Appendix A, DDIs

505

Tramline Control Level

Guidance and Geo Data

This DDI defines the Tramline Control capability of the Implement.

506

Setpoint Tramline Control Level

Guidance and Geo Data

This DDI defines the Tramline Control capability of the Task Controller that is used with the appropriate Implement.

507

Tramline Sequence Number

Guidance and Geo Data

This DDI defines a group of DDIs which belong together.

508

Unique A-B Guidance Reference Line ID

Guidance and Geo Data

This DDI defines a unique ID to identify which Guidance Reference Line is the base for the Tramline calculation.

509

Actual Track Number

Guidance and Geo Data

This DDI defines a unique number of the Guidance Track the Implement is currently located on.

510

Track Number to the right

Guidance and Geo Data

This DDI defines a unique number of the Guidance Track to right hand side in direction of Implement orientation.

511

Track Number to the left

Guidance and Geo Data

This DDI defines a unique number of the Guidance Track to left hand side in direction of Implement orientation.

512

Guidance Line Swath Width

Guidance and Geo Data

The Swath Width is the Distance between two adjacent Guidance Lines in a Guidance Pattern.

513

Guidance Line Deviation

Guidance and Geo Data

Deviation of the Device-Reference-Point (DRP) to the actual guidance line, in driving direction.

514

GNSS Quality

Guidance and Geo Data

GNSS Quality Identifier to inform the implement about the used Position Status.

515

Tramline Control State

Guidance and Geo Data

Specifies the actual state of Tramline Control.

516

Tramline Overdosing Rate

Guidance and Geo Data

Overdosing Rate for the rows adjacent to the Tramline Track.

517

Setpoint Tramline Condensed Work State 1-16

Guidance and Geo Data

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).

518

Actual Tramline Condensed Work State 1-16

Guidance and Geo Data

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).

521

GNSS Installation Type

Guidance and Geo Data

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.

593

Traction Type

Guidance and Geo Data

The type of traction system used for a machine.

594

Steering Type

Guidance and Geo Data

Steering Type DDI is used to define the current active steering type of a machine.

603

Actual Tramline Condensed Work State (17-32)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 17 to 32 into a single Actual Tramline State.

604

Actual Tramline Condensed Work State (33-48)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 33 to 48 into a single Actual Tramline State.

605

Actual Tramline Condensed Work State (49-64)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 49 to 64 into a single Actual Tramline State.

606

Actual Tramline Condensed Work State (65-80)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 65 to 80 into a single Actual Tramline State.

607

Actual Tramline Condensed Work State (81-96)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 81 to 96 into a single Actual Tramline State.

608

Actual Tramline Condensed Work State (97-112)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 97 to 112 into a single Actual Tramline State.

609

Actual Tramline Condensed Work State (113-128)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 113 to 128 into a single Actual Tramline State.

610

Actual Tramline Condensed Work State (129-144)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 129 to 144 into a single Actual Tramline State.

611

Actual Tramline Condensed Work State (145-160)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 145 to 160 into a single Actual Tramline State.

612

Actual Tramline Condensed Work State (161-176)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 161 to 176 into a single Actual Tramline State.

613

Actual Tramline Condensed Work State (177-192)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 177 to 192 into a single Actual Tramline State.

614

Actual Tramline Condensed Work State (193-208)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 193 to 208 into a single Actual Tramline State.

615

Actual Tramline Condensed Work State (209-224)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 209 to 224 into a single Actual Tramline State.

616

Actual Tramline Condensed Work State (225-240)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 225 to 240 into a single Actual Tramline State.

617

Actual Tramline Condensed Work State (241-256)

Guidance and Geo Data

Combination of the Actual States of individual Tramline Valves number 241 to 256 into a single Actual Tramline State.

618

Setpoint Tramline Condensed Work State (17-32)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

619

Setpoint Tramline Condensed Work State (33-48)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

620

Setpoint Tramline Condensed Work State (49-64)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

621

Setpoint Tramline Condensed Work State (65-80)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

622

Setpoint Tramline Condensed Work State (81-96)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

623

Setpoint Tramline Condensed Work State (97-112)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

624

Setpoint Tramline Condensed Work State (113-128)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

625

Setpoint Tramline Condensed Work State (129-144)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

626

Setpoint Tramline Condensed Work State (145-160)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

627

Setpoint Tramline Condensed Work State (161-176)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

628

Setpoint Tramline Condensed Work State (177-192)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

629

Setpoint Tramline Condensed Work State (193-208)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

630

Setpoint Tramline Condensed Work State (209-224)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

631

Setpoint Tramline Condensed Work State (225-240)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

632

Setpoint Tramline Condensed Work State (241-256)

Guidance and Geo Data

The Setpoint Tramline Condensed Work State DDIs are the control command counterparts to the Actual Tramline Condensed Work States DDIs.

666

Working Direction

Guidance and Geo Data

This DDI defines the intended Working Direction in the field and also defines the numbering of the Bouts.

667

Distance between Guidance Track Number 0R and 1

Guidance and Geo Data

This DDI defines the distance between tracks 0R and 1.

668

Distance between Guidance Track Number 0R and 0L

Guidance and Geo Data

This DDI defines the distance between tracks 0R and 0L.

669

Bout Track Number Shift

Guidance and Geo Data

This DDI defines the amount of tramlines the Tramline pattern is to be shifted.

670

Tramline Crop protection/fertilization Working Width

Guidance and Geo Data

Working Width of the Crop protection/fertilization vehicle which will drive on the tramline tracks.

671

Tramline Tire Width

Guidance and Geo Data

Width of the largest tire which should fit on the Tramline Track.

672

Tramline Wheel Distance

Guidance and Geo Data

Distance between the centres of the Wheels of the Crop protection/fertilization vehicle.

673

Tramline Irrigation Working Width

Guidance and Geo Data

The Working Width of the Irrigation system is the Distance between the single Tramline Tracks for the Irrigation system.

674

Tramline Irrigation Tire Width

Guidance and Geo Data

Width of the largest tire which should fit on the Tramline Track.

675

Tramline Irrigation Wheel Distance

Guidance and Geo Data

Distance between the centre of the Wheels of the Irrigation system.

116

Total Area

General Work Data

Accumulated Area

117

Effective Total Distance

General Work Data

Accumulated Distance in working position

118

Ineffective Total Distance

General Work Data

Accumulated Distance out of working position

119

Effective Total Time

General Work Data

Accumulated Time in working position

120

Ineffective Total Time

General Work Data

Accumulated Time out of working position

213

Last Bale Average Strokes per Flake

Crop and Yield Data

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.

214

Lifetime Bale Count

General Work Data

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.

215

Lifetime Working Hours

General Work Data

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.

236

Thresher Engagement Total Time

General Work Data

Accumulated time while the threshing mechanism is engaged

265

Remaining Area

General Work Data

Remaining Area of a field, which is calculated from the total area and the processed area.

271

Lifetime Total Area

General Work Data

Entire Total Area of the device lifetime.

272

Lifetime Effective Total Distance

General Work Data

Entire Total Distance of the device lifetime in working position.

273

Lifetime Ineffective Total Distance

General Work Data

Entire Ineffective Total Distance of the device lifetime out of working position.

274

Lifetime Effective Total Time

General Work Data

Entire Effective Total Time of the device lifetime.

275

Lifetime Ineffective Total Time

General Work Data

Entire Ineffective Total Time of the device lifetime.

282

Lifetime Threshing Engagement Total Time

General Work Data

Entire Threshing Engagement Total Time of the device lifetime.

283

Precut Total Count

General Work Data

The total number of pre-cutted product units produced by a device during an operation.

284

Uncut Total Count

General Work Data

The total number of un-cutted product units produced by a device during an operation.

285

Lifetime Precut Total Count

General Work Data

Entire Precut Total Count of the device lifetime.

286

Lifetime Uncut Total Count

General Work Data

Entire Uncut Total Count of the device lifetime.

324

Chopper Engagement Total Time

General Work Data

Accumulated time while the chopping mechanism is engaged

335

Front PTO hours

General Work Data

The hours the Front PTO of the machine was running for the current Task

336

Rear PTO hours

General Work Data

The hours the Rear PTO of the machine was running for the current Task

337

Lifetime Front PTO hours

General Work Data

The hours the Front PTO of the machine was running for the lifetime of the machine

338

Lifetime Rear PTO Hours

General Work Data

The hours the Rear PTO of the machine was running for the lifetime of the machine

339

Effective Total Loading Time

General Work Data

The total time needed in the current task to load a product such as crop.

340

Effective Total Unloading Time

General Work Data

The total time needed in the current task to unload a product crop.

