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XJ Series Sedan 1 998 Electrical Guide 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 QUEE.
1 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Introduction Electrical Guide Format This Electrical Guide is made up of two major sections. The first section, at the front of the book, provides genera.
2 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 T able of Contents Component Index ........................................................................................................ 5 – 11 User Instructions .....................................
3 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 T able of Contents 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 .
4 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 T able of Contents FIGURES Fig. Description Variant 10 Interior Lighting 10. 1 ..... . Interior Lighting; Garage Door Opene r ........................................... . All Vehicles 10. 2 ..... . Dimmer Controlled Lightin g .
5 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Component Index ABS / TRACTION CONTROL CONTROL MODULE ................. Fig. 06.1 ................................................................................................ Fig. 19.1 ACCELEROMETER – LATERAL .
6 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Component Index CRUISE CONTROL ON / OFF SWITCH ................................... Fig. 04.4 ................................................................................................ Fig. 04.7 ....
7 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Component Index ENGINE CONTROL MODULE ................................................. Fig. 03.1 ................................................................................................ Fig. 03.2 .
8 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Component Index HORN RELAY .......................................................................... Fig. 13.3 ............................................................................................
9 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Component Index OXYGEN SENSORS ................................................................ Fig. 04.1 ................................................................................................ Fig.
10 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Component Index SECURITY AND LOCKING CONTROL MODULE .................... Fig. 09.3 ................................................................................................ Fig. 09.4 .............
11 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Component Index TRUNK RELEASE SWITCHES ................................................. Fig. 13.1 ................................................................................................ Fig. 13.
12 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 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.
13 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig.
14 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 User Instructions NOTE: In the examples shown on this page, an ‘X’ is used where a number would appear on an actual Figure.
15 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 User Instructions 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 Ye.
16 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 User Instructions 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 (RHD).
17 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 User Instructions LR CC2( ) LS2R BT2L EM2R (EM1R) BT2L 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.
18 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 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).
19 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Augat 1.6 2-way connector. Augat 1.6 3-way connector. Augat 1.6 4-way connector. Augat 1.6 6-way connector.
20 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 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 ENGI.
21 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 LHD RHD SC1 SC2 SC3 SC4 BL1 LS32 EM1 EM51 LL2 EM42 EM44 BR1 LS2 PI1 PI2 EM53 EM63 EM2 EM3 LS3 FC5 CA19 FC1 CA20 SW10 CA23 CA66 SW1 SW2 IC1 IC3 CA29 BT4 .
22 XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 CA25 CA30 CA36 FC29 EM8 LS29 LS10 LS18 LS19 LS20 EM16 EM17 EM18 BT20 BT21 CC2 CA38 CA110 BT34 IC6 IC20 BT65 BT22 BT28 BT28 BT44 CA48 CA31 CA47 CA33 CC3 .
23 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 LHD RHD Control Module Identification and Location Control Module Identification and Location RADIATOR FAN CONTROL RELAY MODULE ABS / TRACTION CONTROL C.
24 XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 EM14 EM15 EM13 EM12 EM11 EM10 11 B 10 — 9 RY 8 RG 7 BU 6 BW 5 BY 4 BO 3 PN 2 PU 1 PS 22 B 21 — 20 — 19 — 18 BS 17 BN 16 BG 6 R 5 R 4 BK 3 WR 2 G.
25 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 1 BK 2 WG 3 — 4 — 5 — 6 SO 7 — 8 — 9 — 10 SU 11 — 12 — 13 UY 14 R 15 — 16 — 17 — 25 — 26 B 27 RO 28 — 29 — 30 — 31 — 32 .
26 XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 FC15 79 NG 80 NB 81 GR 82 GR 83 GB 84 U 85 S 86 OP 87 SK 88 YG 89 YW 90 BK 91 BK 53 RK 54 RB 55 SP 56* UM 57 GR 58 SB 59 PY 60 RY 61 KG 62 — 63 SG 64 .
27 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 12 WR 13 B 14 B 15 GW 16 OU 17 PG 18 LGW 19 BW 20 BK 21 O 22 — 1 WP 2 GY 3 WN 4 WU 5 NY 6 PY 7 UG 8 P 9 UN 10 K 11 — 7 SY 8 SR 9 — 10 — 11 UB 12.
