Jaguar 2000 manual

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A good user manual

The rules should oblige the seller to give the purchaser an operating instrucion of Jaguar 2000, along with an item. The lack of an instruction or false information given to customer shall constitute grounds to apply for a complaint because of nonconformity of goods with the contract. In accordance with the law, a customer can receive an instruction in non-paper form; lately graphic and electronic forms of the manuals, as well as instructional videos have been majorly used. A necessary precondition for this is the unmistakable, legible character of an instruction.

What is an instruction?

The term originates from the Latin word „instructio”, which means organizing. Therefore, in an instruction of Jaguar 2000 one could find a process description. An instruction's purpose is to teach, to ease the start-up and an item's use or performance of certain activities. An instruction is a compilation of information about an item/a service, it is a clue.

Unfortunately, only a few customers devote their time to read an instruction of Jaguar 2000. A good user manual introduces us to a number of additional functionalities of the purchased item, and also helps us to avoid the formation of most of the defects.

What should a perfect user manual contain?

First and foremost, an user manual of Jaguar 2000 should contain:
- informations concerning technical data of Jaguar 2000
- name of the manufacturer and a year of construction of the Jaguar 2000 item
- rules of operation, control and maintenance of the Jaguar 2000 item
- safety signs and mark certificates which confirm compatibility with appropriate standards

Why don't we read the manuals?

Usually it results from the lack of time and certainty about functionalities of purchased items. Unfortunately, networking and start-up of Jaguar 2000 alone are not enough. An instruction contains a number of clues concerning respective functionalities, safety rules, maintenance methods (what means should be used), eventual defects of Jaguar 2000, and methods of problem resolution. Eventually, when one still can't find the answer to his problems, he will be directed to the Jaguar service. Lately animated manuals and instructional videos are quite popular among customers. These kinds of user manuals are effective; they assure that a customer will familiarize himself with the whole material, and won't skip complicated, technical information of Jaguar 2000.

Why one should read the manuals?

It is mostly in the manuals where we will find the details concerning construction and possibility of the Jaguar 2000 item, and its use of respective accessory, as well as information concerning all the functions and facilities.

After a successful purchase of an item one should find a moment and get to know with every part of an instruction. Currently the manuals are carefully prearranged and translated, so they could be fully understood by its users. The manuals will serve as an informational aid.

Table of contents for the manual

  • Page 1

    BY APPOINTMENT TO HIS ROYAL HIGHNESS THE PRINCE OF WALES MANUFACTURERS OF DAIMLER AND JAGUAR CARS JAGUAR CARS LIMITED COVENTRY BY APPOINTMENT TO HER MAJESTY QUEEN ELIZABETH II MANUFACTURERS OF DAIMLER AND JAGUAR CARS JAGUAR CARS LIMITED COVENTRY BY APPOINTMENT TO HER MAJESTY QUEEN ELIZABETH THE QUEEN MOTHER MANUFACTURERS OF DAIMLER AND JAGUAR CARS [...]

  • Page 2

    1 XJ Series 2000 DATE OF ISSUE: October 1 999 Electrical Guide Format This Electrical Guide is made up of two major sections. The first section, at the front of the book, provides general information for and about the use of the book, and information and illustrations to aid in the understanding of the XJ Series electrical / elec- tronic systems, a[...]

  • Page 3

    2 XJ Series 2000 DATE OF ISSUE: October 1 999 T able of Contents Table of Contents: Figures ........................................................................................... 3 – 4 Component Index ........................................................................................................ 5 – 11 User Instructions ..........[...]

  • Page 4

    3 XJ Series 2000 DATE OF ISSUE: October 1 999 T able of Contents: Figures FIGURES Fig. Description Variant 01 Power Distribution 01.1 ...... Main Power Distribution ................................................................ All Vehicles 01.2 ...... Battery Power Distribution: LH and RH Heelboard Fuse Boxes ...... All Vehicles 01.3 ...... Batt[...]

  • Page 5

    4 XJ Series 2000 DATE OF ISSUE: October 1 999 T able of Contents: Figures FIGURES Fig. Description Variant 11 Steering Column; Mirrors 11. 1 ..... . Steering Column Movemen t ......................................................... . Powered Column Vehicles 11. 2 ..... . Mirror Movement: Memor y ....................................................[...]