362

Total Bale Length

General Work Data

Gives the total baled meters during a task. This is calculated as the sum of the lengths of all knotted bales (square baler).

428

Loaded Total Mass

General Work Data

Accumulated Loads specified as mass, not corrected for the reference moisture percentage DDI 184.

429

Unloaded Total Mass

General Work Data

Accumulated Unloads specified as mass, not corrected for the reference moisture percentage DDI 184.

430

Lifetime Loaded Total Mass

General Work Data

Entire Yield Total Mass of the device lifetime.

431

Lifetime Unloaded Total Mass

General Work Data

Entire Unloaded Total Mass of the device lifetime.

452

Loaded Total Volume

General Work Data

Accumulated Loaded Volume specified as volume

453

Unloaded Total Volume

General Work Data

Accumulated Unloaded Volume specified as volume

454

Lifetime loaded Total Volume

General Work Data

Entire loaded Volume of the device lifetime.

455

Lifetime Unloaded Total Volume

General Work Data

Entire unloaded Volume of the device lifetime.

458

Loaded Total Count

General Work Data

Accumulated Loads specified as count

459

Unloaded Total Count

General Work Data

Accumulated Unloaded specified as count

460

Lifetime Loaded Total Count

General Work Data

Entire Loaded Total Count of the device lifetime.

461

Lifetime Unloaded Total Count

General Work Data

Entire Unloaded Total Count of the device lifetime.

492

Total Engine Hours

General Work Data

The total time the engine was running when the task was active.

493

Lifetime Engine Hours

General Work Data

The total time, when the engine was running over the whole lifetime of the machine.

522

Twine Bale Total Count

General Work Data

The total number of twine bound product units for which Twine binding method was used during operation.

523

Mesh Bale Total Count

General Work Data

The total number of mesh product units for which Net binding method was used during operation.

524

Lifetime Twine Bale Total Count

General Work Data

Entire total number of twine bound product units for which Twine binding method was used during operation, of a device lifetime

525

Lifetime Mesh Bale Total Count

General Work Data

Entire total number of mesh product units for which Net binding method was used during operation, of a device lifetime

546

Lifetime Chopping Engagement Total Time

General Work Data

Entire Chopping Engagement Total Time of the device lifetime.

573

Total Electrical Energy

General Work Data

Accumulated Electrical Energy Consumption as a Task Total.

597

Total Distance

General Work Data

Accumulated Distance (independent of working position and surface)

598

Lifetime Total Distance

General Work Data

Entire Total Distance of the device lifetime (independent of working position and surface)

599

Total Distance Field

General Work Data

Accumulated Distance on the field

600

Lifetime Total Distance Field

General Work Data

Entire Total Distance on the field of the device lifetime

601

Total Distance Street

General Work Data

Accumulated Distance on the street

602

Lifetime Total Distance Street

General Work Data

Entire Total Distance on the street of the device lifetime

148

Total Fuel Consumption

Fuel and Exhaust Fluid Consumption Data

Accumulated Fuel Consumption as Counter

149

Instantaneous Fuel Consumption per Time

Fuel and Exhaust Fluid Consumption Data

Fuel Consumption per time

150

Instantaneous Fuel Consumption per Area

Fuel and Exhaust Fluid Consumption Data

Fuel Consumption per area

276

Lifetime Fuel Consumption

Fuel and Exhaust Fluid Consumption Data

Entire Fuel Consumption of the device lifetime.

277

Lifetime Average Fuel Consumption per Time

Fuel and Exhaust Fluid Consumption Data

Entire Average Fuel Consumption per Time of the device lifetime.

278

Lifetime Average Fuel Consumption per Area

Fuel and Exhaust Fluid Consumption Data

Entire Average Fuel Consumption per Area of the device lifetime.

316

Effective Total Fuel Consumption

Fuel and Exhaust Fluid Consumption Data

Accumulated total fuel Consumption in working position.

317

Ineffective Total Fuel Consumption

Fuel and Exhaust Fluid Consumption Data

Accumulated total fuel Consumption in non working position.

318

Effective Total Diesel Exhaust Fluid Consumption

Fuel and Exhaust Fluid Consumption Data

Accumulated total Diesel Exhaust Fluid Consumption in working position.

319

Ineffective Total Diesel Exhaust Fluid Consumption

Fuel and Exhaust Fluid Consumption Data

Accumulated total Diesel Exhaust Fluid Consumption in non working position.

394

Actual Fuel Tank Content

Fuel and Exhaust Fluid Consumption Data

The actual content of the fuel tank

395

Actual Diesel Exhaust Fluid Tank Content

Fuel and Exhaust Fluid Consumption Data

The actualcontent of the diesel exhaust fluid tank

409

Total Diesel Exhaust Fluid Consumption

Fuel and Exhaust Fluid Consumption Data

Accumulated Diesel Exhaust Fluid Consumption as a Task Total.

410

Instantaneous Diesel Exhaust Fluid Consumption per Time

Fuel and Exhaust Fluid Consumption Data

Diesel Exhaust Fluid Consumption per time

411

Instantaneous Diesel Exhaust Fluid Consumption per Area

Fuel and Exhaust Fluid Consumption Data

Diesel Exhaust Fluid Consumption per area

412

Lifetime Diesel Exhaust Fluid Consumption

Fuel and Exhaust Fluid Consumption Data

Accumulated Diesel Exhaust Fluid Consumption over the entire lifetime of the device.

413

Lifetime Average Diesel Exhaust Fluid Consumption per Time

Fuel and Exhaust Fluid Consumption Data

Average Diesel Exhaust Fluid Consumption per Time over the entire lifetime of the device.

414

Lifetime Average Diesel Exhaust Fluid Consumption per Area

Fuel and Exhaust Fluid Consumption Data

Average Diesel Exhaust Fluid Consumption per Area over the entire lifetime of the device.

488

Diesel Exhaust Fluid Tank Percentage Level

Fuel and Exhaust Fluid Consumption Data

The actual level of the Diesel Exhaust Fluid Tank in percent.

491

Fuel Percentage Level

Fuel and Exhaust Fluid Consumption Data

The actual level of the machine fuel tank in percent.

54

Minimum Tillage Depth

Machine Data

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.

55

Maximum Tillage Depth

Machine Data

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.

59

Minimum Seeding Depth

Machine Data

Minimum Seeding Depth of Device Element below soil surface, value increases with depth

60

Maximum Seeding Depth

Machine Data

Maximum Seeding Depth of Device Element below soil surface, value increases with depth

64

Minimum Working Height

Machine Data

Minimum Working Height of Device Element above crop or soil

65

Maximum Working Height

Machine Data

Maximum Working Height of Device Element above crop or soil

69

Minimum Working Width

Machine Data

Minimum Working Width of Device Element

70

Maximum Working Width

Machine Data

Maximum Working Width of Device Element

73

Maximum Volume Content

Machine Data

Maximum Device Element Content specified as volume

76

Maximum Mass Content

Machine Data

Maximum Device Element Content specified as mass

79

Maximum Count Content

Machine Data

Maximum Device Element Content specified as count

104

Minimum Bale Width

Machine Data

Minimum Bale Width for square baler or round baler

105

Maximum Bale Width

Machine Data

Maximum Bale Width for square baler or round baler

109

Minimum Bale Height

Machine Data

Minimum Bale Height is only applicable to square baler

110

Maximum Bale Height

Machine Data

Maximum Bale Height is only applicable to square baler

114

Minimum Bale Size

Machine Data

Minimum Bale Size as length for a square baler or diameter for a round baler

115

Maximum Bale Size

Machine Data

Maximum Bale Size as length for a square baler or diameter for a round baler

124

Auxiliary Valve Scaling Extend

Machine Data

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.

125

Auxiliary Valve Scaling Retract

Machine Data

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.

126

Auxiliary Valve Ramp Extend Up

Machine Data

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.

127

Auxiliary Valve Ramp Extend Down

Machine Data

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.

128

Auxiliary Valve Ramp Retract Up

Machine Data

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.

129

Auxiliary Valve Ramp Retract Down

Machine Data

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.

130

Auxiliary Valve Float Threshold

Machine Data

Safety function. Current output of valve must be above threshold before float command is allowed.

131

Auxiliary Valve Progressivity Extend

Machine Data

Define non-linear releationship between command and flow by 2nd degree polynomium. (I will get polynomium)

132

Auxiliary Valve Progressivity Retract

Machine Data

Define non-linear releationship between command and flow by 2nd degree polynomium. (I will get polynomium)

133

Auxiliary Valve Invert Ports

Machine Data

Tell valve to swap extend and retract ports, easier than redoing plumbing on valve

137

Device Volume Capacity

Machine Data

DeviceElement Volume Capacity, dimension of a DeviceElement

138

Device Mass Capacity

Machine Data

DeviceElement Mass Capacity, dimension of a DeviceElement

139

Device Count Capacity

Machine Data

DeviceElement Count Capacity, dimension of a DeviceElement

142

Physical Setpoint Time Latency

Machine Data

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.