28 XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 DD11 DD10 7 BP 6 BY 5 OB 4 OU 3 OR 2 UG 1 BK 15 BW 14 — 13 OU 12 OY 11 — 10 YN 9 YR 8 — 22 BN 21 BS 20 G 19 — 18 BO 17 SN 16 — 7 UW 6 — 5 SY.
29 DATE OF ISSUE: SEPTEMBER 1997 XJ Series 1998 Relay and Fuse Box Identification and Location Relay and Fuse Box Identification and Location Air conditioning isolate relay violet / violet NOTE: RELAY COLORS ARE WRITTEN AS CASE COLOR / CONNECTOR COLOR.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (SG) CAN (Network) SCP Network I FC24-25 NR 26 B FC24-26 FC29R BK FC24-1 SO S S 19.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (SG) CAN (Network) SCP Network FC15-80 NB NY FC15-104 B+ S S – + U S B+ FC15-82 O GR FC15-83 O GB GR GB SC1-10 SC1-11 FC15-84 FC15-85 19.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (SG) CAN (Network) SCP Network Mirror Movement: Memory Mirror Movement: Memory Fig.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (SG) CAN (Network) SCP Network R FC5-42 CAS50 FC15-72 O FC15-80 NB 13 YU FC15-32 WN 10 I 2 II WO FC15-15 – + FC24-24 Y FC24-47 G C C S S 19.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (SG) CAN (Network) SCP Network EM68-20 EM68-10 EM68-27 NS 72 B EM17 PB EM68-11 WK EM68-28 19.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (SG) CAN (Network) SCP Network 2 II WO FC15-15 8 II WY FC15-33 S S 19.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (SG) CAN (Network) SCP Network 2 II WO FC15-15 8 II WY FC15-33 S S 19.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (SG) CAN (Network) SCP Network CA61-5 CA61-7 CA61-10 SW10-3 CA81-1 CA81-3 SW10-1 YR Y Y YU RG KP Y YR B+ WK CA61-9 OS 19.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
E 63 D O 1 7 47 6 48 82 I S C 1 II 5 II 44 II 1 17 I Fig. 01.1 Fig. 01.2 Fig. 01.3 Fig. 01.4 Fig. 01.5 Fig. 02.1 E 45 4 II XJ Series 1998 Input Output Serial and Encoded Communications Signal Ground (.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE V Pin Description I FC15-15 IGNITION SWITCHED GROUND I FC15-32 iGNiTiON SWITCHED GROUND 0 FC15~97 RELAY COlL DRi”E Active GROUND GROVND Inact.
COMPONENTS Component Connector I Type I Color Location / Access FUSE BOX - LH HEELBOARD CA,, ,O~WA” V.T.A. FUSE BOX, NATURAL LH HEELBOARD, HEELBOARD COVER CAZ, IO-WAY U T.A. FUSE BOX f BLACK ST15, EYELET F”SE BOX- RH HEELBOARD CA.,, , ,O~WAY “.T A.
COMPONENTS Component Connector I Type I Color Location / Access FUSE BOX-ENGINE COMPARTMENT KS, IO~WAY U.T.A. FUSE BOX, NATURAL ENGINE COMPARTMENT, LH FRONT LS6, ,&WAY “.T.A FUSE BOX, BLACK LS7, ,&WAY “.T A. FUSE BOX, GREEN LSB, IO-WAY “.
COMPONENTS Component Connector I Type I Color Location / Access FUSE BOX ENGINE COMPARTMENT LS5, ,&WAY U T A. FUSE BOX / NATURAL ENGlNE COMPARTMENT, LH FRONT LSS i 10.WAY U.T.A. FUSE BOX i BLACK I 57 / 1”.WAY U.T.A. FUSE BOX / GREEN ;iB, l&,AY U T.
COMPONENTS Component FUSE BOX-ENGINE MANAGEMENT Connector I Type I Color EM,9,,0-WAY U.T.A. FUSE BOX, NATURAL EM20, IO-WAY u T.A. FUSE BOX / BLACK ST20! EYELET ST21, EYELET Location / Access ENGlNE COMPARTMENT:CONTROL MODULE ENCLOSURE HARNESS-TO-HARNESS CONNECTORS Connector Type / Color EM2 20.