  • Page 6

    5 XJ Series 2000 DATE OF ISSUE: October 1 999 Component Index A/CCM: Air Conditioning Control Module ................................. Fig. 04.3 ................................................................................................ Fig. 04.6 ABS / Traction Control Control Module .................................... Fig. 06.1 .............[...]

  • Page 7

    6 XJ Series 2000 DATE OF ISSUE: October 1 999 Component Index CMPS: Camshaft Position Sensors .......................................... Fig. 04.1 ................................................................................................ Fig. 04.2 ................................................................................................[...]

  • Page 8

    7 XJ Series 2000 DATE OF ISSUE: October 1 999 Component Index Engine Control Module ............................................................ Fig. 03.1 ................................................................................................ Fig. 03.2 ........................................................................................[...]

  • Page 9

    8 XJ Series 2000 DATE OF ISSUE: October 1 999 Component Index Instrument Pack ...................................................................... Fig. 05.3 ................................................................................................ Fig. 08.1 ....................................................................................[...]

  • Page 10

    9 XJ Series 2000 DATE OF ISSUE: October 1 999 Component Index Rear Side Markers (NAS Only) ................................................. Fig. 09.2 Rear Window Inhibit Switch (Driver Door Switch Pack) ........... Fig. 15.1 Recline Switch – Passenger Rear ............................................ Fig. 12.5 Refrigerant 4-Way Pressure Switch .[...]

  • Page 11

    10 XJ Series 2000 DATE OF ISSUE: October 1 999 Component Index Seat Heater Switches (Center Console Switch Pack) ............... Fig. 12.1 ................................................................................................ Fig. 12.2 ................................................................................................ Fig. 12[...]

  • Page 12

    11 XJ Series 2000 DATE OF ISSUE: October 1 999 Component Index Trunk Release Actuator ........................................................... Fig. 13.1 ................................................................................................ Fig. 13.2 Trunk Release Switches .......................................................... Fig. [...]

  • Page 13

    12 XJ Series 2000 DATE OF ISSUE: October 1 999 User Instructions Figure and Data Page Layout Figure Pages Each Figure represents a specific electrical system of the vehicle. The Figures are arranged numerically by system ( 01 – Power Distribution, 02 – Ground Distribution , etc.) with variations in the system identified by a numeral following a[...]

  • Page 14

    13 XJ Series 2000 DATE OF ISSUE: October 1 999 VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-39 FC15-73 F[...]

  • Page 15

    14 XJ Series 2000 DATE OF ISSUE: October 1 999 Symbols and Codes NOTE: In the examples shown on this page, an ‘X’ is used where a number would appear on an actual Figure. Reference Symbols Reference symbols are used for three purposes: • to allow the user to complete the individual system circuit to power supply or ground • to refer the use[...]

  • Page 16

    15 XJ Series 2000 DATE OF ISSUE: October 1 999 XXXXX -XX -XX -XX XX1 XX1-X XX1-X Symbols and Codes Wiring Symbols Wiring Color Codes N Brown O Orange B Black S Slate W White L Light K Pink U Blue G Green P Purple R Red BRD Braid Y Yellow When a wire has two color code letters, the first letter indi- cates the main color and the subsequent letter in[...]

  • Page 17

    16 XJ Series 2000 DATE OF ISSUE: October 1 999 RHS3 RHS3 FC7-24 FC7-24 (LHD) FC7-15 (RHD) Symbols and Codes Harness Component Numbers Connectors HARNESS CODE + CONNECTOR NUMBER + PIN NUMBER EXAMPLE: FC7-24 (pin number is separated by a dash) Where the pin number differs from LHD to RHD, the connector number will be further identified by (LHD) or (R[...]

  • Page 18

    17 XJ Series 2000 DATE OF ISSUE: October 1 999 EM2R (EM1R) BT2L CC2( ) LS2R BT2L Symbols and Codes LR Grounds HARNESS CODE + GROUND EYELET NUMBER + EYELET DESIGNATION (L or R where applicable) Eyelet designation Two eyelet variations are used: a single eyelet and an eyelet pair. The single eyelet has a single ‘leg’ and can be iden- tified by th[...]

