1994 JAGUAR XJ6 service indicator

Introduction c
GLOSSARY OF TERMS
Term(s) Abbreviation Definition Previously used (if applicable) term(s) (or Eng- lish Equivalent)
0
EGRT Sensor
EGR Vacuum Regulator
1 Read-only memory
I Electronic Engine Control
kronic Secondary Air Injection
Engine Control Module
Engine Coolant Level
ECT Sensor
Engine Speed
Engine Speed Sensor
1 Evaporative Emission Control
Va Ive
Exhaust Gas Recirculation
Solenoid Vacuum Valve
Exhaust Gas Recirculation
Temperature Sensor
Exhaust Gas Recirculation Valve
Extreme Pressure EGR
EGRT EVR
EVP
EDM
EEPROM EPROM EEC
EAlR
ECM ECL
ECT
ECTS
RPM
EPA
EVAP
EVAPP EGRS
EGRT Sensor
EGRV EP System
which reduces
NOx emissions by
adding exhaust gases to the incoming
fuel/air charae
Sensing EGR function based on temperature
change.
controls EGR flow by changing vacuum to
the EGR valve
an EGR system that directly monitors EGR
valve position to control EGR flow
Manual which deals with the diagnosis of
electrical faults (see also Vehicle Service
Manual and Unit Service Manual)
a system that provides electronic control of
enaine electronics
a pump
-driven system for providing
secondarv air usina an electric air Dump
thermistor which provides engine coolant
temperature signal to the PCME to trigger
enrichment circuits which increase injector
'on' time for cold start and warm-up
sensor fitted on flywheel of
VI2 engine;
provides engine speed information
system designed to prevent fuel vapor from
escaping into the atmosphere. Typically
includes a charcoal filled canister to absorb
fuel
vaoor
additives to drive axle lubricants. Designed
to protect the spiral bevel gears from wear
induced by their
slidingholling action EGR
EEPROM,
EPPROM
EPROM ECU
engine coolant level indicator
Coolant temp.
sensor, ECT
revlmin. RPM
purge valve
EGR solenoid
valve
EGR temperature
sensor
X300 VSM issue 1 August 1994 13

Driveshafts & Final Drive
1. SERVICE TOOLS & EQUIPMENT
Illustration
(r-3
@
not illustrated
Jaguar Number
JD ID
JD
ID17
JD 138
JD 132 - 1
JD 156
JD 198
JD 550
- 1
JD550-4/1&4/2
SL 7
Description
Hub remover
Thread protector
Dial test indicator
(DTI) and locator
Hub press tool and button
Issue 1 August 1994 ii X300 VSM ~
Pinion
puller
Pinion Oil seal installer
Output shaft
oilseal remove I replace
Adaptor
1 replacer bearing and seal
Bearing replacer
Notes
0
0
0
0

Driveshafts & Final Drive
Description Use8
Loctite 270 Adhesive
Hylosil 102
-Sealant
Retinax A grease Axle shaft spline
Output shaft bearing housing to differential
case
Rear
hub bearings and seal pre-lubrication
Notes
30 / 50% radial coverage
See Sub Section
IV Service
I -
0
I -
minus 0.08 = 3.07 mrn (required adjustable spacer)
Minimum specified pre-load 0.025, therefore 3.15
minus 0.025 = 3.125 mm (required adjustable spacer).
Adjustable spacers are available
in 0,05 mm increments
from
2,22 to 3,47 mm.
I Data
IU SERVICE DATA
Rear hub bearing grease - Quantity
Final drive
unit pinion spigot radial run-out
0
0
Specification
0,025 to 0,08 mm
Inner bearing race1 1,5 ml. Outer bearing race 9,0 ml
Must not exceed 0,08 mm TIR (total indicator reading).
Should the run-out exceed the stated limit, renew the
final drive
unit.
X300 VSM V Issue 1 August 1994

Driveshafts & Final Drive
9.10 REAR HUB BEARING, RENEW
SRO 64.15.14
9.11
SRO 64.15.15
REAR HUB OIL SEAL, RENEW
Removal
= Disconnect vehicle battery ground lead.
= Slacken appropriate axle shaft hub nut.
. Support the vehicle at the rear and remove rear road
m: To aid assembly, markthe position of the head of the
hub carrier fulcrum, relative to the wishbone slot.
. Disconnect handbrake cable inner and outer.
. Remove brake caliper in accordance with Section 12, but do not disconnect hydraulics.
. Slacken hub carrier fulcrum and remove ABS sensor from
hub carrier.
. Remove axle shaft hub nut (and discard), collar and hub
carrier fulcrum.
. Using service tools JD 1D/7 and JD ID (Fig. I), push shaft
through hub and pull the hub carrier assembly clear.
. Using Hub tool JD 132 - 1 (1 Fig. 2) and a suitable press,
align the hub assembly tothetool ensuring the hand brake
expander locates into the tool cut out.
. Locate button JD 132 - 2 and press the hub from the
carrier.
. Remove the outer bearing race and seal from either the hub or the carrier and place the ABS rotor to one side.
. Remove from the carrier; bearing spacer, adjustable
spacer, inner race and seal.
Renew Bearings /Sea/($
wheel.
. Using a suitable drift remove the inner and outer bearing
cups.
. Clean all components paying particular attention to the re- moval of all tracesof lockingcompoundfrom the hub AND
axle shaft splines.
. Using service tools JD 550 - 4 /2,4 / 1 and 18G 134, fit new
cups to the hub carrier ensuring that they are 'square'and
fully seated.
Fit the new outer bearing race to the hub.
&&Q:
. Assemble the hub and race to the carrier along with bear-
Do not fit seals or 'pack' bearing at this point.
ing spacer (noting orientation) and the largest available
adjustable spacer,
i.e. 3.47 mm.
. Fit the new inner bearing and ABS rotor to the hub. Fig.
1
Fig.
2
. Apply a compressive load to the hub / bearing assembly, using a press, vice or long bolt. Ensure that the force that
. Measure the hub end-float, using service tool JD 13B dial test indicator (DTI).
. Using the indicated endfloat dimension, select a suitable adjustable spacer to give the specified pre-load.
m:
. Remove the outer bearing from the hub.
. Lubricate the bearings as specified.
. Locate the outer bearing to the hub carrier assembly.
the axle shaft
fixing would normally provide is not exceeded.
See Service Data, (preliminary pages) for pre
-load specification and typical example.
Issue 1 August 1994 8 X300 VSM

