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Data transmission functional unit data-parameter definitions Featured

The parameter dataIdentifier (DID) logically represents an object (e.g., Air Inlet Door Position) or collection of objects. This parameter shall be available in the server's memory. The dataIdentifier value shall either exist in fixed memory or temporarily stored in RAM if defined dynamically by the service dynamicallyDefineDataIdentifier. In general, a dataIdentifier is capable of being utilized in many diagnostic service requests including 0x22 (readDataByIdentifier), 0x2E (writeDataByIdentifier), and 0x2F (inputOutputControlByIdentifier). A dataIdentifier is also used in various diagnostic service responses (e.g., positive response to service 0x19 subfunction readDTCSnapshotRecordByDTCNumber).
IMPORTANT — Regardless of which service a dataIdentifier is used with, it shall consistently
represent the same thing (i.e., a given object with a given size / meaning / etc.) on a given ECU.

The only case this does not apply to is the dynamically defined dataIdentifiers, as they are not predefined in the ECU, but are defined by the client using service 0x2C (dynamicallyDefineDataIdentifier). DataIdentifier values are defined in Table C.1.

Table C.1 — DID data-parameter definitions

 

Byte Value Description Cvt Mnemonic
0x0000 – 0x00FF ISOSAEReserved
This  range  of  values  shall  be  reserved  by  this  document  for  future definition.
M ISOSAERESRVD
0x0100 – 0xA5FF VehicleManufacturerSpecific
This  range  of  values  shall  be  used  to  reference  vehicle  manufacturer specific  record  data  identifiers  and  input/output  identifiers  within  the server.
U VMS
0xA600 – 0xA7FF ReservedForLegislativeUse
This range of values is reserved for future legislative requirements.
M RFLU
0xA800 – 0xACFF VehicleManufacturerSpecific
This  range  of  values  shall  be  used  to  reference  vehicle  manufacturer specific  record  data  identifiers  and  input/output  identifiers  within  the server.
U VMS
0xAD00 – 0xAFFF ReservedForLegislativeUse
This range of values is reserved for future legislative requirements.
M RFLU
0xB000 – 0xB1FF VehicleManufacturerSpecific
This  range  of  values  shall  be  used  to  reference  vehicle  manufacturer specific  record  data  identifiers  and  input/output  identifiers  within  the server.
U VMS
0xB200 – 0xBFFF ReservedForLegislativeUse
This range of values is reserved for future legislative requirements.
M RFLU
0xC000 – 0xC2FF VehicleManufacturerSpecific
This  range  of  values  shall  be  used  to  reference  vehicle  manufacturer specific  record  data  identifiers  and  input/output  identifiers  within  the server.
U VMS
0xC300 – 0xCEFF ReservedForLegislativeUse
This range of values is reserved for future legislative requirements.
M RFLU
0xCF00 – 0xEFFF VehicleManufacturerSpecific
This  range  of  values  shall  be  used  to  reference  vehicle  manufacturer specific  record  data  identifiers  and  input/output  identifiers  within  the server.
U VMS
0xF000 – 0xF00F networkConfigurationDataForTractorTrailerApplicationData- Identifier
This  value  shall  be  used  to  request  the  remote  addresses  of  all  trailer systems independent of their functionality.
U NCDFTTADID
0xF010 – 0xF0FF vehicleManufacturerSpecific
This  range  of  values  shall  be  used  to  reference  vehicle  manufacturer specific  record  data  identifiers  and  input/output  identifiers  within  the server.
U VMS
0xF100 – 0xF17F identificationOptionVehicleManufacturerSpecificDataIdentifier
This  range  of  values  shall  be  used  for  vehicle  manufacturer  specific server/vehicle identification options.
U IDOPTVMSDID
0xF180 BootSoftwareIdentificationDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  specific ECU boot software identification record. The first data byte of the record data  shall  be  the  numberOfModules  that  are  reported.  Following  the numberOfModules  the  boot  software  identification(s)  are  reported.  The format of the boot software  identification structure shall be ECU specific and defined by the vehicle manufacturer.