  • Page 19

    18 XJ Series 2000 DATE OF ISSUE: October 1 999 Connectors The following connectors are the common harness-to-harness connectors used throughout the vehicle. Multilock 040 Low current (harness and ‘direct’ connection connector). Multilock 070 High current (harness and ‘direct’ connection connector). Econoseal III LC Low current sealed connec[...]

  • Page 20

    19 XJ Series 2000 DATE OF ISSUE: October 1 999 Augat 1.6 2-way connector. Augat 1.6 3-way connector. Augat 1.6 4-way connector. Augat 1.6 6-way connector. Augat 1.6 8-way connector. Connectors[...]

  • Page 21

    20 XJ Series 2000 DATE OF ISSUE: October 1 999 Main Power Distribution BT61 ST1 ST4 ST2 ST5 ST6 ST19 ST21 ST20 BT60 ST15 ST14 ST13 BT64 BT65 BT67 BT66 BT62 BT63 + – ENGINE COMPARTMENT FUSE BOX ENGINE MANAGEMENT FUSE BOX STARTER MOTOR GENERATOR FALSE BULKHEAD STUD CONNECTOR LH HEELBOARD FUSE BOX RH HEELBOARD FUSE BOX HIGH POWER PROTECTION MODULE B[...]

  • Page 22

    21 XJ Series 2000 DATE OF ISSUE: October 1 999 LF10, LF18 LF19, LF20 EM16, EM17, EM18 CC3, FC17 CA33 IC8 CA31, CA47 CA48 BT22, BT28 BT65 BT20, BT21 CA26 LF29 EM8 FC29 CA30, CA36 CA25 CC2 CA38, CA110 BT34 IC6, IC20 Ground Point Location LH FORWARD GROUND STUD ABS GROUND STUD ENGINE GROUND SCREW EMS LH GROUND STUD LH BULKHEAD GROUND STUD: CABIN SIDE [...]

  • Page 23

    22 XJ Series 2000 DATE OF ISSUE: October 1 999 LHD SC1 SC2 SC3 SC4 BL1 LF32 EM1 EM51 LL2 EM42 EM44 BR1 LF2 PI1 PI2 EM53 EM63 EM2 EM3 LF3 FC5 CA19 FC1 CA20 SW10 CA23 CA66 SW1 SW2 IC1 IC3 CA29 BT4 CA9 CA109 CA16 CA45 CA72 CA27 RT2 FC7 FC11 LF1 CA8 CA10 CA13 CA14 CA46 CA11 CA12 BT71 RB1 Harness Layout FRONT OF VEHICLE RADIATOR COOLING FAN HARNESS (CF)[...]

  • Page 24

    23 XJ Series 2000 DATE OF ISSUE: October 1 999 RHD EM53 EM63 SC1 SC2 SC3 SC4 BL1 LF32 EM1 EM51 LL2 EM42 EM44 BR1 LF2 PI1 PI2 EM2 EM3 LF3 FC1 CA19 FC5 CA20 SW10 CA27 CA66 SW1 SW2 IC1 IC3 CA29 BT4 CA9 CA109 CA13 CA14 CA46 CA8 CA10 CA72 CA23 RT2 FC7 FC11 LF1 CA11 CA12 CA16 CA45 BT71 RB1 Harness Layout FRONT OF VEHICLE RADIATOR COOLING FAN HARNESS (CF)[...]

  • Page 25

    24 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Location LHD RADIATOR FAN CONTROL RELAY MODULE ABS / TRACTION CONTROL CONTROL MODULE AIRBAG / SRS SINGLE POINT SENSOR DIMMER MODULE KEY TRANSPONDER MODULE INSTRUMENT PACK SLIDING ROOF CONTROL MODULE DRIVER DOOR CONTROL MODULE DRIVER SEAT CONTROL MODULE GEAR SELECTOR ILLUMINATION MODULE D[...]

  • Page 26

    25 XJ Series 2000 DATE OF ISSUE: October 1 999 RHD Control Module Location RADIATOR FAN CONTROL RELAY MODULE ABS / TRACTION CONTROL CONTROL MODULE AIRBAG / SRS SINGLE POINT SENSOR BODY PROCESSOR MODULE VEHICLE SPEED INTERFACE MODULE (UNDER) ENGINE CONTROL MODULE TRANSMISSION CONTROL MODULE ADAPTIVE DAMPING CONTROL MODULE SLIDING ROOF CONTROL MODULE[...]