143

Physical Actual Value Time Latency

Machine Data

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.

195

Minimum Product Pressure

Machine Data

Minimun Product Pressure in the product flow system at the point of dispensing.

196

Maximum Product Pressure

Machine Data

Maximum Product Pressure in the product flow system at the point of dispensing.

199

Minimum Pump Output Pressure

Machine Data

Minimum Pump Output Pressure for the output pressure of the solution pump.

200

Maximum Pump Output Pressure

Machine Data

Maximum Pump Output Pressure for the output pressure of the solution pump.

203

Minimum Tank Agitation Pressure

Machine Data

Minimun Tank Agitation Pressure for a stir system in a tank.

204

Maximum Tank Agitation Pressure

Machine Data

Maximun Tank Agitation Pressure for a stir system in a tank.

205

SC Turn On Time

Machine Data

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.

206

SC Turn Off Time

Machine Data

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.

227

Minimum Working Length

Machine Data

Minimum Working Length of Device Element.

228

Maximum Working Length

Machine Data

Maximum Working Length of Device Element.

234

Minimum Gross Weight

Machine Data

Minimum Gross Weight specified as mass.

235

Maximum Gross Weight

Machine Data

Maximum Gross Weight specified as mass.

244

Minimum Sieve Clearance

Machine Data

Minimal separation distance between Sieve elements

245

Maximum Sieve Clearance

Machine Data

Maximum separation distance between Sieve elements.

248

Minimum Chaffer Clearance

Machine Data

Minimum separation distance between Chaffer elements.

249

Maximum Chaffer Clearance

Machine Data

Maximum separation distance between Chaffer elements.

252

Minimum Concave Clearance

Machine Data

Minimum separation distance between Concave elements.

253

Maximum Concave Clearance

Machine Data

Maximum separation distance between Concave elements.

256

Minimum Separation Fan Rotational Speed

Machine Data

Minimum rotational speed of the fan used for separating product material from non product material.

257

Maximum Separation Fan Rotational Speed

Machine Data

Maximum rotational speed of the fan used for separating product material from non product material.

258

Hydraulic Oil Temperature

Machine Data

Temperature of fluid in the hydraulic system.

309

Minimum Percentage Application Rate

Machine Data

Minimum Application Rate expressed as percentage

310

Maximum Percentage Application Rate

Machine Data

Maximum Application Rate expressed as percentage

328

Minimum Header Speed

Machine Data

The minimum rotational speed of the header attachment of a chopper, mower or combine

329

Maximum Header Speed

Machine Data

The maximum rotational speed of the header attachment of a chopper, mower or combine

332

Minimum Cutting drum speed

Machine Data

The minimum speed of the cutting drum of a chopper

333

Maximum Cutting drum speed

Machine Data

The maximum speed of the cutting drum of a chopper

343

Minimum Grain Kernel Cracker Gap

Machine Data

The minimum gap (distance) of the grain kernel cracker drums in a chopper

344

Maximum Grain Kernel Cracker Gap

Machine Data

The maximum gap (distance) of the grain kernel cracker drums in a chopper

347

Minimum Swathing Width

Machine Data

This is the minimum swath width the raker can create.

348

Maximum Swathing Width

Machine Data

This is the maximum with of the swath the raker can create.

392

Minimum Revolutions Per Time

Machine Data

Minimum Revolutions specified as count per time

393

Maximum Revolutions Per Time

Machine Data

Maximum Revolutions specified as count per time

398

Minimum Speed

Machine Data

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.

399

Maximum Speed

Machine Data

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.

473

Minimum length of cut

Machine Data

Minimum length of cut for harvested material, e.g. Forage Harvester or Tree Harvester.

474

Maximum Length of Cut

Machine Data

Maximum length of cut for harvested material, e.g. Forage Harvester or Tree Harvester.

476

Minimum Bale Hydraulic Pressure

Machine Data

The minimum value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber.

477

Maximum Bale Hydraulic Pressure

Machine Data

The maximum value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber.

479

Minimum Flake Size

Machine Data

Minimum size of the flake that can be produced by the chamber.

480

Maximum Flake Size

Machine Data

Maximum size of the flake that can be produced by the chamber.

485

Minimum Engine Speed

Machine Data

The minimum of the rotational speed of the engine.

486

Maximum Engine Speed

Machine Data

The maximum of the rotational speed of the engine.

489

Maximum Diesel Exhaust Fluid Tank Content

Machine Data

This value describes the maximum ammount of Diesel Exhaust fluid, that can be filled into the tank of the machine

490

Maximum Fuel Tank Content

Machine Data

This value describes the maximum ammount of fuel that can be filled into the machines Fuel tank.

503

Minimum Engine Torque

Machine Data

The minimum value of the engine torque

504

Maximum Engine Torque

Machine Data

The maximum value of the engine torque

526

Actual Cooling Fluid Temperature

Machine Data

The actual temperature of the cooling fluid for the machine.

543

Default PTO Speed

Machine Data

The default Speed of the Power Take-Off (PTO)

544

Minimum PTO Speed

Machine Data

The minimum Speed of the Power Take-Off (PTO)

545

Maximum PTO Speed

Machine Data

The maximum Speed of the Power Take-Off (PTO)

553

Default PTO Torque

Machine Data

The default Torque of the Power Take-Off (PTO)

554

Minimum PTO Torque

Machine Data

The minimum Torque of the Power Take-Off (PTO)

555

Maximum PTO Torque

Machine Data

The maximum Torque of the Power Take-Off (PTO)

559

Minimum Electrical Current

Machine Data

Minimum electrical Current of Device Element

560

Maximum Electrical Current

Machine Data

Maximum electrical Current of Device Element

561

Default Electrical Current

Machine Data

Default electrical current of Device Element

563

Default Voltage

Machine Data

Default Voltage of a Device Element

565

Minimum Voltage

Machine Data

Minimum Voltage of a Device Element

566

Maximum Voltage

Machine Data

Maximum Voltage of a Device Element

570

Default Electrical Power

Machine Data

Default Electrical Power of Device Element

571

Maximum Electrical Power

Machine Data

Maximum Electrical Power of Device Element

572

Minimum Electrical Power

Machine Data

Minimum Electrical Power of Device Element

580

Minimum Temperature

Machine Data

Minimum Temperature of Device Element specified as milli Kelvin

581

Maximum Temperature

Machine Data

Maximum Temperature of Device Element specified as milli Kelvin

582

Default Temperature

Machine Data

Default Temperature of Device Element specified as milli Kelvin

585

Minimum Frequency

Machine Data

Minimum Frequency of Device Element specified as Hz

586

Maximum Frequency

Machine Data

Maximum Frequency of Device Element specified as Hz

641

Minimum Tire Pressure

Machine Data

Minimum Tire Pressure in the tire at the time of operation

642

Maximum Tire Pressure

Machine Data

Maximum Tire Pressure in the tire during operation

643

Actual Tire Temperature

Machine Data

Actual Tire Temperature is the measured temperature in the tire during operation.

595

Machine Mode

Machine Data

Current mode of the machine.

596

Cargo Area Cover State

Machine Data

Current state of the Cargo Area Cover.

638

Setpoint Tire Pressure

Machine Data

Setpoint Tire Pressure to adjust the pressure of the Tire at the point of dispensing.

639

Actual Tire Pressure

Machine Data

Actual Tire Pressure is the measured pressure in the tire during operation.

640

Default Tire Pressure

Machine Data

Default Tire Pressure in the tire during operation

641

Minimum Tire Pressure

Machine Data

Minimum Tire Pressure in the tire at the time of operation

642

Maximum Tire Pressure

Machine Data

Maximum Tire Pressure in the tire during operation

643

Actual Tire Temperature

Machine Data

Actual Tire Temperature is the measured temperature in the tire during operation.