U BSIDID
0xF181 applicationSoftwareIdentificationDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  specific ECU application software number(s). The first data byte of the record data shall   be   the   numberOfModules   that   are   reported.   Following   the numberOfModules  the  application  software  identification(s) are  reported. The format of the application software identification structure shall be ECU specific and defined by the vehicle manufacturer.
U ASIDID
0xF182 applicationDataIdentificationDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  specific ECU application data identification record. The first data byte of the record data  shall  be  the  numberOfModules  that  are  reported.  Following  the numberOfModules the application data identification(s) are reported. The format of the application data identification structure shall be ECU specific and defined by the vehicle manufacturer.
U ADIDID
0xF183 bootSoftwareFingerprintDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  specific ECU  boot  software  fingerprint  identification  record.  Record  data  content and format shall be ECU specific and defined by the vehicle manufacturer.
U BSFPDID
0xF184 applicationSoftwareFingerprintDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  specific ECU  application  software  fingerprint  identification  record.  Record  data content  and  format  shall  be  ECU  specific  and  defined  by  the  vehicle manufacturer.
U ASFPDID
0xF185 applicationDataFingerprintDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  specific ECU application data fingerprint identification record. Record data content and format shall be ECU specific and defined by the vehicle manufacturer.
U ADFPDID
0xF186 ActiveDiagnosticSessionDataIdentifier
This  value  shall  be  used  to  report  the  active  diagnostic  session  in  the server. The values are defined by the diagnosticSessionType subfunction parameter in the DiagnosticSessionControl service.
U ADSDID
0xF187 vehicleManufacturerSparePartNumberDataIdentifier
This value shall be used to reference the vehicle manufacturer spare part number.  Record  data  content  and  format  shall  be  server  specific  and defined by the vehicle manufacturer.
U VMSPNDID
0xF188 vehicleManufacturerECUSoftwareNumberDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  ECU (server) software number. Record data content and format shall be server specific and defined by the vehicle manufacturer.
U VMECUSNDID
0xF189 vehicleManufacturerECUSoftwareVersionNumberDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  ECU (server)  software  version  number. Record  data  content and  format shall be server specific and defined by the vehicle manufacturer.
U VMECUSVNDID
0xF18A systemSupplierIdentifierDataIdentifier
This  value  shall  be  used  to  reference  the  system  supplier  name  and address  information.  Record  data  content  and  format  shall  be  server specific and defined by the system supplier.
U SSIDDID
0xF18B ECUManufacturingDateDataIdentifier
This  value  shall  be  used  to  reference  the  ECU  (server)  manufacturing date. Record data content and format shall be unsigned numeric, ASCII or BCD, and shall be ordered as Year, Month, Day.
U ECUMDDID
0xF18C ECUSerialNumberDataIdentifier
This  value  shall  be  used  to  reference  the  ECU  (server)  serial  number. Record data content and format shall be server specific.
U ECUSNDID
0xF18D supportedFunctionalUnitsDataIdentifier
This value shall be used to request the functional units implemented in a server.
U SFUDID
0xF18E VehicleManufacturerKitAssemblyPartNumberDataIdentifier