  • Page 27

    26 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification 9 GW 8 GW 7 R 6 R 5 G 4 G 3 B 2 GU* 1 UY 21 B 20 U 19 W 18 W 17 O 16 YU 15 YG 14 RW 13 — 12 U 11 UY 10 WU 31 B 30 — 29 BK 28 BW* 27 U 26 — 25 RW 24 — 23 UY 22 RW 12 GU 11 W 10 Y 9 W 8 OG 7 BG 6 GR 5 G 4 R 3 WB 2 GO 1 OY 17 O 16 Y 15 W 14 UY 13 WR 19 G 18 B 17 O[...]

  • Page 28

    27 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification EM7 1 OY 2 RU 3 — 4 O 5 OG 6 B 7 — 8 R 9 W 10 — 11 — 12 RU 13 OG 14 N 15 BRD 16 U 17 — 29 O 30 YB 31 — 32 YU 33 YU 34 B 35 — 36 Y 37 Y 38 — 39 — 40 — 41 — 42 G 43 — 44 R 45 RG 56 — 57 — 58 — 59 — 60 — 61 — 62 — 63 — 64 — 65 —[...]

  • Page 29

    28 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification EM68 19 — 20 — 21 — 22 — 23 — 24 — 25 — 26 — 27 — 28 — 29 — 30 — 31 — 32 — 33 — 34 — 35 — 1 YR 2 — 3 Y 4 — 5 — 6 — 7 — 8 — 9 — 10 O 11 W 12 — 13 O 14 OG 15 OG 16 — 17 — 18 B LS27 17 W 18 R 19 O 20 WU 21 U 22 U 23 ?[...]

  • Page 30

    29 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification 12 WR 13 B 14 B 15 GW 16 OY 17 U 18 GW 19 BW 20 BK 21 O 22 — 1 WU 2 GW 3 WR 4 WU 5 NW 6 RW 7 U 8 U 9 UY 10 W 11 — 7 Y 8 YR 9 — 10 — 11 U 12 WU 1 UY 2 Y 3 YG 4 — 5 OY 6 U 14 — 15 — 16 GR 17 RW 18 GU 19 RU 20 YR 21 Y 22 NR 23 — 24 — 25 O 26 GU 1 RG 2 U [...]

  • Page 31

    30 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification 1 WG 2 — 3 YR 4 BK 5 — 6 RU 7 YB 8 UY 9 R 10 Y 11 Y 12 — 13 Y 14 U 15 NR 16 B 17 — 18 Y 19 O 20 — 21 — 22 — 23 G 24 G 25 BR 26 — 13 BW 12 — 11 — 10 — 9 — 8 — 7 O 6 U 5 OY 4 YG 3 RW 2 — 1 — 26 — 25 — 24 — 23 OG 22 Y 21 RG 20 OY 19 OY [...]

  • Page 32

    31 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification FC15 79 NG 80 N 81 GR 82 GR 83 GB 84 U 85 Y 86 OG 87 YU 88 YG 89 Y 90 BK 91 BK 53 R 54 R 55 YU 56 OY* 57 GR 58 YB 59 RW 60 RW 61 WG 62 — 63 YG 64 — 65 — 27 Y 28 G 29 Y 30 U 31 GB 32 WR 33 W 34 GO 35 OY 36 — 37 GR 38 O 39 Y 1 W 2 GW 3 GO 4 GU 5 YR 6 Y 7 RU 8 —[...]

  • Page 33

    32 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification DD11 DD10 7 BR 6 BW 5 GB 4 OY 3 O 2 U 1 BK 15 YG 14 — 13 OY 12 GU 11 — 10 YR 9 RG 8 — 22 BO 21 BW 20 G 19 — 18 — 17 YR 16 — 7 R 6 YB* 5 Y 4 OG 3 OG 2 Y 1 NR 15 OY 14 GW 13 — 12 — 11 — 10 BG 9 U 8 BK 22 O 21 OY 20 WU 19 N 18 BO 17 B 16 Y PD11 PD10 7 ?[...]