1

Setpoint Volume Per Area Application Rate as [mm³/m²]

Application Data

Setpoint Application Rate specified as volume per area

2

Actual Volume Per Area Application Rate as [mm³/m²]

Application Data

Actual Application Rate specified as volume per area

3

Default Volume Per Area Application Rate as [mm³/m²]

Application Data

Default Application Rate specified as volume per area

4

Minimum Volume Per Area Application Rate as [mm³/m²]

Application Data

Minimum Application Rate specified as volume per area

5

Maximum Volume Per Area Application Rate as [mm³/m²]

Application Data

Maximum Application Rate specified as volume per area

6

Setpoint Mass Per Area Application Rate

Application Data

Setpoint Application Rate specified as mass per area

7

Actual Mass Per Area Application Rate

Application Data

Actual Application Rate specified as mass per area

8

Default Mass Per Area Application Rate

Application Data

Default Application Rate specified as mass per area

9

Minimum Mass Per Area Application Rate

Application Data

Minimum Application Rate specified as mass per area

10

Maximum Mass Per Area Application Rate

Application Data

Maximum Application Rate specified as mass per area

11

Setpoint Count Per Area Application Rate

Application Data

Setpoint Application Rate specified as count per area

12

Actual Count Per Area Application Rate

Application Data

Actual Application Rate specified as count per area

13

Default Count Per Area Application Rate

Application Data

Default Application Rate specified as count per area

14

Minimum Count Per Area Application Rate

Application Data

Minimum Application Rate specified as count per area

15

Maximum Count Per Area Application Rate

Application Data

Maximum Application Rate specified as count per area

16

Setpoint Spacing Application Rate

Application Data

Setpoint Application Rate specified as distance: e.g. seed spacing of a precision seeder(0 indicates, nothing shall be applied)

17

Actual Spacing Application Rate

Application Data

Actual Application Rate specified as distance: e.g. seed spacing of a precision seeder

18

Default Spacing Application Rate

Application Data

Default Application Rate specified as distance: e.g. seed spacing of a precision seeder

19

Minimum Spacing Application Rate

Application Data

Minimum Application Rate specified as distance: e.g. seed spacing of a precision seeder

20

Maximum Spacing Application Rate

Application Data

Maximum Application Rate specified as distance: e.g. seed spacing of a precision seeder

21

Setpoint Volume Per Volume Application Rate

Application Data

Setpoint Application Rate specified as volume per volume

22

Actual Volume Per Volume Application Rate

Application Data

Actual Application Rate specified as volume per volume

23

Default Volume Per Volume Application Rate

Application Data

Default Application Rate specified as volume per volume

24

Minimum Volume Per Volume Application Rate

Application Data

Minimum Application Rate specified as volume per volume

25

Maximum Volume Per Volume Application Rate

Application Data

Maximum Application Rate specified as volume per volume

26

Setpoint Mass Per Mass Application Rate

Application Data

Setpoint Application Rate specified as mass per mass

27

Actual Mass Per Mass Application Rate

Application Data

Actual Application Rate specified as mass per mass

28

Default Mass Per Mass Application Rate

Application Data

Default Application Rate specified as mass per mass

29

Minimum Mass Per Mass Application Rate

Application Data

Minimum Application Rate specified as mass per mass

30

MaximumMass Per Mass Application Rate

Application Data

Maximum Application Rate specified as mass per mass

31

Setpoint Volume Per Mass Application Rate

Application Data

Setpoint Application Rate specified as volume per mass

32

Actual Volume Per Mass Application Rate

Application Data

Actual Application Rate specified as volume per mass

33

Default Volume Per Mass Application Rate

Application Data

Default Application Rate specified as volume per mass

34

Minimum Volume Per Mass Application Rate

Application Data

Minimum Application Rate specified as volume per mass

35

Maximum Volume Per Mass Application Rate

Application Data

Maximum Application Rate specified as volume per mass

36

Setpoint Volume Per Time Application Rate

Application Data

Setpoint Application Rate specified as volume per time

37

Actual Volume Per Time Application Rate

Application Data

Actual Application Rate specified as volume per time

38

Default Volume Per Time Application Rate

Application Data

Default Application Rate specified as volume per time

39

Minimum Volume Per Time Application Rate

Application Data

Minimum Application Rate specified as volume per time

40

Maximum Volume Per Time Application Rate

Application Data

Maximum Application Rate specified as volume per time

41

Setpoint Mass Per Time Application Rate

Application Data

Setpoint Application Rate specified as mass per time

42

Actual Mass Per Time Application Rate

Application Data

Actual Application Rate specified as mass per time

43

Default Mass Per Time Application Rate

Application Data

Default Application Rate specified as mass per time

44

Minimum Mass Per Time Application Rate

Application Data

Minimum Application Rate specified as mass per time

45

Maximum Mass Per Time Application Rate

Application Data

Maximum Application Rate specified as mass per time

46

Setpoint Count Per Time Application Rate

Application Data

Setpoint Application Rate specified as count per time

47

Actual Count Per Time Application Rate

Application Data

Actual Application Rate specified as count per time

48

Default Count Per Time Application Rate

Application Data

Default Application Rate specified as count per time

49

Minimum Count Per Time Application Rate

Application Data

Minimum Application Rate specified as count per time

50

Maximum Count Per Time Application Rate

Application Data

Maximum Application Rate specified as count per time

80

Application Total Volume as [L]

Application Data

Accumulated Application specified as volume in liter [L]

81

Application Total Mass in [kg]

Application Data

Accumulated Application specified as mass in kilogram [kg]

82

Application Total Count

Application Data

Accumulated Application specified as count

140

Setpoint Percentage Application Rate

Application Data

Application Rate expressed as percentage

266

Lifetime Application Total Mass

Application Data

Entire Application Total Mass of the device lifetime.

267

Lifetime Application Total Count

Application Data

Entire Application Total Count of the device lifetime.

308

Actual Percentage Application Rate

Application Data

Actual Application Rate expressed as percentage

325

Lifetime Application Total Volume

Application Data

Entire Application Total Volume of the device lifetime.

351

Application Total Volume in [ml]

Application Data

Accumulated Application specified as volume in milliliter [ml]

352

Application Total Mass in gram [g]

Application Data

Accumulated Application specified as mass in gram [g]

353

Total Application of Nitrogen

Application Data

Accumulated application of nitrogen [N2] specified as gram [g]

354

Total Application of Ammonium

Application Data

Accumulated application of ammonium [NH4] specified as gram [g]

355

Total Application of Phosphor

Application Data

Accumulated application of phosphor (P2O5) specified as gram [g]

356

Total Application of Potassium

Application Data

Accumulated application of potassium (K) specified as gram [g]

357

Total Application of Dry Matter

Application Data

Accumulated application of dry matter in kilogram [kg]. Dry matter measured at zero percent of moisture

401

Actual Application of Nitrogen

Application Data

Actual application of Nitrogen [N2] specified as milligram per liter [mg/l]

402

Actual application of Ammonium

Application Data

Actual application of Ammonium [NH4] specified as milligram per liter [mg/l]

403

Actual application of Phosphor

Application Data

Actual application of Phosphor [P2O5] specified as milligram per liter [mg/l]

404

Actual application of Potassium

Application Data

Actual application of Potassium [K] specified as gram [g]

405

Actual application of Dry Matter

Application Data

Actual application of Dry Matter in kilogram [kg]. Dry matter measured at Zero percent of moisture.

432

Setpoint Application Rate of Nitrogen

Application Data

Setpoint application rate of nitrogen specified as a mass per area

433

Actual Application Rate of Nitrogen

Application Data

Actual application rate of nitrogen specified as a mass per area

434

Minimum Application Rate of Nitrogen

Application Data

Minimum application rate of nitrogen specified as a mass per area

435

Maximum Application Rate of Nitrogen

Application Data

Maximum application rate of nitrogen specified as a mass per area

436

Setpoint Application Rate of Ammonium

Application Data

Setpoint application rate of Ammonium specified as a mass per area

437

Actual Application Rate of Ammonium

Application Data

Actual application rate of Ammonium specified as a mass per area

438

Minimum Application Rate of Ammonium

Application Data

Minimum application rate of Ammonium specified as a mass per area

439

Maximum Application Rate of Ammonium

Application Data

Maximum application rate of Ammonium specified as a mass per area

440

Setpoint Application Rate of Phosphor

Application Data

Setpoint application rate of phosphor specified as a mass per area

441

Actual Application Rate of Phosphor

Application Data

Actual application rate of phosphor specified as a mass per area

442

Minimum Application Rate of Phosphor

Application Data

Minimum application rate of phosphor specified as a mass per area

443

Maximum Application Rate of Phosphor

Application Data

Maximum application rate of phosphor specified as a mass per area

444

Setpoint Application Rate of Potassium

Application Data

Setpoint application rate of potassium specified as a mass per area

445

Actual Application Rate of Potassium

Application Data

Actual application rate of potassium specified as a mass per area

446

Minimum Application Rate of Potassium

Application Data

Minimum application rate of potassium specified as a mass per area

447

Maximum Application Rate of Potassium

Application Data

Maximum application rate of potassium specified as a mass per area

448

Setpoint Application Rate of Dry Matter

Application Data

Setpoint application rate of dry matter expressed as percentage

449

Actual Application Rate of Dry Matter

Application Data

Actual application rate of dry matter expressed as percentage

450

Minimum Application Rate of Dry Matter

Application Data

Minimum application rate of dry matter expressed as percentage

451

Maximum Application Rate of Dry Matter

Application Data

Maximum application rate of dry matter expressed as percentage

574

Setpoint Electrical Energy per Area Application Rate

Application Data

Setpoint Electrical Energy Application Rate specified as kWh per area

575

Actual Electrical Energy per Area Application Rate

Application Data

Actual Electrical Energy Application Rate specified as kWh per area

576

Maximum Electrical Energy per Area Application Rate

Application Data

Maximum Electrical Energy Application Rate specified as kWh per area

577

Minimum Electrical Energy per Area Application Rate

Application Data

Minimum Electrical Energy Application Rate specified as kWh per area

588

Setpoint Volume Per Area Application Rate as [ml/m²]

