1994 JAGUAR XJ6 Electrical Diagnostic Manual

Electrical rl
SECTION CONTENTS
Sub-Section 15.4 Driver Ergonomics
Sub-Section Title SRO Page
15.4 ............. Driver Ergonomics .............................................................. 15.4- 1
15.4.1 ............ System Description .............................................................. 7 5.4- 1
15.4.1.1 .......... Entry/ExitMode ................................................................ 15.4-1
15.4.1.2 .......... Driving Position Set ............................................................. 15.41
15.4.1.3 .......... PassengerSeatSet ............................................................... 15.4-1
15.4.1.5 .......... Reverse Mirror Dip .............................................................. 15.4-3
15.4.2 ............ System Components ............................................................. 15.4-3
15.4.2.1 .......... Seats - Driver and Passenger ...................................................... 7 5.4-3
15.4.2.3
.......... Seat Lumbar Pump .............................................................. 15.4-3
15.4.1.4
.......... RemoteRecall .................................................................. 15.43
15.4.2.2 .......... SeatMOtors .................................................................... 15.43
15.4.2.4 .......... Seat
Heaters and Thermostats ..................................................... 15.4-3
15.4.2.5 .......... Seatswitch Pack ................................................................ 75.45
15.4.3 ............ Seat Control Module ............................................................. 15.45
15.4.3.1 .......... Seat Control Module Connector Pins ............................................... 15.4-6
15.4.4.1 .......... Column Motors ................................................................. 75.48
15.4.4.3 .......... Driver / Passenger Rear View Mirror Motors ......................................... 15.4-9
15.4.4 ............ Steering Column /Mirror ......................................................... 75.48
15.4.4.2 .......... Column Joystick Switch .......................................................... 15.48
15.4.4.4 .......... Mirror joystick .................................................................. 15.49
15.4.5 ............ Column/Mirror Control Module ................................................. 15.4-10
15.4.6 ............ Non-Memory and Manual Applications ........................................... 15.4-12
15.4.6.1 .......... Non-Memory ................................................................. 15.4-12
15.4.6.2 .......... Manualseats .................................................................. 15.4-72
15.4.6.3 .......... Manual Column ............................................................... 15.4-12
15.4.7 ............ Symptom FlowChafls .......................................................... 15.4-13
15.4.8
............ Diagnostic Sub-routines ........................................................ 15.4-17
15.4.9.16 ......... Key to Schematic Diagrams ...................................................... 15.4-35
15.4.9 ............ Pin-Point Tests ................................................................. 15.4-19
15.4.10
.......... Electrochromatic Rear View Mirror ................................................ 15.4-36
15.4.10.1 ......... Description ................................................................... 15.4-36
15.4.10.2 ......... Test Procedure ................................................................. 15.436
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E I ect r ica I
15.1 SUPPLEMENTAL RESTRAINT SYSTEM
15.1.1 System Description
The Supplemental Restraint System (SRS) installation comprises:
0 electronic Diagnostic Module (DM)
0 driver and passenger-side air bag modules (including firing mechanisms)
0 two front impact sensors (left and right)
0 one safing sensor
0 dedicated wiring harness
0 two cable reel cassettes (integral part of the steering column harness)
0 Malfunction Indicator Lamp (MIL) and driver information message
The system is designed to provide protection for both driver and front seat passenger by automatically deploying air
bags in the event of a collision during forward travel. The driver
-side air bag is located in the centre of the steering
wheel assembly and the passenger-side air bag in the fascia panel.
In the event of a collision the impact
/ safing sensors operate, completing the electrical firing circuit and causing the
air bags to inflate within 32 milliseconds. At least two of the three sensors (at least one impact, and the safing sensor)
.must be activated to initiate firing. System operation is dependent upon battery voltage supplied directly, and via the
ignition switch, to the DM and the correct installation and operation of all system components, including the wiring
harness. Faults in system components, installation or wiring will be indicated by the MIL Lamp, located on the instru
- ment panel, which will illuminate 'SRS AIR BAG'. Indication is also given by the driver information message'AIR BAG'
displayed on the LCD panel below the speedometer.
15.1.2.1 Diagnostic Module (Fig. I)
The Diagnostic Module (DM), mounted below the passenger-side air bag module, behind the console fascia panel, is
the electronic microprocessor unit which monitors the whole SRS system. The state of the three system sensors, two
air bag modules and the wiring harness is monitored constantly to detect activation criteria and component faults.