  • Page 34

    33 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification 14 NG 15 NR 16 — 17 — 18 GR 19 GB 20 — 21 — 22 — 23 — 24 — 25 — 26 — 1 WB 2 WB 3 — 4 — 5 W 6 GB 7 — 8 G 9 WU 10 UY 11 WR 12 N 13 — 9 RW 10 YR 11 WG 12 W 13 OY 14 WB 15 OG 16 N 1 R 2 RU 3 OG 4 UY 5 GW 6 GO 7 YB 8 UY 6 GW 7 — 8 G 9 Y 10 U 1 BK[...]

  • Page 35

    34 XJ Series 2000 DATE OF ISSUE: October 1 999 Control Module Pin Identification 11 — 10 RW 9 RW 8 RW 7 — 6 — 5 — 4 — 3 — 2 — 1 — 6 GO 5 GW 4 UY 3 WU 2 OY 1 OY 22 — 21 — 20 RW 19 OY 18 UY 17 Y 16 YG 15 GW 14 GW 13 — 12 — 12 GR 11 GW 10 OW 9 B 8 PW 7 PR 11 Y 10 B 9 — 8 — 7 — 6 — 5 — 4 — 3 — 2 — 1 — 6 NW 5 B [...]

  • Page 36

    35 XJ Series 2000 DATE OF ISSUE: October 1 999 Relay and Fuse Box Location ENGINE COMPARTMENT FRONT RELAYS Wiper RUN / STOP relay Wiper FAST / SLOW relay ENGINE COMPARTMENT RELAYS AND FUSE BOX Ignition positive relay Horn relay Dip beam relay Powerwash relay Main beam relay Front fog lamp relay Heater pump relay Engine compartment fuse box CONTROL [...]

  • Page 37

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DATE OF ISSUE: October 1999 Fig. 01.1 COMPONENTS Component Connector / T ype / Color Location / Access BA TTERY BT66 / BA TTERY CABLE CLAMP TRUNK / BA TTERY COVE[...]

  • Page 38

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 01.2 COMPONENTS Component Connector / T ype / Color Location / Access FUSE BOX – LH HEELBOARD CA1 / 10-WA Y U.T .A. FUSE BOX[...]

  • Page 39

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 01.3 COMPONENTS Component Connector / T ype / Color Location / Access FUSE BOX – ENGINE COMP ARTMENT LF5 / 10-W AY U.T .A. F[...]

  • Page 40

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 01.4 COMPONENTS Component Connector / T ype / Color Location / Access FUSE BOX – ENGINE COMP ARTMENT LF5 / 10-W AY U.T .A. F[...]

  • Page 41

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 01.5 COMPONENTS Component Connector / T ype / Color Location / Access FUSE BOX – ENGINE MANAGEMENT EM19 / 10-WA Y U.T .A. FU[...]

  • Page 42

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 02.1 COMPONENTS Component Connector / T ype / Color Location / Access IGNITION SWITCH FC4 / 8-WA Y MUL TILOCK 070 / WHITE STEE[...]

  • Page 43

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 44

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 45

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 46

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 47

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 48

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 49

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 50

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 51

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 52

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 53

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 54

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 55

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 56

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 57

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 58

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 59

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 60

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 61

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 62

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 63

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 09.3 COMPONENTS Component Connector / T ype / Color Location / Access HEADLAMP LEVELING ACTUA TOR – LH LF41 / 3-WA Y REINSHA[...]

  • Page 64

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 65

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 66

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 67

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 68

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 69

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 70

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 71

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 72

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 73

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 74

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 75

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 76

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 77

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 12.8 COMPONENTS Component Connector / T ype / Color Location / Access SEA T CUSHION HEA TER – LH REAR BX1 / 3-W AY MUL TILOC[...]

  • Page 78

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 12.9 COMPONENTS Component Connector / T ype / Color Location / Access SEA T CUSHION HEA TER – LH REAR BX1 / 3-W AY MUL TILOC[...]

  • Page 79

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 80

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 81

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 82

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 83

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 84

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 85

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 17.1 COMPONENTS Component Connector / T ype / Color Location / Access TELEPHONE ANTENNA RT64 / COAXIAL CONNECTOR BELOW CENTER [...]

  • Page 86

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 17.2 COMPONENTS Component Connector / T ype / Color Location / Access CD AUTO-CHANGER CD AUTOCHANGER DAT A CABLE TRUNK LH SIDE[...]