This  value  shall  be  used  to  reference  the  vehicle  manufacturer  order number for a kit (assembled parts bought as a whole for production e.g. cockpit), when the spare part number designates only the server (e.g. for aftersales).  The  record  data  content  and  format  shall  be  server  specific and defined by the vehicle manufacturer.
U VMKAPNDID
0xF18F ISOSAEReservedStandardized
This  range  of  values  shall  be  reserved  by  this  document  for  future definition of standardized server/vehicleIdentification options.
M ISOSAERESRVD
0xF190 VINDataIdentifier
This  value  shall  be  used  to  reference  the  VIN  number.  Record  data content and format shall be specified by the vehicle manufacturer.
U VINDID
0xF191 vehicleManufacturerECUHardwareNumberDataIdentifier
This  value  shall  be  used  by  reading  services  to  reference  the  vehicle manufacturer   specific   ECU   (server)   hardware   number.   Record   data content  and  format  shall  be  server  specific  and  defined  by  vehicle manufacturer.
U VMECUHNDID
0xF192 systemSupplierECUHardwareNumberDataIdentifier
This  value  shall  be  used  to  reference  the  system  supplier  specific  ECU (server)  hardware  number.  Record  data  content  and  format  shall  be server specific and defined by the system supplier.
U SSECUHWNDID
0xF193 systemSupplierECUHardwareVersionNumberDataIdentifier
This  value  shall  be  used  to  reference  the  system  supplier  specific  ECU (server) hardware version number. Record data content and format shall be server specific and defined by the system supplier.
U SSECUHWVNDID
0xF194 systemSupplierECUSoftwareNumberDataIdentifier
This  value  shall  be  used  to  reference  the  system  supplier  specific  ECU (server) software number. Record data content and format shall be server specific and defined by the system supplier.
U SSECUSWNDID
0xF195 systemSupplierECUSoftwareVersionNumberDataIdentifier
This  value  shall  be  used  to  reference  the  system  supplier  specific  ECU (server)  software  version  number. Record  data  content and  format shall be server specific and defined by the system supplier.
U SSECUSWVNDID
0xF196 exhaustRegulationOrTypeApprovalNumberDataIdentifier
This  value  shall  be  used  to  reference  the  exhaust  regulation  or  type approval  number  (valid  for  those  systems  which  require  type  approval). Record  data  content  and  format  shall  be  server  specific  and  defined  by the   vehicle   manufacturer.   Refer   to   the   relevant   legislation   for   any applicable requirements.
U EROTANDID
0xF197 systemNameOrEngineTypeDataIdentifier
This  value  shall  be  used  to  reference  the  system  name  or engine  type. Record  data  content  and  format  shall  be  server  specific  and  defined  by the vehicle manufacturer.
U SNOETDID
0xF198 repairShopCodeOrTesterSerialNumberDataIdentifier
This  value  shall  be  used  to  reference  the  repair  shop  code  or  tester (client) serial number (e.g., to indicate the most recent service client used re-program  server  memory).  Record  data  content  and  format  shall  be server specific and defined by the vehicle manufacturer.
U RSCOTSNDID
0xF199 programmingDateDataIdentifier
This value shall be used to reference the date when the server was last programmed. Record data content and format shall be unsigned numeric, ASCII or BCD, and shall be ordered as Year, Month, Day.
U PDDID
0xF19A calibrationRepairShopCodeOrCalibrationEquipmentSerialNumber DataIdentifier
This value shall be used to reference the repair shop code or client serial number (e.g., to indicate the most recent service used by the client to re- calibrate  the  server).  Record  data  content  and  format  shall  be  server specific and defined by the vehicle manufacturer.
U CRSCOCESNDID
0xF19B calibrationDateDataIdentifier
This value shall be used to reference the date when the server was last calibrated.  Record  data  content  and  format  shall  be  unsigned  numeric, ASCII or BCD, and shall be ordered as Year, Month, Day.
U CDDID
0xF19C calibrationEquipmentSoftwareNumberDataIdentifier
