Reserved, 255 = No Droplet Size Available. Comment: Droplet sizes are currently defined in ISO 25358 and are broken into 8 classification categories and also assigned a corresponding colour code as follows: Extremely Fine = Purple, Very Fine = Red, Fine = Orange, Medium = Yellow, Coarse = Green, Very Coarse = Blue, Extremely Coarse = White, Ultra Coarse = Black Typically used by Device Classes: 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 10 - Irrigation 17 - Sensor System Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: 0 - 255 Display Range: 0 - 255 Submit by: John Summers Submit Date: 2021-03-08 Submit Company: TeeJet Technologies Revision Number: 1 Current Status: Published Status Date: 2021-05-12 Status Comments: Attachments: none DD Entity: 49153 Setpoint Crop Grade Diameter Definition: Setpoint crop diameter in mm, measured with crop specific methods Comment: The diameter of the crop to indicate its grade. An example of the application of this DDI is grading root crops such as potatoes and onions. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 49154 Setpoint Crop Grade Length Definition: Setpoint crop length in mm, measured with crop specific methods Comment: The length of the crop to indicate its grade. Typically used by Device Classes: 4 - Planters /Seeders 7 - Harvesters 8 - Root Harvester 14 - Special Crops 17 - Sensor System Unit: mm - Length Resolution: 0,001 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: 0 - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-03-24 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-15 Status Comments: Attachments: none DD Entity: 49155 Setpoint Crop Contamination Mass per Area Definition: Setpoint of the absolut mass of contamination in yield by dirt or foreign material per area Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/m² - Mass per area unit Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-05-02 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 49156 Setpoint Crop Contamination Mass per Time Definition: Setpoint of the mass of contamination in yield by dirt or foreign material per time Comment: Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester Unit: mg/s - Mass flow Resolution: 1 SAE SPN: CANBus Range: 0 - 2147483647 Display Range: - 2147483647 Submit by: Hendrik Hageböke Submit Date: 2023-05-02 Submit Company: GRIMME Landmaschinen GmbH & Co.KG Revision Number: 1 Current Status: Published Status Date: 2023-05-31 Status Comments: Attachments: none DD Entity: 49157 Setpoint Crop Conditioning Intensity Definition: The setpoint level of crop conditioning intensity, expressed as a percentage of the maximum level offered by the implement. Comment: Conditioning means, changing the physical properties of the crop. For example, mowers can condition the mowed crop at a particular intensity level, to speed up the drying process. A percentage of the maximum level offered by the implement' is used, because there is currently no known sensor which can measure a conditioning level. Typically used by Device Classes: 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 14 - Special Crops 15 - Municipal Work Unit: % - Percent Resolution: 0,01 SAE SPN: CANBus Range: 0 - 10000 Display Range: 0 - 10000 Submit by: Mike Schmidt Submit Date: 2024-03-13 Submit Company: AGCO Corporation Revision Number: 2 Current Status: ISO-Published Status Date: 2024-06-10 Status Comments: Status was published Attachments: none DD Entity: 57342 PGN Based Data Definition: This DDI is used in the XML files to identify PGN based data. Comment: This DDI is specified in ISO 11783-10 IS paragraph 6.3 Logging parameters from parameter groups. Typically used by Device Classes: 0 - Non-specific system 1 - Tractor 2 - Primary Soil Tillage 3 - Secondary Soil Tillage 4 - Planters /Seeders 5 - Fertilizer 6 - Sprayers 7 - Harvesters 8 - Root Harvester 9 - Forage harvester 10 - Irrigation 11 - Transport / Trailers 12 - Farmyard Work 13 - Powered Auxilary Units 14 - Special Crops 15 - Municipal Work Unit: n.a. - Resolution: 1 SAE SPN: CANBus Range: -2147483648 - 2147483647 Display Range: -2147483648 - 2147483647 Submit by: Part 10 Task Force Submit Date: 2005-01-25 Submit Company: 0 - Reserved Revision Number: 1 Current Status: ISO-Approved Status Date: 2009-02-05 Status Comments: Added to the on-line database Attachments: none DD Entity: 57343 Request Default Process Data Definition: Request Default Process Data. This DDE is the highest ISO assigned entity. The range above this number is reserved for manufacture specific DDE's. Comment: Typically used by Device Classes: Not Assigned Unit: n.a. - Resolution: 1 SAE SPN: not specified CANBus Range: 0 - 0 Display Range: 0 - 0 Submit by: 11783-Part 10 Task Force Submit Date: 2005-01-20 Submit Company: 89 - Kverneland Group, Electronics Division Revision Number: 1 Current Status: Published Status Date: 2023-07-10 Status Comments: Comment "This DDE was a result of March 2005 TF10 meeting." removed Attachments: none DD Entity: 57344 65534 Proprietary DDI Range Definition: Manufacturer proprietary definitions Comment: It is not recommended to process proprietary DDEs from other manufacturers Typically used by Device Classes: Not Assigned Unit: n.a. - Resolution: 0 SAE SPN: CANBus Range: - Display Range: - Submit by: Part 10 Task Force Submit Date: Submit Company: 0 - Reserved Revision Number: 1 Current Status: Status Date: Status Comments: Attachments: none DD Entity: 65535 Reserved Definition: Reserved Comment: Typically used by Device Classes: Not Assigned Unit: n.a. - Resolution: 0 SAE SPN: CANBus Range: - Display Range: - Submit by: Part 10 Task Force Submit Date: Submit Company: 0 - Reserved Revision Number: 1 Current Status: Status Date: Status Comments: Attachments: none