  • Page 87

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 88

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 19.1 COMPONENTS Component Connector / T ype / Color Location / Access P ARKING AID CONTROL MODULE RB1 / 16-W AY / BLACK TRUNK [...]

  • Page 89

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 90

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 91

    Refer to the front of this book for detailed information and illustrations regarding the location and identification of harnesses, relays, grounds, control modules and control module pins. DA TE OF ISSUE: October 1 999 Fig. 21.2 COMPONENTS Component Connector / T ype / Color Location / Access ABS / TRACTION CONTROL CONTROL MODULE LF27 / 25-W AY AMP[...]

  • Page 92

    The following abbreviations are used to represent values for Control Module Pin-Out data I Input D Serial and Encoded Data B+ Battery V oltage kHz Frequency x 1000 O Output C CAN (Network) V V oltage (DC) ms Milliseconds SG Signal Ground S SCP Network Hz Frequency mV Millivolts CAUTION: The information on this data page is furnished to aid the user[...]

  • Page 93

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network 250A x 2 BT65 B BT37 B+ (BT66) BT67 BT66 BT60 BT63 BT61 BT62 R R[...]

  • Page 94

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network GU 3 2 #1 20A CA42 -1 #2 15A CA42 -5 NW #3 15A CA42 -3 #4 10A CA[...]

  • Page 95

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network NG NG 1 #1 10A BT13 -7 #2 5A BT13 -1 #9 10A BT11 -3 #10 10A BT13[...]

  • Page 96

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network WG WG WG WG BT4-5 #10 5A CA2 -7 #12 10A CA2 -10 WU #14 10A CA1 -[...]

  • Page 97

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network #10 10A EM20 -7 #12 10A EM20 -10 WU #14 10A EM19 -8 #16 5A EM19 [...]

  • Page 98

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FCS21 III II I III II I III II I III II I III II I FC4-1 FC4-3 F[...]

  • Page 99

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-39 FC15-73 FC15-7 O I FC15-41 I RW FC15-80 N 13 III II I FC[...]

  • Page 100

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-39 FC15-73 FC15-7 O I FC15-41 I RW FC15-80 N 13 III II I FC[...]

  • Page 101

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network BK EM83-25 Y EM83-16 B+ EM80-18 EM83-24 EM80-17 EM83-15 EM82-04 [...]

  • Page 102

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network BK EM83-25 Y EM83-16 B+ EM80-18 EM83-24 EM80-17 EM83-15 EM82-04 [...]

  • Page 103

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network YR YU RG EM53-8 EM80-12 EM80-10 EM80-16 WU W YU RW YG RW YG WU Y[...]

  • Page 104

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network BW EM82-04 BW BG BR UY Y G R G RG R K YG UY B BW EM85-01 UY RU E[...]

  • Page 105

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network EM82-04 BW BG BR UY Y G R G R K YG UY B BW EM85-01 UY RU EM85-02[...]

  • Page 106

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network #7 20A 3 1 5 2 1 32 II WR NG EM3 -5 FC1 -42 BT4 -19 BT11-1 BT11-[...]

  • Page 107

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network BRD EM7-85 G EM7-1 EM7-4 EM7-82 B+ EM7-2 EM7-26 EM7-83 EM7-54 EM[...]

  • Page 108

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network BR EM61-2 EM61-25 EM62-L EM61-3 EM62-H EM61-29 EM61-26 EM61-28 E[...]

  • Page 109

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-48 FC15-58 O I FC15-80 N 13 OG B OG RW BK B FCS10 FC29L B S[...]

  • Page 110

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network LFS1 LF27-3 LF27-4 LF27-19 B+ LF27-9 LF27-20 LF27-25 LF27-17 LF2[...]

  • Page 111

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network WU CA32-6 CA32-2 O O I CAS46 CA30L B B 10 II U R Y CA32-4 CA32-5[...]

  • Page 112

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network EM68-20 EM68-10 EM68-27 NW 74 B EM17 B EM68-11 W EM68-28 21.3 21[...]

  • Page 113

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network BW Y RU RW UY YR RW R OY UY O GW GW GW GW NW OG OY U Y YR U WU Y[...]

  • Page 114

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network OG UW CC33-5 SH4-2 CC28-2 CC29-7 U GU CC29-16 U CC29-15 GO CC29-[...]