This  value  shall  be  used  to  reference  software  version  within  the  client used  to  calibrate  the  server.  Record  data  content  and  format  shall  be server specific and defined by the vehicle manufacturer.
U CESWNDID
0xF19D ECUInstallationDateDataIdentifier
This value shall be used to reference the date when the ECU (server) was installed  in  the  vehicle.  Record  data  content  and  format  shall  be  either unsigned numeric, ASCII or BCD, and shall be ordered as Year, Month, Day.
U EIDDID
0xF19E ODXFileDataIdentifier
This  value  shall  be  used  to  reference  the  ODX  (Open  Diagnostic  Data Exchange) file of the server to be used to interprete and scale the server data.
U ODXFDID
0xF19F EntityDataIdentifier
This  value  shall  be  used  to  reference  the  entity  data  identifier  for  a secured data transmission.
U EDID
0xF1A0 –
0xF1EF
identificationOptionVehicleManufacturerSpecific
This  range  of  values  shall  be  used  for  vehicle  manufacturer  specific server/vehicle identification options.
U IDOPTVMS
0xF1F0 – 0xF1FF identificationOptionSystemSupplierSpecific
This   range   of   values   shall   be   used   for   system   supplier   specific server/vehicle system identification options.
U IDOPTSSS
0xF200 – 0xF2FF periodicDataIdentifier
This  range  of  values  shall  be  used  to  reference  periodic  record  data identifiers. Those can either be statically or dynamically defined.
U PDID
0xF300 – 0xF3FF DynamicallyDefinedDataIdentifier
This range of values shall be used for dynamicallyDefinedDataIdentifiers.
U DDDDI
0xF400 – 0xF4FF OBDDataIdentifier
This  range  of  values  is  reserved  for  OBD/EOBD  PIDs  as  defined  in ISO 15031-5.
M OBDDID
0xF500 – 0xF5FF OBDDataIdentifier
This range of values is reserved to represent future defined OBD/EOBD PIDs.
M OBDDID
0xF600 – 0xF6FF OBDMonitorDataIdentifier
This  range  of  values  is  reserved  for  OBD/EOBD  on-board  monitoring result values as defined in ISO 15031-5.
M OBDMDID
0xF700 – 0xF7FF OBDMonitorDataIdentifier
This range of values is reserved to represent future defined OBD/EOBD on-board monitoring result values.
M OBDMDID
0xF800 – 0xF8FF OBDInfoTypeDataIdentifier
This  range  of  values  is  reserved  for  OBD/EOBD  info  type  values  as defined in ISO 15031-5.
M OBDINFTYPDID
0xF900 – 0xF9FF TachographDataIdentifier
This  range  of  values  is  reserved  for  Tachograph  DIDs  as  defined  in ISO 16844-7.
M TACHODID
0xFA00 – 0xFA0F AirbagDeploymentDataIdentifier
This  range  of  values  is  reserved  for  end  of  life  activation  of  on-board pyrotechnic devices as defined in ISO 26021-2.
M ADDID
0xFA10 NumberOfEDRDevices
This value shall be used to report the number of EDR devices capable of reporting EDR data.
U NOEDRD
0xFA11 EDRIdentification
This value shall be used to report EDR identification data.
U EDRI
0xFA12 EDRDeviceAddressInformation
This  value  shall  be  used  to  report  EDR  device  address  information according to the format defined in ISO 26021-2 for dataIdentifier 0xFA02.
U EDRDAI
0xFA13 – 0xFA18 EDREntries
This  range  shall  be  be  used  to  report individual  EDR entries. Each  DID shall  represent  a  single  EDR  entry  with  0xFA13  representing  the  latest EDR entry.
U EDRES
0xFA19 – 0xFAFF SafetySystemDataIdentifier
This range of values is reserved to represent safety system related DIDs.
M SSDID
0xFB00 – 0xFCFF ReservedForLegislativeUse
This range of values is reserved for future legislative requirements.
M RFLU
0xFD00 – 0xFEFF SystemSupplierSpecific
This range of values shall be used to reference system supplier specific record data identifiers and input/output identifiers within the server.
U SSS
0xFF00 UDSVersionDataIdentifier
This value shall be used to reference the UDS version implemented in the server. See Table C.11 for the scaling of this DID.
U UDSVDID
0xFF01 – 0xFFFF ISOSAEReserved
This  range  of  values  shall  be  reserved  by  this  document  for  future definition.
M ISOSAERESRVD