Application Data

Setpoint Application Rate specified as volume per area for High Flows as [mm³/m²]

589

Actual Volume Per Area Application Rate as [ml/m²]

Application Data

Actual Application Rate specified as volume per area for High Flows as [ml/m²]

590

Minimum Volume Per Area Application Rate as [ml/m²]

Application Data

Minimum Application Rate specified as volume per area for High Flows as [ml/m²]

591

Maximum Volume Per Area Application Rate as [ml/m²]

Application Data

Maximum Volume Per Area Application Rate for high flows as [ml/m²]

592

Default Volume Per Area Application Rate as [ml/m²]

Application Data

Default Volume Per Area Application Rate for high flows as [ml/m²]

633

Setpoint Volume per distance Application Rate

Application Data

Setpoint Application Rate specified as volume per distance

634

Actual Volume per distance Application Rate

Application Data

Actual liquid application based on distance travelled, e.g. in vineyards, orchards.

635

Default Volume per distance Application Rate

Application Data

Default Application Rate specified as volume per distance

636

Minimum Volume per distance Application Rate

Application Data

Minimum Application Rate specified as volume per distance

637

Maximum Volume per distance Application Rate

Application Data

Maximum Application Rate specified as volume per distance

32768

Maximum Droplet Size

Application Data

The maximum droplet size. 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.

36864

Minimum Droplet Size

Application Data

The minimum droplet size. 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.

40960

Default Droplet Size

Application Data

The default droplet size. 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.

45056

Actual Droplet Size

Application Data

The actual droplet size. 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.

49152

Setpoint Droplet Size

Application Data

The setpoint for droplet size. 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.

83

Volume Per Area Yield

Crop and Yield Data

Yield as volume per area

84

Mass Per Area Yield

Crop and Yield Data

Yield as mass per area, not corrected for the reference moisture percentage DDI 184.

85

Count Per Area Yield

Crop and Yield Data

Yield as count per area

86

Volume Per Time Yield

Crop and Yield Data

Yield as volume per time

87

Mass Per Time Yield

Crop and Yield Data

Yield as mass per time, not corrected for the reference moisture percentage DDI 184.

88

Count Per Time Yield

Crop and Yield Data

Yield as count per time

89

Yield Total Volume

Crop and Yield Data

Accumulated Yield specified as volume

90

Yield Total Mass

Crop and Yield Data

Accumulated Yield specified as mass, not corrected for the reference moisture percentage DDI 184.

91

Yield Total Count

Crop and Yield Data

Accumulated Yield specified as count

99

Crop Moisture

Crop and Yield Data

Moisture in crop yield

100

Crop Contamination

Crop and Yield Data

Dirt or foreign material in crop yield

121

Product Density Mass Per Volume

Crop and Yield Data

Product Density as mass per volume

122

Product Density Mass PerCount

Crop and Yield Data

Product Density as mass per count

123

Product Density Volume Per Count

Crop and Yield Data

Product Density as volume per count

177

Actual length of cut

Crop and Yield Data

Actual length of cut for harvested material, e.g. Forage Harvester or Tree Harvester.

181

Dry Mass Per Area Yield

Crop and Yield Data

Actual Dry Mass Per Area Yield. The definition of dry mass is the mass with a reference moisture specified by DDI 184.

182

Dry Mass Per Time Yield

Crop and Yield Data

Actual Dry Mass Per Time Yield. The definition of dry mass is the mass with a reference moisture specified by DDI 184.

183

Yield Total Dry Mass

Crop and Yield Data

Accumulated Yield specified as dry mass. The definition of dry mass is the mass with a reference moisture specified by DDI 184.

184

Reference Moisture For Dry Mass

Crop and Yield Data

Moisture percentage used for the dry mass DDIs 181, 182 and 183.

185

Seed Cotton Mass Per Area Yield

Crop and Yield Data

Seed cotton yield as mass per area, not corrected for a possibly included lint percantage.

186

Lint Cotton Mass Per Area Yield

Crop and Yield Data

Lint cotton yield as mass per area.

187

Seed Cotton Mass Per Time Yield

Crop and Yield Data

Seed cotton yield as mass per time, not corrected for a possibly included lint percantage.

188

Lint Cotton Mass Per Time Yield

Crop and Yield Data

Lint cotton yield as mass per time.

189

Yield Total Seed Cotton Mass

Crop and Yield Data

Accumulated yield specified as seed cotton mass, not corrected for a possibly included lint percantage.

190

Yield Total Lint Cotton Mass

Crop and Yield Data

Accumulated yield specified as lint cotton mass.

191

Lint Turnout Percentage

Crop and Yield Data

Percent of lint in the seed cotton.

211

Last Bale Flakes per Bale

Crop and Yield Data

The number of flakes in the most recently produced bale.

212

Last Bale Average Moisture

Crop and Yield Data

The average moisture in the most recently produced bale.

213

Last Bale Average Strokes per Flake

Crop and Yield Data

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.

217

Last Bale Average Hydraulic Pressure

Crop and Yield Data

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.

220

Last Bale Average Bale Compression Plunger Load

Crop and Yield Data

The average bale compression plunger load for the most recently produced bale.

221

Last Bale Applied Preservative

Crop and Yield Data

The total preservative applied to the most recently produced bale.

222

Last Bale Tag Number

Crop and Yield Data

The Last Bale Tag Number as a decimal number in the range of 0 to 4294967295. Note that the value of this DDI has the limitation of being an unsigned 32 bit number.

223

Last Bale Mass

Crop and Yield Data

The mass of the bale that has most recently been produced.

241

Crop Temperature

Crop and Yield Data

Temperature of harvested crop

261

Average Yield Mass Per Time

Crop and Yield Data

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.

262

Average Crop Moisture

Crop and Yield Data

Average Moisture of the harvested crop. This value is the average for a Task and may be reported as a total.

263

Average Yield Mass Per Area

Crop and Yield Data

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.

268

Lifetime Yield Total Volume

Crop and Yield Data

Entire Yield Total Volume of the device lifetime.

269

Lifetime Yield Total Mass

Crop and Yield Data

Entire Yield Total Mass of the device lifetime.

270

Lifetime Yield Total Count

Crop and Yield Data

Entire Yield Total Count of the device lifetime.

279

Lifetime Yield Total Dry Mass

Crop and Yield Data

Entire Yield Total Dry Mass of the device lifetime.

280

Lifetime Yield Total Seed Cotton Mass

Crop and Yield Data

Entire Yield Total Seed Cotton Mass of the device lifetime.

281

Lifetime Yield Total Lint Cotton Mass

Crop and Yield Data

Entire Yield Total Lint Cotton Mass of the device lifetime.

311

Relative Yield Potential

Crop and Yield Data

Relative yield potential provided by a FMIS or a sensor or entered by the operator for a certain task expressed as percentage.

312

Minimum Relative Yield Potential

Crop and Yield Data

Minimum potential yield expressed as percentage.

313

Maximum Relative Yield Potential

Crop and Yield Data

Maximum potential yield expressed as percentage.

314

Actual Percentage Crop Dry Matter

Crop and Yield Data

Actual Percentage Crop Dry Matter expressed as parts per million.

315

Average Percentage Crop Dry Matter

Crop and Yield Data

Average Percentage Crop Dry Matter expressed as parts per million.

358

Average Dry Yield Mass Per Time

Crop and Yield Data

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.

359

Average Dry Yield Mass Per Area

Crop and Yield Data

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.

360

Last Bale Size

Crop and Yield Data

The bale size of the most recently produced bale. Bale Size as length for a square baler or diameter for a round baler.