COMPONENTS Component ,GNlTlON SWTCH ,NERTlA SWITCH Connector / Type / Color Location I Access FCd, I-WAY M”LT,LOCK 070 /WHITE STEERlNG COLUMN CM, 3.WAY ECONOSEAL Ill LC, BLACK RH ‘N POST, LOWER ‘K POST FINISHER HARNESS-TO-HARNESS CONNECTORS Connector Type I Color ST4 54.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE v Pin Description I FC15.7 NEUTRAL SWITCH STATUS D x15-21 SERIAL COMMUNICATION -KEY TRANSPONDER D FClS-39 SECURITY ACKNOWLEDGE I FC15-41 STARTE.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE TJ Pin Description I FC15-7 NEUTRAL SWITCH STATUS D FC15-21 SERIAL COMMUNICATION - KEY TRANSPONDER D FC15-39 SECURITY ACKNOWLEDGE I FC15~4.
CONTROL MODULE PIN OUT INFORMATION ENGINE CONTROL MODULE Description Active Inactive BA 0” B- *A B+ B- B, GROUND GROUND (VALVE OPEN) GROUND GROUND GROUND GROUND GROUND BA GROUND iR.
CONTROL MODULE PIN OUT INFORMATION ENGINE CONTROL MODULE Description Active IGNITION SWITCHED POWER SVPPLY lGNlTlON SWiTCHED POWER SUPPLY OK TO START ENCODED COMMUNlCATlONS EATERY POWER SUPPLY BRAKE WATCH B+ B+ B+ GROUND SERIAL COMM”NlCAT,ONS SERIAL COMM”NlcAT,ONS PARKING BRAKE SWITCH PARK, NEUTRAL CONFiRMATlON EMS CONTROLLED REL*.
CONTROL MODULE PIN OUT INFORMATION ENGINE CONTROL MODULE Description Active IGNITION SWITCHED POWER SUPPLY IGNITION SWITCHED POWER SUPPLY OK TO START-ENCODED COMM”N~C*TIONS BAmERY POWER SUPPLY BRAKE.
CONTROL MODULE PIN OUT INFORMATION AIR CONDITIONING CONTROL MODULE ‘7 Pin Description I cc*&, COMPRESSORCLUTCHSTAT”s 0 cc30-1 AIR CDNDlTlONlNG ELECTRICAL LOAD SiGNAL I cc31-7 LOAD INHIBIT 0 CC.
CONTROL MODULE PIN OUT INFORMATION ENGINE CONTROL MODULE ‘;;I pin Description Active IGNITION SWITCHED POWER SUPPLY IGNITION SWlTCHED POWER SUPPLY OKTO START- ENCODED COMMUNICATIONS BA”ERY POWER S.
CONTROL MODULE PIN OUT INFORMATION ENGINE CONTROL MODULE Description Active IGNITION SWITCHED POWER SUPPLY IGNITION SWITCHED POWER SUPPLY OK TO START- ENCODED COMMUNICATIONS BATTERY POWER SUPPLY BRAKE.
CONTROL MODULE PIN OUT INFORMATION AIR CONDITIONING CONTROL MODULE 77 Pin Description I CC28~1 COMPRESSOR CLUTCH STATUS 0 CC30~1 AIR CONDlTlONlNG ELECTRICAL LOAD SIGNAL 1 cc31-7 LOAD lNHlB,T 0 cc31-9 .
CONTROL MODULE PIN OUT INFORMATION GEAR SELECTOR ILLUMINATION MODULE v Pin Description I cc14-1 IGNITION SWITCHED POWER SUPPLY c CC14~3 CAN NETWORK c CC,&4 CAN NETWORK I cc14-6 GROUND c cc14-8 CAN.
CONTROL MODULE PIN OUT INFORMATION GEAR SELECTOR ILLUMINATION MODULE v Pin Description I cc14-1 IGNITION SWITCHED POWER SUPPLY c CC14~3 CAN NETWORK c CC,&4 CAN NETWORK I CC14~6 GROUND c cc14-8 CAN.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE Description Active IGNITION SWlTCHED GROUND IGNITION SWTCHED GROUND GEYRSHIFT INTERLOCK SOLENOID ACTl”ATE COLUMN WATCHGEAR KEYLOCK SOLENOlD A.