 

 C.2 scalingByte parameter definitions

The parameter scalingByte (SBYT) consists of one byte (high and low nibble). The scalingByte high nibble defines the data type, which is used to represent the dataIdentifier (DID). The scalingByte low nibble defines the number of bytes used to represent the parameter in a datastream.
Table C.2 defines the scalingByte (High Nibble) parameter.
Table C.2 — scalingByte (High Nibble) parameter definitions

Encoding   of High Nibble Description of Data Type Cvt Mnemonic
0x0 unSignedNumeric (1 to 4 bytes)
This encoding uses a common binary weighting scheme to represent a value by mean of discrete incremental steps. One byte affords 256 steps; two bytes yields 65 536 steps, etc.
U USN
0x1 signedNumeric (1 to 4 bytes)
This encoding uses a two's complement binary weighting scheme to represent a value by mean of discrete incremental steps. One byte affords 256 steps; two bytes yields 65 536 steps, etc.
U SN
0x2 bitMappedReportedWithOutMask
Bit  mapped encoding uses individual bits or small groups of  bits to represent status. A validity mask is used to indicate the validity of each bit for particular applications. BitMappedReportedWithOutMask encoding signifies that a validity mask    is    not    part    of    the    parameter    definition    itself.    A    separate scalingByteExtension (see C.3.1) is required to report the validity mask.
U BMRWOM
0x3 bitMappedReportedWithMask
Bit  mapped encoding uses individual bits or small groups of  bits to represent status. BitMappedReportedWithMask encoding signifies that a validity mask in included as part of the parameter definition itself. For every bit which represents status, a corresponding mask bit is required as part of the parameter definition. The mask indicates the validity of each bit for particular applications. This type of bit mapped parameter contains one validity mask byte for each status byte representing data. Since the validity mask is part of the parameter definition, a separate scalingByteExtension is not required.
U BMRWM
0x4 BinaryCodedDecimal
Conventional Binary Coded Decimal encoding is used to represent two numeric digits per byte. The upper nibble is used to represent the most significant digit (0 - 9), and the lower nibble the least significant digit (0 -9).
U BCD
0x5 stateEncodedVariable (1 byte)
This encoding uses a binary weighting scheme to represent up to 256 distinct states. An example is a parameter, which represents the status of the Ignition Switch.  Codes "00", "01", "02"  and "03" may indicate ignition off, locked, run, and start, respectively. The representation is always limited to one byte.
U SEV
0x6 ASCII (1 to 15 bytes for each scalingByte)
Conventional   ASCII   encoding   is   used   to   represent   up   to   128   standard characters with the MSB = logic '0'. An additional 128 custom characters may be represented with the MSB = logic '1'.
U ASCII
0x7 signedFloatingPoint
Floating point encoding is used for data that needs to be represented in floating point or scientific notation. Standard IEEE formats shall be used according to ANSI/IEEE Std 754-1985.
U SFP
0x8 packet
Packets contain multiple data values, usually related, each with unique scaling. Scaling information is not included for the individual values. See C.3.1.
U P
0x9 formula
A formula is used to calculate a value from the raw data. Formula Identifiers are specified in the table defining the formulaIdentifier encoding. See C.3.2.
U F
0xA unit/format
The  units  and  formats  are  used  to  present  the  data  in  a  more  user-friendly format.  Unit  and  Format  Identifiers  are  specified  in  the  table  defining  the formulaIdentifier encoding.
NOTE         If  combined  units  and/or  formats  are  used,  e.g.  mV,  then  one scalingByte  (and  scalingData)  for  each  unit/format  shall  be  included  in  the readScalingDataByIdentifier postive response. See C.3.3.
U U
0xB stateAndConnectionType (1 byte)
This encoding is used especially for input and output signals. The information encoded  in  the  data  byte  specifies  the  high  level  physical  layout,  electrical levels and functional state. It is recommended to use this option for digital input and output parameters. See C.3.4.
U SACT
0xC – 0xF ISOSAEReserved
Reserved by this document for future definition.
M ISOSAERESRVD

 

Table C.3 defines the scalingByte (Low Nibble) parameter.