361

Last Bale Density

Crop and Yield Data

The bale density of the most recently produced bale.

363

Last Bale Dry Mass

Crop and Yield Data

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).

406

Actual Protein Content

Crop and Yield Data

Actual Protein content of a harvested crops

407

Average Protein Content

Crop and Yield Data

Average protein content in a harvested crop

408

Average Crop Contamination

Crop and Yield Data

Average amount of dirt or foreign in a harvested crop

482

Last Bale Number of Subbales

Crop and Yield Data

Number of smaller bales included in the latest produced bale.

519

Last Bale Lifetime Count

Crop and Yield Data

The Lifetime Bale Count of the bale that leaves the machine.

528

Last Bale Capacity

Crop and Yield Data

The capacity of the bale that leaves the machine.

531

Actual Applied Preservative Per Yield Mass

Crop and Yield Data

This DDI shall describe the actual applied preservative per harvested yield mass.

532

Setpoint Applied Preservative Per Yield Mass

Crop and Yield Data

The desired volume of preservative per harvested yield mass

533

Default Applied Preservative Per Yield Mass

Crop and Yield Data

The default volume of preservative applied per harvested yield mass

534

Minimum Applied Preservative Per Yield Mass

Crop and Yield Data

The minimum setable value, the preservative system is able to control the flow of preservative.

535

Maximum Applied Preservative Per Yield Mass

Crop and Yield Data

The maximum volume, the preservative system can apply to the harvested yield in a controled way

536

Total Applied Preservative

Crop and Yield Data

The total volume of applied preservative in this task.

537

Lifetime Applied Preservative

Crop and Yield Data

The total applied volume of preservative in the lifetime of the machine

538

Average Applied Preservative Per Yield Mass

Crop and Yield Data

The average volume per mass for this task.

549

Last Bale Average Bale Compression Plunger Load (N)

Crop and Yield Data

The average bale compression plunger load for the most recently produced bale expressed as newton.

644

Binding Method

Crop and Yield Data

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

645

Last Bale number of knives

Crop and Yield Data

Number of cutting knives used in the most recently produced bale

646

Last Bale Twine Binding Consumption

Crop and Yield Data

Binding twine consumption in the most recently produced bale

647

Last Bale Binding Mesh Consumption

Crop and Yield Data

Binding mesh consumption in the most recently produced bale

648

Last Bale Binding Film Consumption

Crop and Yield Data

Binding film consumption in the most recently produced bale

649

Last Bale Binding Film Stretching

Crop and Yield Data

Binding film stretching in the most recently produced bale

650

Last Bale Wrapping Film Width

Crop and Yield Data

Wrapping film width in the most recently produced bale

651

Last Bale Wrapping Film Consumption

Crop and Yield Data

Wrapping film consumption in the most recently produced bale

652

Last Bale Wrapping Film Stretching

Crop and Yield Data

Wrapping film stretching in the most recently produced bale

653

Last Bale Wrapping Film Overlap Percentage

Crop and Yield Data

Wrapping film overlap percentage in the most recently produced bale

654

Last Bale Wrapping Film Layers

Crop and Yield Data

Wrapping film layers in the most recently produced bale

51

Setpoint Tillage Depth

Process Data

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.

52

Actual Tillage Depth

Process Data

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.

53

Default Tillage Depth

Process Data

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.

56

Setpoint Seeding Depth

Process Data

Setpoint Seeding Depth of Device Element below soil surface, value increases with depth

57

Actual Seeding Depth

Process Data

Actual Seeding Depth of Device Element below soil surface, value increases with depth

58

Default Seeding Depth

Process Data

Default Seeding Depth of Device Element below soil surface, value increases with depth

61

Setpoint Working Height

Process Data

Setpoint Working Height of Device Element above crop or soil

62

Actual Working Height

Process Data

Actual Working Height of Device Element above crop or soil

63

Default Working Height

Process Data

Default Working Height of Device Element above crop or soil

66

Setpoint Working Width

Process Data

Setpoint Working Width of Device Element

67

Actual Working Width

Process Data

Actual Working Width of Device Element

68

Default Working Width

Process Data

Default Working Width of Device Element

71

Setpoint Volume Content

Process Data

Setpoint Device Element Content specified as volume

72

Actual Volume Content

Process Data

Actual Device Element Content specified as volume

74

Setpoint Mass Content

Process Data

Setpoint Machine Element Content specified as mass

75

Actual Mass Content

Process Data

Actual Device Element Content specified as mass

77

Setpoint Count Content

Process Data

Setpoint Device Element Content specified as count

78

Actual Count Content

Process Data

Actual Device Element Content specified as count

92

Volume Per Area Crop Loss

Process Data

Crop yield loss as volume per area

93

Mass Per Area Crop Loss

Process Data

Crop yield loss as mass per area

94

Count Per Area Crop Loss

Process Data

Crop yield loss as count per area

95

Volume Per Time Crop Loss

Process Data

Crop yield loss as volume per time

96

Mass Per Time Crop Loss

Process Data

Crop yield loss as mass per time

97

Count Per Time Crop Loss

Process Data

Crop yield loss as count per time

98

Percentage Crop Loss

Process Data

Crop yield loss

101

Setpoint Bale Width

Process Data

Setpoint Bale Width for square baler or round baler

102

Actual Bale Width

Process Data

Actual Bale Width for square baler or round baler

103

Default Bale Width

Process Data

Default Bale Width for square baler or round baler

106

Setpoint Bale Height

Process Data

Setpoint Bale Height is only applicable to square baler

107

ActualBaleHeight

Process Data

Actual Bale Height is only applicable to square baler

108

Default Bale Height

Process Data

Default Bale Height is only applicable to square baler

111

Setpoint Bale Size

Process Data

Setpoint Bale Size as length for a square baler or diameter for a round baler

112

Actual Bale Size

Process Data

Actual Bale Size as length for a square baler or diameter for a round baler

113

Default Bale Size

Process Data

Default Bale Size as length for a square baler or diameter for a round baler

141

Actual Work State

Process Data

Actual Work State, 2 bits defined as 00=disabled/off, 01=enabled/on, 10=error, 11=undefined/not installed

144

Yaw Angle

Process Data

Pivot / Yaw Angle of a DeviceElement

145

Roll Angle

Process Data

Roll Angle of a DeviceElement

146

Pitch Angle

Process Data

Pitch Angle of a DeviceElement

151

Instantaneous Area Per Time Capacity

Process Data

Area per time capacity

153

Actual Normalized Difference Vegetative Index (NDVI)

Process Data

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.

160

Section Control State

Process Data

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.

161

Actual Condensed Work State (1-16)

Process Data

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.

162

Actual Condensed Work State (17-32)

Process Data

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.

163

Actual Condensed Work State (33-48)

Process Data

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.

164

Actual Condensed Work State (49-64)

Process Data

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.

165

Actual Condensed Work State (65-80)

Process Data

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.

166

Actual Condensed Work State (81-96)

Process Data

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.

167

Actual Condensed Work State (97-112)

Process Data

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.

168

Actual Condensed Work State (113-128)

Process Data

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.

169

Actual Condensed Work State (129-144)

Process Data

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.

170

Actual Condensed Work State (145-160)

Process Data

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.

171

Actual Condensed Work State (161-176)

Process Data

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.

172

Actual Condensed Work State (177-192)

Process Data

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.

173

Actual Condensed Work State (193-208)

Process Data

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.

174

Actual Condensed Work State (209-224)

Process Data

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.

175

Actual Condensed Work State (225-240)

Process Data

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.

176

Actual Condensed Work State (241-256)

Process Data

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.

193

Setpoint Product Pressure

Process Data

Setpoint Product Pressure to adjust the pressure of the product flow system at the point of dispensing.

194

Actual Product Pressure

Process Data

Actual Product Pressure is the measured pressure in the product flow system at the point of dispensing.

197

Setpoint Pump Output Pressure

Process Data

Setpoint Pump Output Pressure to adjust the pressure at the output of the solution pump.

198

Actual Pump Output Pressure

Process Data

Actual Pump Output Pressure measured at the output of the solution pump.

201

Setpoint Tank Agitation Pressure

Process Data

Setpoint Tank Agitation Pressure to adjust the pressure for a stir system in a tank.

202

Actual Tank Agitation Pressure

Process Data

Actual Tank Agitation Pressure measured by the tank stir system.

216

Actual Bale Hydraulic Pressure

Process Data

The actual value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber.

218

Setpoint Bale Compression Plunger Load

Process Data

The setpoint bale compression plunger load as a unitless number.

219

Actual Bale Compression Plunger Load

Process Data

The actual bale compression plunger load expressed as percentage.