CONTROL MODULE PIN OUT INFORMATION ABS I TRACTION CONTROL CONTROL MODULE v Pin Description 0 LS27~1 I LSZ7-2 I LS27-3 SG LS27~4 C LS27-5 SG LSZ7-6 I LS27-7 I LS27-8 LSZ7-9 I LSZ7-13 I 1527~14 c LS27-l.
CONTROL MODULE PIN OUT INFORMATION AIR CONDITIONING CONTROL MODULE V Pin Description Active 0 CCZB-6 DEFROST VENT SERVO MOTOR B+ 0 CC28~7 CENTER VENT SERVO MOTOR B+ 0 CUB-8 LH FRESH, REClRCULATiON VEN.
CONTROL MODULE PIN OUT INFORMATION AIR CONDITIONING CONTROL MODULE D Pin I cm-1 0 CC28-2 0 cc**-3 0 CC%4 0 K-28-5 0 CC%16 0 CC28~17 0 cc**-18 Description COMPRESSOR CLUTCH STATUS HEATER VALVE ACTl”E.
CONTROL MODULE PIN OUT INFORMATION INSTRUMENT PACK Description Active GROUND IGNITION SWITCHED POWER SUPPLY ADAPTIVE DAMPENINGWARN~NG TRIP CYCLE ‘A/B TRIP SELECT ‘ML/KM’ SELECT SCP NETWORK SCP N.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE 77 Pin Description SRS AUDIBLE BACKUP IGNITION SWITCHED GROUND SEAT BELT SWATCH STATUS IGNITION S’WTCHED GROUND STARTER ENGAGE REOUEST BA”E.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE ‘v Pin Description 0 FC,S-1 RH FRONT SIDE LAMP SUPPLY 0 FC15-2 LH FRONT DI LAMP SUPPLY 0 FCI 5~3 RH FRONT Dl LAMP SUPPLY I FC15~14 HEADLAMP M.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE 0 Pin Description 0 FCIS-1 RH FRONT SIDE LAMP SUPPLY 0 FC15-2 l.H FRONT Dl LAMP SUPPLY 0 FC15-3 RH FRONT DI LAMP SUPPLY I FC15-14 HEADLAMP MNNB.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE Description Active REAR FOG LAMP REQUEST IGNITION SWITCHED GROUND SIDE LAMP REOUEST RH TAIL LAMP SUPPLY STARTER ENGAGE REQUEST REAR FOG LAMP ST.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE v Pin Description Active I FCIS~IZ REAR FOG LAMP REOUEST GROUND I FCIS-IS IGNlTlON SWITCHED GROUND GROUND I FC15~16 SIDE LAMP REOUEST GROUND 0 .
COMPONENTS Component HEADLAMP LEVELING ACTUATOR - LH HEADLAMP LE”EL,NG ACTUATOR - RH HEADLAMP LEVELING SWlTCH ,FASCIA SWITCH PACKI Connector / Type I Color LF41, S-WAY REINSHAGEN , BLACK LF42, S-WAY.
CONTROL MODULE PIN OUT INFORMATION DRIVER DOOR CONTROL MODULE D Pin Description Active I DDlO~l BA”ERY POWER SUPPLY B+ I DD10-8 LOGIC GROUND GROUND S DD10-9 SCP NETWORK 2 - ,500 HZ 0 DD10~14 DRIVER .
CONTROL MODULE PIN OUT INFORMATION DIMMER MODULE Description Active INSTRUMENT PACK lLL”MlNAT,ON BULB SUPPLY INSTRUMENT PACK ILLUMlNATlON BULB SUPPLY IGNITION SWITCHED GROUND SUPPLY SIDE LAMPS ON RE.