Table C.3 — scalingByte (Low Nibble) parameter definition

Encoding of Low Nibble

Description of Data Type

Cvt

Mnemonic

0x0 – 0xF

numberOfBytesOfParameter

This range of values specifies the number of data bytes in a data stream referenced by a parameter identifier. The length of a parameter is defined by the scaling byte(s), which is always preceded by a parameter identifier (one or multiple bytes). If multiple scaling bytes follow a parameter identifier the length of the data referenced by the parameter identifier is the summation of the content of the low nibbles in the scaling bytes.

e.g. VIN is identified by a single byte parameter identifier and followed by two scaling bytes. The length is calculated up to 17 data bytes. The content of the two low nibbles may have any combination of values that add up to 17 data bytes.

NOTE For the scalingByte  with  high  nibble  encoded  as  formula  or unit/format this value is 0x0.

U

NROBOP

 

C.3 scalingByteExtension parameter definitions
C.3.1 scalingByteExtension for scalingByte high nibble of bitMappedReportedWithOutMask 

The parameter scalingByteExtension (SBYE) is only supported for scalingByte parameters with the  high nibble encoded as formula, unit/format, or bitMappedReportedWithOutMask.

A scalingByte with high nibble encoded as bitMappedReportedWithOutMask shall be followed by scalingByteExtension bytes representing the validity mask for the bit mapped dataIdentifier. Each byte shall indicate which bits of the corresponding dataIdentifier byte are supported for the current a pplication.

Table C.4 defines the scalingByteExtension for bitMappedReportedWithOutMask.

Table C.4 — scalingByteExtension for bitMappedReportedWithOutMask

Byte Value

Description

Cvt

#1

dataIdentifier dataRecord#1 validity mask

M

:

:

C1

#p

dataIdentifier dataRecord#p validity mask

C1

C1: The presence of this parameter depends on the size of the dataIdentifier the information is being requested for. The validity mask shall have as many bytes as the dataIdentifier has dataRecords.

 

C.3.2 scalingByteExtension for scalingByte high nibble of formula

The parameter scalingByteExtension (SBYE) is only supported for scalingByte parameters with the  high nibble encoded as formula, unit/format, or bitMappedReportedWithOutMask.

A scalingByte with high nibble encoded as formula shall be followed by scalingByteExtension bytes defining the formula. The scalingByteExtension consists a of one byte formulaIdentifier and constants as described in the table below.

Table C.5 defines the scalingByteExtension Bytes for formula.

Table C.5 — scalingByteExtension Bytes for formula

Byte Value

Description

Cvt

#1

formulaIdentifier (refer to table defining the formulaIdentifier encoding for details)

M

#2

C0 high byte

M

#3

C0 low byte

M

#4

C1 high byte

U

#5

C1 low byte

U

:

:

U

#2n+2

Cn high byte

U

#2n+3

Cn low byte

U

 

Table C.6 defines the formulaIdentifier encoding.

Table C.6 — formulaIdentifier encoding

 

Byte Value

Description

Cvt

0x00

y = C0 * x + C1

U

0x01

y = C0 * (x + C1)

U

0x02

y = C0 / (x + C1) + C2

U

0x03

y = x / C0 + C1

U

0x04

y = (x + C0) / C1

U

0x05

y = (x + C0) / C1 + C2

U

0x06

y = C0 * x

U

0x07

y = x / C0

U

0x08

y = x + C0

U

0x09

y = x * C0 / C1

U

0x0A – 0x7F

ISO/SAE reserved

M

0x80 – 0xFF

Vehicle manufacturer specific

U

 

Formulas are defined using variables (y, x, etc.) and constants (C0, C1, C2, etc.). The variable y is the calculated value. The other variables, in consecutive order, are part of the data stream referenced by a dataIdentifier. Each constant is expressed as a two byte real number defined in Table C.7. The two byte real numbers (C = M * 10E) contain a 12 bit signed (2's complement) mantissa (M) and a 4 bit signed (2's complement)  exponent  (E).  The  mantissa  can  hold  values  within  the  range  –2 048  to  +2 047,  and the exponent can scale the number by 10-8 to 107. The exponent is encoded in the high nibble of the high byte of the two byte real number. The mantissa is encoded in the low nibble of the high byte and the complete low byte of the two byte real number.