225

Setpoint Working Length

Process Data

Setpoint Working Length of Device Element.

226

Actual Working Length

Process Data

Actual Working Length of a Device Element.

229

Actual Net Weight

Process Data

Actual Net Weight value specified as mass

230

Net Weight State

Process Data

Net Weight State, 2 bits defined as:

231

Setpoint Net Weight

Process Data

Setpoint Net Weight value.

232

Actual Gross Weight

Process Data

Actual Gross Weight value specified as mass

233

Gross Weight State

Process Data

Gross Weight State, 2 bits defined as:

237

Actual Header Working Height Status

Process Data

Actual status of the header being above or below the threshold height for the in-work state.

238

Actual Header Rotational Speed Status

Process Data

Actual status of the header rotational speed being above or below the threshold for in-work state.

239

Yield Hold Status

Process Data

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.

240

Actual (Un)Loading System Status

Process Data

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.

242

Setpoint Sieve Clearance

Process Data

Setpoint separation distance between Sieve elements

243

Actual Sieve Clearance

Process Data

Actual separation distance between Sieve elements

246

Setpoint Chaffer Clearance

Process Data

Setpoint separation distance between Chaffer elements.

247

Actual Chaffer Clearance

Process Data

Actual separation distance between Chaffer elements.

250

Setpoint Concave Clearance

Process Data

Setpoint separation distance between Concave elements.

251

Actual Concave Clearance

Process Data

Actual separation distance between Concave elements.

254

Setpoint Separation Fan Rotational Speed

Process Data

Setpoint rotational speed of the fan used for separating product material from non product material.

255

Actual Separation Fan Rotational Speed

Process Data

Actual rotational speed of the fan used for separating product material from non product material.

287

Setpoint Prescription Mode

Process Data

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.

288

Actual Prescription Mode

Process Data

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.

289

Setpoint Work State

Process Data

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.

290

Setpoint Condensed Work State (1-16)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

291

Setpoint Condensed Work State (17-32)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

292

Setpoint Condensed Work State (33-48)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

293

Setpoint Condensed Work State (49-64)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

294

Setpoint Condensed Work State (65-80)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

295

Setpoint Condensed Work State (81-96)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

296

Setpoint Condensed Work State (97-112)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

297

Setpoint Condensed Work State (113-128)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

298

Setpoint Condensed Work State (129-144)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

299

Setpoint Condensed Work State (145-160)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

300

Setpoint Condensed Work State (161-176)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

301

Setpoint Condensed Work State (177-192)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

302

Setpoint Condensed Work State (193-208)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

303

Setpoint Condensed Work State (209-224)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

304

Setpoint Condensed Work State (225-240)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

305

Setpoint Condensed Work State (241-256)

Process Data

The Setpoint Condensed Work State DDIs are the control command counterparts to the Condensed Work States DDIs (161 – 176).

320

Last loaded Weight

Process Data

Last loaded Weight value specified as mass

321

Last unloaded Weight

Process Data

Last unloaded Weight value specified as mass

322

Load Identification Number

Process Data

The Load Identification Number as a decimal number in the range of 0 to 4294967295. Note that the value of this DDI has the limitation of being an unsigned 32 bit number.

323

Unload Identification Number

Process Data

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.

326

Setpoint Header Speed

Process Data

The setpoint rotational speed of the header attachment of a chopper, mower or combine

327

Actual Header Speed

Process Data

The actual rotational speed of the header attachment of a chopper, mower or combine

330

Setpoint Cutting drum speed

Process Data

The setpoint speed of the cutting drum of a chopper

331

Actual Cutting drum speed

Process Data

The actual speed of the cutting drum of a chopper

334

Operating Hours Since Last Sharpening

Process Data

This value describes the working hours since the last sharpening of the cutting device.

341

Setpoint Grain Kernel Cracker Gap

Process Data

The setpoint gap (distance) of the grain kernel cracker drums in a chopper.

342

Actual Grain Kernel Cracker Gap

Process Data

The actual gap (distance) of the grain kernel cracker drums in a chopper

345

Setpoint Swathing Width

Process Data

This is the setpoint swathing width of the swath created by a raker.

346

Actual Swathing Width

Process Data

This is the width of the swath currently created by a raker.

349

Nozzle Drift Reduction

Process Data

The Nozzle Drift Reduction classification value of the spraying equipment as percentage

364

Actual Flake Size

Process Data

Actual size of the flake that is currently produced by the chamber.

365

Setpoint Downforce Pressure

Process Data

Setpoint downforce pressure for an operation

366

Actual Downforce Pressure

Process Data

Actual downforce pressure for an operation

367

Condensed Section Override State (1-16)

Process Data

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.

368

Condensed Section Override State (17-32)

Process Data

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.

369

Condensed Section Override State (33-48)

Process Data

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.

370

Condensed Section Override State (49-64)

Process Data

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.

371

Condensed Section Override State (65-80)

Process Data

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.

372

Condensed Section Override State (81-96)

Process Data

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.

373

Condensed Section Override State (97-112)

Process Data

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.

374

Condensed Section Override State (113-128)

Process Data

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.

375

Condensed Section Override State (129-144)

Process Data

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.

376

Condensed Section Override State (145-160)

Process Data

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.

377

Condensed Section Override State (161-176)

Process Data

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.

378

Condensed Section Override State (177-192)

Process Data

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.

379

Condensed Section Override State (193-208)

Process Data

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.

380

Condensed Section Override State (209-224)

Process Data

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.

381

Condensed Section Override State (225-240)

Process Data

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.

382

Condensed Section Override State (241-256)

Process Data

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.

387

Total Revolutions in Fractional Revolutions

Process Data

Accumulated Revolutions specified with fractional revolutions

388

Total Revolutions in Complete Revolutions

Process Data

Accumulated Revolutions specified as completed integer revolutions

389

Setpoint Revolutions specified as count per time

Process Data

Setpoint Revolutions specified as count per time

390

Actual Revolutions Per Time

Process Data

Actual Revolutions specified as count per time

391

Default Revolutions Per Time

Process Data

Default Revolutions specified as count per time

396

Setpoint Speed

Process Data

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.

397

Actual Speed

Process Data

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.

415

Actual Seed Singulation Percentage

Process Data

Actual Seed Singulation Percentage calculated from measured seed spacing using ISO 7256-1 "Quality of Feed Index" algorithm

416

Average Seed Singulation Percentage

Process Data

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.

417

Actual Seed Skip Percentage

Process Data

Actual Seed Skip Percentage calculated from measured seed spacing using ISO 7256-1 "Miss Index" algorithm

418

Average Seed Skip Percentage

Process Data

Average Seed Skip Percentage calculated from measured seed spacing using ISO 7256-1 "Miss Index" algorithm. The value is the average for a Task.

419

Actual Seed Multiple Percentage

Process Data

Actual Seed Multiple Percentage calculated from measured seed spacing using ISO 7256-1 "Multiples Index" algorithm.

420

Average Seed Multiple Percentage

Process Data

Average Seed Multiple Percentage calculated from measured seed spacing using ISO 7256-1 "Multiples Index" algorithm. The value is the average for a Task.

421

Actual Seed Spacing Deviation

Process Data

Actual Seed Spacing Deviation from setpoint seed spacing

422

Average Seed Spacing Deviation

Process Data

Average Seed Spacing Deviation from setpoint seed spacing. The value is the average for a Task.

423

Actual Coefficient of Variation of Seed Spacing Percentage

Process Data

Actual Coefficient of Variation of Seed Spacing Percentage calculated from measured seed spacing using ISO 7256-1 algorithm

424

Average Coefficient of Variation of Seed Spacing Percentage

Process Data

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.

425

Setpoint Maximum Allowed Seed Spacing Deviation

Process Data

Setpoint Maximum Allowed Seed Spacing Deviation

426

Setpoint Downforce as Force

Process Data

Setpoint Downforce as Force

427

Actual Downforce as Force

Process Data

Actual Downforce as Force

456

Last loaded Volume

Process Data

Last loaded Volume value specified as volume

457

Last unloaded Volume

Process Data

Last unloaded Volume value specified as volume

462

Last loaded Count

Process Data

Last loaded Count value specified as count

463

Last unloaded Count

Process Data

Last unloaded Count value specified as count

464

Haul Counter

Process Data

Each Time a Device Element is filled and emptied this is called a haul cycle. This counter counts the cycles

465

Lifetime Haul Counter

Process Data

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.

466

Actual relative connector angle

Process Data

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.

467

Actual Percentage Content

Process Data

Actual Device Element Content specified as percent.

472

Setpoint Length of Cut

Process Data

Setpoint length of cut for harvested material, e.g. Forage Harvester or Tree Harvester.