  • Page 115

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network I FC24-15 NR 27 B FC24-16 FC29R BK FC24-4 YR S S 21.1 21.2 U Y S[...]

  • Page 116

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network SCP SCP FC15-80 N NW FC15-104 B+ S S – + U Y B+ FC15-82 O GR F[...]

  • Page 117

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-38 I FC15-84 FC15-80 N O FC15-79 NG S FC15-85 S Y U SCP SCP[...]

  • Page 118

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network Y GO FC15-84 FC15-80 N 13 FC15-79 NG 30 S FC15-85 S Y U 2 II WU [...]

  • Page 119

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network WR LF41-3 LF41-2 WR LF42-3 LF42-2 38 II 39 II 42 II LF41-1 LF42-[...]

  • Page 120

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-24 O FC15-80 N 13 RW FC15-41 DD3-6 DD3-7 1 DD10-14 DD11-20 [...]

  • Page 121

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC23-7 FC23-4 O I B FC29R R RW FC23-3 WR 13 I FC23-6 NW Y G G UY[...]

  • Page 122

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-40 FC15-87 I WU YU FC15-11 I YB 18 NR YU 270 Ω 100 Ω 47[...]

  • Page 123

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network DD10-20 O CA30R WU PD10-20 O WU DD10-22 O DD10-4 O OG DD10-21 O [...]

  • Page 124

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network DD10-20 WU PD10-20 WU DD10-22 O DD10-4 O OG DD10-21 O OY DD10-3 [...]

  • Page 125

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network R FC5-42 CAS50 FC15-72 O FC15-80 N 13 YU FC15-32 WR 12 I 2 II WU[...]

  • Page 126

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network SD5-16 WG BK CCS4 BK CC3L SD5-15 SD5-12 SD5-14 SD5-4 SD5-5 SD5-7[...]

  • Page 127

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network SD5-16 SD5-15 SD5-12 SD5-14 SD5-4 SD5-5 SD5-7 SD5-8 SD5-6 SD5-13[...]

  • Page 128

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network SD17-4 SD17-5 GU SD17-9 B SD7-1 SD7-3 SD9-1 SD9-3 R OY CA23-4 BB[...]

  • Page 129

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network SP5-16 SP5-15 SP5-12 SP5-14 SP5-4 SP5-5 SP5-7 SP5-8 SP5-6 SP5-13[...]

  • Page 130

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network SP5-16 SP5-15 SP5-12 SP5-14 SP5-4 SP5-5 SP5-7 SP5-8 SP5-6 SP5-13[...]

  • Page 131

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-41 RW I 1 FC15-80 N 13 FC15-32 WR 12 I 2 II WU FC15-15 I O [...]

  • Page 132

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network BS6-3 BS1-11 O I BS2-6 NW WU Y BS2-12 NW BS2-4 NR B+ B+ B BS2-5 [...]

  • Page 133

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network R NR R BX1-1 BX1-3 BX5-1 BX5-3 RU B U WU B RU NR OG WU B R BB1-1[...]

  • Page 134

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network R NR R BX1-1 BX1-3 BX5-1 BX5-3 RU B U WU B RU NR OG WU B R BB1-1[...]

  • Page 135

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network B YU FC15-55 I YR YG NW CA31L CAS37 BK DD3-9 DD3-8 DD3-3 DD3-1 Y[...]

  • Page 136

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network B YU FC15-55 I YR YG NW CA31L CAS37 BK DD3-9 DD3-8 DD3-3 Y YR CA[...]

  • Page 137

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network FC15-43 O FC15-80 N 13 WG FC15-104 NW 17 NG #7 30A 3 1 5 2 5 YR [...]

  • Page 138

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network 2 II WU FC15-15 10 II W FC15-33 S S FC24-14 FC24-13 + - DD10-1 N[...]

  • Page 139

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network IC11-18 PD5 -1 (LHD) DD5 -1 (RHD) IC10-9 Y IC10-10 YR IC10-5 WG [...]

  • Page 140

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network IC11-18 PD5 -1 (LHD) DD5 -1 (RHD) IC31-18 Y IC31-8 YR IC31-16 Y [...]

  • Page 141

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network 67 B+ NR RT3-16 B+ G RT3-5 28 I B+ NR RT3-4 RT3-19 RT3-25 RT3-10[...]