Table C.7 — Two byte real number format

High Byte

Low Byte

High Nibble

Low Nibble

High Nibble

Low Nibble

15

14

13

12

11

10

9

8

7

6

5

4

3

2

1

0

Exponent

Mantissa

 

C.3.3 scalingByteExtension for scalingByte high nibble of unit / format

The parameter scalingByteExtension (SBYE) is only supported for scalingByte parameters with the  high nibble encoded as formula, unit/format, or bitMappedReportedWithOutMask.

A scalingByte with high nibble encoded as unit / format shall be followed by a single scalingByteExtension byte defining the unit / format. The one byte scalingByteExtension is defined in Table C.8. If combined units and/or formats are used, e.g. mV, then one scalingByte (and scalingByteExtension) shall be included for each unit / format.

Table C.8 — Unit / format scalingByteExtension encoding

ScalingByteExtension Byte#1 Name Symbol Description Cvt
0x00 No unit, no prefix --- --- U
0x01 Meter m Length U
0x02 Foot ft Length U
0x03 Inch in Length U
0x04 Yard yd Length U
0x05 mile (English) mi length U
0x06 Gram g mass U
0x07 ton (metric) t mass U
0x08 Second s time U
0x09 Minute min time U
0x0A Hour h time U
0x0B Day d time U
0x0C year y time U
0x0D ampere A current U
0x0E volt V voltage U
0x0F coulomb C electric charge U
0x10 ohm W resistance U
0x11 farad F capacitance U
0x12 henry H inductance U
0x13 siemens S electric conductance U
0x14 weber Wb magnetic flux U
0x15 tesla T magnetic flux density U
0x16 kelvin K thermodynamic temperature U
0x17 Celsius °C thermodynamic temperature U
0x18 Fahrenheit °F thermodynamic temperature U
0x19 candela cd luminous intensity U
0x1A radian rad plane angle U
0x1B degree ° plane angle U
0x1C hertz Hz frequency U
0x1D joule J energy U
0x1E Newton N force U
0x1F kilopond kp force U
0x20 pound force lbf force U
0x21 watt W power U
0x22 horse power (metric) hk power U
0x23 horse power (UK and US) hp power U
0x24 Pascal Pa pressure U
0x25 bar bar pressure U
0x26 atmosphere atm pressure U
0x27 pound force per square inch psi pressure U
0x28 becqerel Bq radioactivity U
0x29 lumen lm light flux U
0x2A lux lx illuminance U
0x2B liter l volume U
0x2C gallon (British) --- volume U
0x2D gallon (US liq) --- volume U
0x2E cubic inch cu in volume U
0x2F meter per second m/s speed U
0x30 kilometer per hour km/h speed U
0x31 mile per hour mph speed U
0x32 revolutions per second rps angular velocity U
0x33 revolutions per minute rpm angular velocity U
0x34 counts --- --- U
0x35 percent % --- U
0x36 milligram per stroke mg/stroke mass per engine stroke U
0x37 meter per square second m/sP2P acceleration U
0x38 Newton meter Nm moment (e.g. torsion moment) U
0x39 liter per minute l/min flow U
0x3A Watt per square meter W/m2 Intensity W/mP2 Intensity U
0x3B Bar per second bar/s Pressure change U
0x3C Radians per second rad/s Angular velocity U
0x3D Radians per square second rad/sP2P Angular acceleration U
0x3E Kilogram per square meter kg/mP2P --- U
0x3F --- --- Reserved by document M
0x40 exa (prefix) E 1018 U
0x41 peta (prefix) P 1015 U
0x42 tera (prefix) T 1012 U
0x43 giga (prefix) G 109 U
0x44 mega (prefix) M 106 U
0x45 kilo (prefix) k 103 U
0x46 hecto (prefix) h 102 U
0x47 deca (prefix) da 10 U
0x48 deci (prefix) d 10月1日 U
0x49 centi (prefix) c 10月2日 U
0x4A milli (prefix) m 10月3日 U
0x4B micro (prefix) m 10月6日 U
0x4C nano (prefix) n 10月9日 U
0x4D pico (prefix) p 10月12日 U
0x4E femto (prefix) f 10月15日 U
0x4F atto (prefix) a 10月18日 U
0x50 Date1 - Year-Month-Day U
0x51 Date2 - Day/Month/Year U
0x52 Date3 - Month/Day/Year U
0x53 week W calendar week U
0x54 Time1 --- UTC Hour/Minute/Second U
0x55 Time2 --- Hour/Minute/Second U
0x56 DateAndTime1 --- Second/Minute/Hour/Day/Month/Year U
0x57 DateAndTime2 --- Second/Minute/Hour/Day/Month/Year/Local minute offset/Local hour offset U
0x58 DateAndTime3 --- Second/Minute/Hour/Month/Day/Year U
0x59 DateAndTime4 --- Second/Minute/Hour/Month/Day/Year/Local minute offset/Local hour offset U
0x5A – 0xFF --- --- ISO/SAE reserved M