15.1.2 COMPONENT DESCRIPTIONS
The unit also confirms correct supply conditions by compar- ing a direct battery voltage input with an input, via the igni- tion switch, of the same voltage value. Detection of system
faults will be relayed by the DM to the instrument panel and
the air bag MIL Lamp illuminated.
The DM contains a reserve power supply unit, enabling the
air bagsto fire even if supply voltage is lost during an impact
situation. The reserve power charge will be retained for ap
- proximately one minute after the positive supply voltage is
disconnected. An auxiliary internal circuit, known as the
'dwell enhancer', provides a temporary ground to compen
- sate for damaged primary crash sensors. If either primary
crash sensor operates for 5 milliseconds the 'dwell en- hancer' circuit will turn on, completing the firing circuit to
ground for 90 milliseconds. The purpose of this is to allow
air bag deployment even if the operated primary crash sen- sor circuit is defective or opens.
15.1.2.2 Wiring Harness
Fig. 1
A dedicated wiring harness, covered with yellow sheathing, independent of any other vehicle system, is used to electri- cally connect all the component items. To allow movement of the steering mechanism, two cable reel cassettes are
incorporated into the driver-side air bag module circuitry, as a means of compensating for steering wheel rotation is
required to prevent harness damage or disconnection. The two cable reel cassettes form an interface between the
steering column and air bag module and, due to their coiled construction, are able to contract or expand as required.
15.1.2.3 Air Bag Modules
The two air bag modules, driver and passenger side, are
each activated when either front impact sensor (Fig. 2) and
the safing sensor operate simultaneously. Both modules
contain a charge of sodium
azide/copper oxide which, when
ignited by an electrical impulse, generate a volume of ni
- trogen gassufficientto inflatetheair bag. Theamountof gas
generated is greater in the passenger-side air bag due to its
larger size. Both modules, including surrounding trim pan- els, are non-serviceable and once activated must be re-
newed as a complete assembly.
Fig. 2
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IT Electrical
15.1.2.4 Impact Sensors
The three impact sensor devices determine when air bag fir- ing is necessary by detecting crash conditions according to
direction of travel and force of movement. An impact of
sufficient force in a forward direction will close contacts in
either one or both of
the front impact sensors, left and right.
When either (or both) of the front sensors contacts are
closed then the impact force must be sufficient to close the
safing sensor contacts also, before air bag firing can com
- mence. The front impact sensors are mounted between
each headlamp mounting bracket and bonnet hinge mount- ing (Fig. 2, previous page), the safing sensor is mounted on
the right-hand side footwell at the base of the 'A' post (Fig.
1). Fig. 1
1.
Driver-side Air Bag Module 6. RH Impact Sensor
2. Cable Reel Cassette 7. Ground 3. Passenger-side Ait Bag Module 8. Rear Safing Sensor 4. Diagnostic Module 9. Cabin Harness Connector
5. LH Impact Sensor
Fig.
2 SRS System Schematic
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15.1.3 AIR BAG DISARMING/ ARMING PROCEDURE
warnings and cautions
WARNING: DISARM SRS BEFORE SERVICING ANY SRS OR STEERING COLUMN COMPONENT.
ALLOW A MINIMUM OF ONE MINUTE TIME DELAY FOR THE BACK
-UP POWER SUPPLY TO DISCHARGE,
AFTER THE BATTERY GROUND LEAD HAS BEEN DISCONNECTED.
THE SYSTEM COMPONENTS ARE NON
-SERVICEABLE, IF FAULTS ARE SUSPECTED, CHANGE COMPO- NENTS FOR NEW ITEMS ONLY.
NEVER PROBE THE CONNECTORS OF AN AIR BAG MODULE.
FAILURE TO OBSERVE THE ABOVE PROCEDURES MAY RESULT
IN ACCIDENTAL DEPLOYMENT OF AIR
BAG.
ALWAYS WEAR SAFETY GLASSES WHEN WORKING ON AIR BAG EQUIPPED VEHICLES.
PERSONNEL CARRYING AN AIR BAG MODULE MUST ENSURE THAT THE MODULE AND TRIM COVER
ARE POINTED AWAY FROM THE BODY. WHEN POSITIONED ON A BENCH
OR WORK SURFACE ENSURE
THAT THE AIR BAG MODULE AND TRIM COVER FACE UPWARDS, LIMITING MOTION ON ACCIDENTAL
DEPLOYMENT.