475

Setpoint Bale Hydraulic Pressure

Process Data

The setpoint value of the hydraulic pressure applied to the sides of the bale in the bale compression chamber.

478

Setpoint Flake Size

Process Data

Setpoint size of the flake to be produced by the chamber.

481

Setpoint Number of Subbales

Process Data

Number of smaller bales that shall be included in one bigger bale.

483

Setpoint Engine Speed

Process Data

The setpoint of the rotational speed of the engine.

484

Actual Engine Speed

Process Data

Actual rotational speed of the engine.

494

Last Event Partner ID (Byte 1-4)

Process Data

Last Event Partner ID as a decimal number of 128bit length.

495

Last Event Partner ID (Byte 5-8)

Process Data

Last Event Partner ID as a decimal number of 128bit length.

496

Last Event Partner ID (Byte 9-12)

Process Data

Last Event Partner ID as a decimal number of 128bit length.

497

Last Event Partner ID (Byte 13-16)

Process Data

Last Event Partner ID as a decimal number of 128bit length.

498

Last Event Partner ID Type

Process Data

Defines The Type of the Partner ID Device. See Attatchment for Definition.

499

Last Event Partner ID Manufacturer ID Code

Process Data

The Partner ID has to tell its Manufacturer, and the Manufacturer Numbers from SAE J1939 / ISO 11783 shall be used.

500

Last Event Partner ID Device Class

Process Data

This DDI should tell the Device Class of the Partner Device.

501

Setpoint Engine Torque

Process Data

The setpoint of the engine torque.

502

Actual Engine Torque

Process Data

The current torque of the engine.

529

Setpoint Tillage Disc Gang Angle

Process Data

Setpoint Tillage Gang Angle is the pivot angle of the gangs for the device element

530

Actual Tillage Disc Gang Angle

Process Data

Actual Tillage Gang Angle is the pivot angle of the gangs for the device element.

539

Actual Preservative Tank Volume

Process Data

The actual volume inside the preservative tank.

540

Actual Preservative Tank Level

Process Data

The percentage level of the preservative tank.

541

Actual PTO Speed

Process Data

Actual Speed of the Power Take-Off (PTO)

542

Setpoint PTO Speed

Process Data

The desired Speed of the Power Take-Off (PTO)

547

Setpoint Bale Compression Plunger Load (N)

Process Data

The setpoint bale compression plunger load expressed as Newton.

548

Actual Bale Compression Plunger Load (N)

Process Data

The actual bale compression plunger load expressed as Newton.

551

Actual PTO Torque

Process Data

Actual Torque of the Power Take-Off (PTO)

552

Setpoint PTO Torque

Process Data

The desired Torque of the Power Take-Off (PTO)

557

Setpoint Electrical Current

Process Data

Setpoint electrical Current of a Device Element

558

Actual Electrical Current

Process Data

Actual Electrical Current of Device Element

562

Setpoint Voltage

Process Data

Setpoint Voltage of a Device Element

564

Actual Voltage

Process Data

Actual Voltage of a Device Element

567

Actual Electrical Resistance

Process Data

Actual Electrical Resistance of Device Element

568

Setpoint Electrical Power

Process Data

Setpoint Electrical Power of Device Element

569

Actual Electrical Power

Process Data

Actual Electrical Power of Device Element

578

Setpoint Temperature

Process Data

Setpoint Temperature of Device Element specified as milli Kelvin

579

Actual Temperature

Process Data

Actual Temperature of Device Element specified as milli Kelvin

583

Setpoint Frequency

Process Data

Setpoint Frequency of Device Element specified as Hz

584

Actual Frequency

Process Data

Actual Frequency of Device Element specified as Hz

192

Ambient temperature

Environment Data

Ambient temperature measured by a machine. Unit is milli-Kelvin (mK).

207

Wind speed

Environment Data

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.

208

Wind direction

Environment Data

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.

209

Relative Humidity

Environment Data

Ambient humidty measured by a weather station in a treated field or on the application implement.

210

Sky conditions

Environment Data

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:

224

Delta T

Environment Data

The difference between dry bulb temperature and wet bulb temperature measured by a weather station in a treated field or on the application equipment.

383

Apparent Wind Direction

Environment Data

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).

384

Apparent Wind Speed

Environment Data

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.

385

MSL Atmospheric Pressure

Environment Data

The atmospheric pressure MSL (Mean Sea Level) is the air pressure related to mean sea level.

386

Actual Atmospheric Pressure

Environment Data

The Actual Atmospheric Pressure is the air pressure currently measured by the weather station.

556

Present Weather Conditions

Environment Data

DDI to document the current weather conditions.

587

Previous Rainfall

Environment Data

DDI to document past rainfall conditions.

658

Actual CO2 equivalent specified as mass per area

Environment Data

Actual CO2 equivalent specified as mass per area

659

Actual CO2 equivalent specified as mass per time

Environment Data

Actual CO2 equivalent specified as mass per time

660

Actual CO2 equivalent specified as mass per mass

Environment Data

Actual CO2 equivalent specified as mass per mass (application rate)

661

Actual CO2 equivalent specified as mass per yield

Environment Data

Actual CO2 equivalent specified as mass per yield mass

662

Actual CO2 equivalent specified as mass per volume

Environment Data

Actual CO2 equivalent specified as mass per volume

663

Actual CO2 equivalent specified as mass per count

Environment Data

Actual CO2 equivalent specified as mass per count

664

Total CO2 equivalent

Environment Data

Accumulated CO2 equivalent specified as mass in kilogram [kg]

665

Lifetime total CO2 equivalent

Environment Data

Entire Lifetime CO2 equivalent specified as mass in kilogram [kg]

0

Data Dictionary Version

Basic Data

This DDE is used to specify which version of the Data Dictionary is being used.

134

Device Element Offset X

Basic Data

X direction offset of a DeviceElement relative to a Device.

135

Device Element Offset Y

Basic Data

Y direction offset of a DeviceElement relative to a Device.

136

Device Element Offset Z

Basic Data

Z direction offset of a DeviceElement relative to a Device.

147

Log Count

Basic Data

Log Counter, may be used to control data log record generation on a Task Controller

154

Physical Object Length

Basic Data

Length of device element (dimension along the X-axis)

155

Physical Object Width

Basic Data

Width of device element (dimension along the Y-axis)

156

Physical Object Height

Basic Data

Height of device element (dimension along the Z-axis)

157

Connector Type

Basic Data

Specification of the type of coupler. The value definitions can be looked up at https://www.isobus.net/isobus/dDEntity/767

158

Prescription Control State

Basic Data

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.

159

Number of Sub-Units per Section

Basic Data

Specifies the number of sub-units for a section (e.g. number of nozzles per sprayer section or number of planter row units per metering device).

178

Element Type Instance

Basic Data

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.

179

Actual Cultural Practice

Basic Data

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.

180

Device Reference Point (DRP) to Ground distance

Basic Data

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.

259

Yield Lag Ignore Time

Basic Data

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.

260

Yield Lead Ignore Time

Basic Data

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.

264

Connector Pivot X-Offset

Basic Data

X direction offset of a connector pivot point relative to DRP.

306

True Rotation Point X-Offset

Basic Data

X direction offset of the device rotation point relative to the DRP.

307

True Rotation Point Y-Offset

Basic Data

Y direction offset of the device rotation point relative to the DRP.

350

Function or Operation Technique

Basic Data

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.

400

Speed Source

Basic Data

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:

471

Setpoint Actual Cultural Practice

Basic Data

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.

520

Actual Canopy Height

Basic Data

Actual height of the canopy above ground.

656

SC Actual Turn On Time

Basic Data

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.

657

SC Actual Turn Off Time

Basic Data

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.

57343

Request Default Process Data

Basic Data

Request Default Process Data. This DDE is the highest ISO assigned entity. The range above this number is reserved for manufacture specific DDE’s.

57342

PGN Based Data

Machine Data (only PGN Data)

This DDI is used in the XML files to identify PGN based data.

57344

65534 Proprietary DDI Range

Proprietary Data

Manufacturer proprietary definitions

65535

Reserved

Proprietary Data

Reserved

468

Soil Snow/Frozen Condition

Soil Data

DDI to document the soil snow / frozen condition.

469

Estimated Soil Water Condition

Soil Data

DDI to document the estimated soil water condition.

470

Soil Compaction

Soil Data

DDI to document the soil compaction.

550

Ground Cover

Soil Data

The Ground Cover as an amount of soil that is covered by plants

655

Electrical Apparent Soil Conductivity

Soil Data

Electrical conductivity also called the EC-Value.