 

C.3.4  scalingByteExtension for scalingByte high nibble of stateAndConnectionType

A scalingByte with high nibble encoded as stateAndConnectionType shall be followed by a single scalingByteExtension byte defining the stateAndConnectionType. The one byte scalingByteExtension is defined in Table C.9. The stateAndConnectionType encoding is used specially for input and output signals. Encoded in the scalingByteExtension data byte is information about the physical layout, electrical levels and functional state.

Table C.9 — Encoding of scalingByte High Nibble of stateAndConnectionType

 table c 9

  

C.4   transmissionMode parameter definitions 

Table C.10 defines the transmissionMode parameter.

Table C.10 — transmissionMode parameter definitions

Byte Value

Description

Cvt

Mnemonic

0x00

ISOSAEReserved

This value shall be reserved by this document for future definition.

M

ISOSAERESRVD

0x01

sendAtSlowRate

This parameter specifies that the server shall transmit the requested dataRecord information at a slow rate in response to the request message (where the # of responses to be sent = maximumNumberOfResponsesToSend). The repetition rate specified by the transmissionMode parameter slow is vehicle manufacturer specific, and pre- defined in the server.

U

SASR

0x02

sendAtMediumRate

This parameter specifies that the server shall transmit the requested dataRecord information at a medium rate in response to the request message (where the # of responses to be sent = maximumNumberOfResponsesToSend). The repetition rate specified by the transmissionMode parameter medium is vehicle manufacturer specific, and pre-defined in the server.

U

SAMR

0x03

sendAtFastRate

This parameter specifies that the server shall transmit the requested dataRecord information at a fast rate in response to the request message (where the # of responses to be sent = maximumNumberOfResponsesToSend). The repetition rate specified by the transmissionMode parameter fast is vehicle manufacturer specific, and pre- defined in the server.

U

SAFR

0x04

stopSending

The server stops transmitting positive response messages send periodically/repeatedly. Note that maximumNumberOfResponsesToSend parameter should be set to 0x01 if transmissionMode = stopSending (otherwise, server operation could be undefined).

M

SS

0x05 – 0xFF

ISOSAEReserved

This value shall be reserved by this document for future definition.

M

ISOSAERESRVD

 

C.5   Coding of UDS version number 

Table C.11 defines the coding of UDS version number DID 0xFF00 – 4 bytes unsigned value. The specification release version of this document is: 2.0.0.0.

Table C.11 — Coding of UDS version number DID 0xFF00 – 4 bytes unsigned value

Byte 1 (MSB)

Byte 2

Byte 3

Byte 4 (LSB)

Major (0..255)

Minor (0..255)

Revision (0..255)

0

 

Table C.12 defines two examples for V1.0.0.0 and V2.0.0.0.

Table C.12 — DID 0xFF00 values for 1st and 2nd edition of ISO 14229-1

Byte 1 (MSB)

Byte 2

Byte 3

Byte 4 (LSB)

Version 1.0.0.0

1

0

0

0

Version 2.0.0.0

2

0

0

0

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