ALWAYS WEAR GLOVES WHEN HANDLING DEPLOYED AIR BAG MODULE, DEPOSITS OF SODIUM HY
- DROXIDE MAY BE PRESENT ON THE MODULE SURFACE. IF SODIUM HYDROXIDE CONTACTS ANY
AREA OF SKIN, WASH THE AFFECTED AREA IMMEDIATELY WITH MILD SOAP AND WATER. DISPOSE OF
THE DEPLOYED AIR BAG USING THE CORRECT PROCEDURES, REFER TO SECTION
15 OF THE VSM.
CAUTION:
When scrapping vehicles ensure air bags have been deployed.
If
a component has been renewed and the fault does not clear, refit original item and repeat diagnostic
procedure.
After servicing repeat diagnostic procedures to ensure correct system operation.
Renew air bag module if surrounding trim panels are damaged.
Do not attempt to repaint trim covers as paint may damage cover material.
Disarming
. Allow a minimum 1 minute time delay before attempting to diagnose or renew any component in the SRS system.
Remove driver-side air bag module and connect air bag simulator to cable reel cassette multi-plug.
. Remove passenger-side air bag module and connect air bag simulator to harness.
. Re-connect battery ground lead.
Disconnect
the battery ground lead.
This delay allows the DM back
-up power supply to discharge, preventing accidental firing of the air bag.
0
Arming
Disconnect the battery ground lead.
. Remove air bag simulators and install driver and passenger-side air bag modules. Ensure fasteners are tightened
. Re-connect battery ground lead.
Switch ignition 'on' and ensure air bag MIL Lamp extinguishes.
to specified torque.
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15.1.4 DIAGNOSTICMODULE FAULT CODES
Fault codes can be extracted in one of two ways:
Through the
IS0 Communication Bus using Jaguar Diagnostic equipment.
As a series of flashes using the SRS Service Tool.
Each series offlashes represents a two digit number, representing the fault code. For example fault code
24 is displayed
as:
Two flashes, a one second pause, four flashes, three second pause. Then repeated.
All fault codes are listed in order of priority.

Electrical IT
To aid the following fault diagnosis, Fig. 1 displays the diagnostic module connector pins.
0
13 24
1
Pin No. Circuit Identification
1. Ignition Supply
2. LH Impact Sensor Monitor
3. Ground Input 4.
5. Ground
6. RH Impact Sensor Monitor 7. 8.
9. 10.
11.
12. Safing Sensor Output
Instrument
Pack Interface
- MIL Lamp
Not Used (Driver's only input)
Passenger Air Bag Module Feed
Passenger Air Bag Module Return
Driver Air Bag Module Feed
Driver Air Bag Module Return
Fig.
1
Pin No.
13.
14.
15.
16. 17.
18.
19.
20.
21.
22.
23.
24.
12
Circuit Identification
Battery Input
Not Used
Safing Sensor Input
Safing Sensor Ground Monitor
LH Impact Sensor Feed
RH Impact Sensor Feed
Not Used
LH Impact Sensor Ground Monitor
RH Impact Sensor Ground Monitor
Not Used
Safing Sensor Feed
Test Input
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Electrical
0
NO AIR BAG MIl LAMP
Inoperative lamp Circuit or No Ignition to the Diagnostic Module
Normal Operation
The air bag MIL Lamp is designed to illuminate for approximately six seconds when the ignition is switched ‘on’; this
time has been allocated to prove the MIL Lamp operation.
The DM requires an ignition supply to Pin
1, to energize the air bag MIL Lamp circuit. If the MIL Lamp is open circuit
or the DM does not receive ignition voltage at Pin 1, the MII Lamp will not illuminate.
Open circuit in the
MII Lamp supply will cause the DM to emit five tones, or ‘beeps’ every 30 minutes while ignition
is on. Repair faulty circuitry before further diagnostics.
Possible Causes
0 Bulb blown or faulty wiring in the air bag MIL Lamp circuit.
0 Loss of ignition voltage at DM pin 1.
Fault Diagnosis
1. Ignition voltage -check
8 Disarm the SRS system.
8 Switch on the ignition.
8 Measure the voltage between pin 1 (+vel and pin 3 (-vel of the connector.
8 Battery voltage present, proceed with step 2.
8 Battery voltage not present; open circuit on R / W wire from RH fuse-box or faulty ground at pin 3.
8 Check fuse 17, RH fuse-box.
8 Check the fuse connectors and wiring.
8 Check the ground at pin 3 of the DM connector.
8 Arm and verify the SRS system.
2. MIL Lamp open circuit
8 Renew the DM.
8 Arm and verify the SRS system.
If the MIL Lamp is not illuminated, check the bulb, instrument pack and associated wiring.
Issue 1 August 1994 15.1 - 6 X300 EDM