  • Page 142

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network IC12-8 NR IC19-1 IC5-1 O R B 55 Y B IC19-7 IC19-8 IC5-7 IC5-8 IC[...]

  • Page 143

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network CA61-5 CA61-7 CA61-10 SW10-3 CA81-1 CA81-3 SW10-1 YR Y Y YU RG K[...]

  • Page 144

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network Reverse Parking Aid System Reverse Parking Aid System Fig. 19.1 [...]

  • Page 145

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network YB YB FC15-4 BK BK SW2-1 BK FCS28 FC17R SC2-9 SW1-1 SW2-5 SW1-5 [...]

  • Page 146

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network CC6-10 U CC6-2 Y CC6-4 BK CC6-5 BK 12 18 II 16 I 3 II CC3L CCS4 [...]

  • Page 147

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network CC6-10 U CC6-2 Y CC6-4 BK CC6-5 BK 12 18 II 16 I 3 II CC3L CCS4 [...]

  • Page 148

    VARIANT: VIN RANGE: DATE OF ISSUE: F00103 ➞ October 1999 16 50 85 74 9 54 8 49 62 II II EE 14 II II Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 I O S D C 1 19 I Fig. 02.1 XJ Series 2000 Input Output Signal Ground (SG) Serial and Encoded Communications CAN (Network) SCP Network CC6-12 U CC6-13 W CC6-15 W CC6-7 O CC6-4 BK CC6-5 BK 12 18 II 16[...]

  • Page 149

    i XJ Series 2000 DATE OF ISSUE: October 1 999 This Appendix contains a listing of CAN and SCP Network messages. Abbreviations The following abbreviations are used throughout this Appendix: ABS/TCCM Anti-Lock Braking / Traction Control Control Module BPM Body Processor Module DIAG Diagnostics DDCM Driver Door Control Module DRDCM Driver Rear Door Co[...]

  • Page 150

    ii XJ Series 2000 DATE OF ISSUE: October 1 999 Receivers Message / Function Source ECM TCM ABS/TCCM INST J-GA TE DIAG Appendix CAN Message Matrix CAN traction acknowledge ECM X CAN traction control estimated engine torque ECM X CAN shift energy management estimated engine torque ECM X X CAN throttle position ECM X X CAN pedal position ECM X X CAN t[...]

  • Page 151

    iii XJ Series 2000 Receivers Message / Function Source ECM TCM ABS/TCCM INST J-GA TE DIAG DATE OF ISSUE: October 1 999 Appendix CAN transmission oil temperature TCM X X CAN transmission malfunction TCM X X X CAN TCM PECUS flag TCM X CAN gear position target (not used) TCM X CAN torque transfer in progress (not used) TCM X CAN TCM fault code MIL sta[...]

  • Page 152

    iv XJ Series 2000 DATE OF ISSUE: October 1 999 Receivers Message / Function Source ECM TCM ABS/TCCM INST J-GA TE DIAG Appendix CAN Message Matrix CAN NWM token ECM ECM X X X CAN NWM token TCM TCM X X X CAN NWM token INST INST X X X CAN NWM token ABS ABS/TCCM X X X CAN diagnostic data in ECM DIAG X CAN diagnostic data in TCM DIAG X CAN diagnostic da[...]

  • Page 153

    v XJ Series 2000 DATE OF ISSUE: October 1 999 Appendix SCP Message Matrix # Message Name INST BPM DDCM PDCM DSCM PSCM DRDCM PRDCM SLCM 1 Vehicle speed T .............. R ............. R ................................................................................... ........................... 2 Brake pedal pressed T .............. R ...........[...]

  • Page 154

    vi XJ Series 2000 DATE OF ISSUE: October 1 999 Appendix SCP Message Matrix # Message Name INST BPM DDCM PDCM DSCM PSCM DRDCM PRDCM SLCM 57 Unlock fuel filler flap ................................. T .................................................................... .................................. R ..... 58 Remote unlock ............... R ....[...]

  • Page 155

    vii XJ Series 2000 DATE OF ISSUE: October 1 999 Appendix # Message Name INST BPM DDCM PDCM DSCM PSCM DRDCM PRDCM SLCM 115 Remote headlamps OFF ............... R ........................................................................................ ............................... T ..... 116 Rear fog lamps ON ............... T ....................[...]