CONTROL MODULE PIN OUT INFORMATION POWER ASSISTED STEERING CONTROL MODULE v Pin Description 0 CA32-2 TRANSDUCER NEGATIVE I CA32~4 “EHlCLE SPEED 0 CA32-5 TRANSDUCER POSITIVE I CA-&-6 IGNITION SWT.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE Description AUTO TlLT REOUEST lGNlTiON SWITCHED GROUND GROUND SUPPLY IGNITION SWITCHED GROUND COLUMN MOTOR POTENTIOMETER REFERENCE VOLTAGE STAR.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE D Pin Description Active I FC,5-15 IGNITION SWiTCHED GROUND GROUND I FC15-32 IGNITION SWITCHED GROUND GROVND I FC15-41 STARTER ENGAGE REQUEST G.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE 77 Pin Description I FC15~15 IGNITION SWITCHED GROUND I FC15-32 IGNITION SWlTCHED GROUND 1 FC15-41 STARTER ENGAGE REQUEST I FC15-80 BATTERY SUP.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE Description lGNlTlON SWITCHED GROUND SIDE LAMP REQUEST IGNfTfON SWlTCHED GROUND HEADLAMP DIP REOUEST MIRROR FOLDBACK RELAY ACTIVATE MIRROR FOLD.
CONTROL MODULE PIN OUT INFORMATION ADAPTIVE DAMPING CONTROL MODULE 77 Pin Description 0 EM.58.1 INSTRUMENT PACK ADAPTIVE DAMPENING MIL 0 EM&-3 ACCELEROMETER COMMON GROUND SUPPLY D EM68-10 SERIAL COMMUNlCATiONS I Eb.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE 0 Pin Description lGNlT,ON SwlTCHED GROUND SEAT HEATER STATUS iLHD = PASSENGER, RHD = DRIVER) IGNITION SWITCHED GROUND SEAT HEATER REOUEST (LHD = PASSENGER. RHD = DRiVERi STARTER ENGAGE REOUEST SEAT HEATER STATUS iLHD = DRIVER.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE Description Active IGNITION SWITCHED GROUND SEAT HEATER STATUS ILHD = PASSENGER, RHD = DRIVER, IGNITION SWlTCHED GROVND SEAT HEATER REQUEST iLH.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE v Pin Description I FC15-15 IGNlTlON SWITCHED GROUND 0 FC15-17 SEAT HEATER STATUS ILHD = PASSENGER, RHD = DRIVER) I FC15-32 IGNITION SWITCHED GROUND I FC15-35 SEAT HEATER REQUEST ILHD = PASSENGER, RHD = DRIVER) I FClS-41 STARTER ENGAGE REQUEST 0 FCIS-69 SEAT HEATER STATUS iLHD = DRIVER.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE v Pin Description IGNITION SWITCHED GROUND SEAT HEATER STATUS (LHD = PASSENGER, RHD = DRIVER) IGNITION SWITCHED GROUND SEAT HEATER REQUEST ,LHD = PASSENGER, RHD = DRIVER) STARTER ENGAGE REQUEST SEAT HEATER STATUS ,LHD = DRIVER.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE v Pin I FC15-15 0 FC15-17 I FC1532 I FC15-35 I FC15-41 0 FC, 5-69 I FC15-80 s FC15-84 s FC15-85 / FC15-85 Description Active IGNITION SWlTCHED .
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE Description Active IGNlTlON SWITCHED GROUND SEAT HEATER STATUS (LHD _ PASSENGER, RHD = DRIVER) IGNITION SWITCHED GROUND SEAT HEATER REQUEST ILHD = PASSENGER, RHD = DRIVER) STARTER ENGAGE REQUEST SEAT HEATER STATUS ILHD = DRIVER.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE 77 Pin Description IGNITION SWTCHED GROUND SEAT HEATER STATUS ,LHD = PASSENGER, RHD = DRIVER) IGNITION SWITCHED GROUND SEAT HEATER REQUEST (LHD.
CONTROL MODULE PIN OUT INFORMATION REAR SEAT CONTROL MODULE v Pin Description I BSl-l, LH LUMBAR SWITCH INFLATE I 852~3 / BS2-4 I BSZ-5 I BSZ-6 I BSZ~l2 GROUND BATTERY POWER SUPPLY GROUND BAmERY POWER SUPPLY BATTERY POWER SUPPLY 0 BS6-1 0 BSG~Z 0 856-3 0 856-4 0 ES-5 0 BS6-6 0 BS6-7 0 856.
COMPONENTS Component SEAT CUSHlON HEATER - LH REAR SEAT C”SHlON HEATER - RH REAR SEAT HEATER SWlTCH - LH REAR ,LWS VEHICLES1 SEAT HEATER SWTCH - RH REAR (LWS VEHICLES) SEAT HEATER TIMER - LH REAR SE.
COMPONENTS Component HARNESS-TO-HARNESS CONNECTORS Connector Type I Color 8513 J-WAY MLJLTILCICK 070 /WHITE BS15 SWAY MULTILOCK 070 ,WHlTE CA109 12.WAY MULTlLclCK 070 /WHITE Location / Access BELOW RE.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE D Pin Description COMPONENTS Component BODY PROCESSOR MODULE Inactive B+ B+ B+ Br B+ B+ B+ iNOT IN PARK1 B+ B+ ,KEY OUT) B+ B+ Connector I Type I Color Location / Access FC15,,4-WAYAMPEEEC,GREY cc,, 18.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE v Pin Description Inactive Bt Bt B+ Bt B+ COMPONENTS Component Connector / Type / Color Location I Access BODY PROCESSOR MODULE CENTRAL LOCKING SWITCH (CENTER CONSOLE SWITCH PACK) FC15,14-WAYAMPEEECIGREY CC,, 78.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE Description Active WASHER FLUlD LEVEL SENSOR VARIABLE INTERMlrrENTWlPE REOUEST IGNITION SWITCHED GROUND SIDE LAMP REQUEST POWER WASH RELAY ACT,.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE J Pin Description COMPONENTS Component BODY PROCESSOR MODULE Active Inactive Bt Bt Bt Bt Bc Bt Bc Connector I Type I Color FC,5,,4-WAYAMPEEEC,GREY CC,, ,G~WAY FORD IDC S.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE v Pin Description Inactive *+ i: B+ 2 Br Active COMPONENTS Component Connector I Type I Color BODY PROCESSOR MODULE FC15,14-WAYAMPEEEC,GREY CENTRAL LOCKING SWITCH Ccl, ,G-WAY FORD IDC S.
CONTROL MODULE PIN OUT INFORMATION INSTRUMENT PACK 77 Pin Description Active c FC24-24 CAN NETWORK 15-1500Hz c FC24-47 CAN NETWORK 15-1500Hz 0 FCE-20 VEHICLE SPEED 22 HZ @ 10 MPH (16 KM/HI; 44 Hz @ 20 MPH (32 KMIHI @ Bi RADIO / CASSETTE HEAD UNIT 7 Pin Description Active I IC10-1 “EHlCLE SPEED 22 HZ @ 10 MPH (1.
CONTROL MODULE PIN OUT INFORMATION INSTRUMENT PACK 77 Pin Description Active c X24-24 CAN NETWORK c FCZ4-47 CAN NETWORK 0 FC25 20 VEHICLE SPEED POWER AMPLIFIER 7 Pin Description Inactive Inactive OM.
COMPONENTS Component Connector I Type / Color Location / Access TELEPHONE ANTENNA RT64, COAXIAL CONNECTOR RT65, COAXIAL CONNECTOR RT66, COAXlAL CONNECTOR BELOW CENTER CONSOLE GLOVE BOX HEATED BACKLIGH.
CONTROL MODULE PIN OUT INFORMATION AIRBAG / SRS SINGLE POINT SENSOR v Pin Description Active 0 CAS1-I LH SEAT BELT WETENSIONER POWER SUPPLY B+ 0 C&l-2 LH SEAT BELT PRETENSIONER GROUND SUPPLY GROUN.
CONTROL MODULE PIN OUT INFORMATION BODY PROCESSOR MODULE 7 Pin Description I FC15~4 HORN ACTIVATE REQUEST 0 FC, 5~70 HORN RELAY ACTIVATE FC15-80 BA”ERY SUPPLY VOLTAGE Active GROUND IMOMENTARY) GROUN.
CONTROL MODULE PIN OUT INFORMATION REFER TO THE APPENDIX AT THE REAR OF THIS BOOK FOR CAN AND SCP NETWORK MESSAGES. COMPONENTS Component ABS iTRACTION CONTROL CONTROL MODULE BODY PROCESSOR MODULE DATA.
CONTROL MODULE PIN OUT INFORMATION REFER TO THE APPENDIX AT THE REAR OF THIS BOOK FOR CAN AND SCP NETWORK MESSAGES. COMPONENTS Component ADAPTIVE DAMPING CONTROL MODULE Connector I Type I Color EM68,3.
i XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix This Appendix contains a listing of CAN and SCP Network messages. Abbreviations The following abbreviations are used throughout this Appendix BP.
ii XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix CAN Messages by Node Node: Engine Control Module Transmitted by ECM Message Usage CAN traction acknowledge Confirms torque reduction for tracti.
iii XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix CAN Messages by Node Node: Engine Control Module Received by ECM Message Usage Source CAN torque reduction throttle For traction control – t.
iv XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix CAN Messages by Node Node: Transmission Control Module Transmitted by TCM Message Usage CAN torque reduction request For shift energy managemen.
v XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix CAN Messages by Node Node: Instrument Pack Transmitted by INST Message Usage CAN side lamp status Sidelamp status for idle speed control CAN dip.
vi XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix CAN Messages by Node Node: ABS / Traction Control Control Module Transmitted by ABS / TCCM Message Usage CAN torque reduction throttle For trac.
vii XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix CAN Messages by Node Node: Gear Selector Illumination Module (listen Only) Received by Gear Selector Illumination Module Message Usage Source .
viii XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix CAN Message Matrix T = Transmit; R = Receive Gear Message ABS ECM TCM INST Selector DIAG CAN torque reduction throttle T ................. R ...................................................
ix XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix Gear Message ABS ECM TCM INST Selector DIAG CAN throttle malfunction red R ................. T ....................................... R ........................................ ........ CAN throttle malfunction amber R .
x XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix SCP Message Matrix T = Transmit; R = Receive # Message Name INST BPM DDCM PDCM DSCM PSCM DRDCM PRDCM SLCM 1 Vehicle speed T .............. R ............. R ......................................
xi XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix # Message Name INST BPM DDCM PDCM DSCM PSCM DRDCM PRDCM SLCM 55 Passenger mirror left ................................. T .............. R .......................................................
xii XJ Series 1998 DATE OF ISSUE: SEPTEMBER 1997 Appendix SCP Message Matrix T = Transmit; R = Receive # Message Name INST BPM DDCM PDCM DSCM PSCM DRDCM PRDCM SLCM 108 Close passenger rear window ................................. T ...................
Un point important après l'achat de l'appareil (ou même avant l'achat) est de lire le manuel d'utilisation. Nous devons le faire pour quelques raisons simples:
Si vous n'avez pas encore acheté Jaguar XJ c'est un bon moment pour vous familiariser avec les données de base sur le produit. Consulter d'abord les pages initiales du manuel d'utilisation, que vous trouverez ci-dessus. Vous devriez y trouver les données techniques les plus importants du Jaguar XJ - de cette manière, vous pouvez vérifier si l'équipement répond à vos besoins. Explorant les pages suivantes du manuel d'utilisation Jaguar XJ, vous apprendrez toutes les caractéristiques du produit et des informations sur son fonctionnement. Les informations sur le Jaguar XJ va certainement vous aider à prendre une décision concernant l'achat.
Dans une situation où vous avez déjà le Jaguar XJ, mais vous avez pas encore lu le manuel d'utilisation, vous devez le faire pour les raisons décrites ci-dessus,. Vous saurez alors si vous avez correctement utilisé les fonctions disponibles, et si vous avez commis des erreurs qui peuvent réduire la durée de vie du Jaguar XJ.
Cependant, l'un des rôles les plus importants pour l'utilisateur joués par les manuels d'utilisateur est d'aider à résoudre les problèmes concernant le Jaguar XJ. Presque toujours, vous y trouverez Troubleshooting, soit les pannes et les défaillances les plus fréquentes de l'apparei Jaguar XJ ainsi que les instructions sur la façon de les résoudre. Même si vous ne parvenez pas à résoudre le problème, le manuel d‘utilisation va vous montrer le chemin d'une nouvelle procédure – le contact avec le centre de service à la clientèle ou le service le plus proche.