@ Steering
. Pack the annular gaps of the oil seal lips with grease.
. Bearing. Wash the hub assembly thoroughly and 'drift' the affected bearing cup(s) from the hub.
!&!$Q:
rn Hub. At this point the hub may be renewed if required.
Assembly
. Bearing. Assemble the inner bearing track to the hub using service tool 18G 134 and adaptor JD 550 - 5 / 1.
Ensure that the hub inner seal diameter is free of debris or damage and is lightly lubricated prior to assembly.
Only replace complete bearings, never cup or race in isolation.
Assemble the outer bearing cup to the hub using service tool
18G 134 and adaptor JD 550 - 5 / 2. Pack each race with approximately 4 ml of grease and position the inner race onto the stub axle.
Apply a smear of grease to hub inner surfaces and bearing cups. Assemble the hub to the stub axle followed by
outer race, bearing washer and hub nut.
It is not necessary to fill the hub cavity with grease, merely protect from corrosion with a coat of IubricanL'Seat'the bear-
ings by slightly tightening the hub nut whilst rotating the hub. Do not apply load without rotation. m:
. End float. Set a Dial Test Indicator (DTI) as shown in Fig. 1 and adjust the hub nut to achieve the correct end float.
As the adjustment is made, continually load the hub axial-
ly in both directions.
. Without disturbing the end float setting, fit the castellated
nut retainer so that it aligns with both hub nut and stub
axle drilling.
. Secure nut retainer using a new cotter pin.
9 Assembly and fitting is the reversal of this procedure not- ing that; all fixings MUST be tightened to specification
and operation of the braking system verified.
Fig. 1
Issue 1 August 1994 10 X300 VSM

Climate Control Systems
Description U-
HFC 134A - ICI Klea or
equivalent
Polyalkyleneglycol (PAG) Compressor lubricant
Refrigerant
111.
Notes
Recyclable. NOT
compatible
with CFC 12
Absorbs water readily. NOT
compatible with mineral based
oils
SERVICE MATERIALS
Standard for Recovery I Recycle 1 Recharge Equipment.
Recovery rate
Cleaning capability
Oil separator
.Moisture indicator
Vacuum pump
Filter Replaceable with moisture indicator
Charge Hoses
Feature Requirement
0,014 - 0,062 m3 / min. (1,36 kg in 20 minutes)
15 parts per million (ppm) moisture; 4000 ppm oil; 330 ppm non condensable gases
in air
With hermetic compressor and automatic oil return
Sight glass type, sensitive to 15 ppm minimum
2 stage 0,07 - 0,127 m3 I min.
Selectable charge weight and automatic delivery
Dedicated HFC 134A port connections.
Iv. SERVICE DATA
Application
Charae weight
Lubricant capacity
Compressor pressure relief valve
Drive belt 12 cylinder
Drive belt tension
All figures apply to a cold belt
Special note
Drive belt tension measuring point
Drive belt 6 cyclinder
Drive belt tension
All figures apply to a cold belt
Drive belt tension measuring point
Specification
160 - 200 ml
Opening point 34 Bar. Closing point 27,6 Bar.
Maximum leakage rate of 113 liters 1 minute @ 41 Bar
7 rib Poly
-vee; 1450 mm long
Burroughs method
- New belt 790 N; If tension falls
below 270 N reset at 630 N
Clavis method
- New belt 114 to 120 Hz; If tension falls
below 70 Hz reset at 87 to 93 Hz
For new belt; rotate engine 3 revolutions minimum and
retension
Mid-way between crankshaft and compressor pulley ~
4
rib Poly-vee X 1010 mm long
Burroughs method
- New belt 556 to 578 N; If tension
falls below 245 N reset at 378 to 400
N
Clavis method - New belt 167 to 173 Hz; If tension falls
below 85 Hz reset at 127 to 133 Hz
Mid
-way between crankshaft and compressor pulley on
the upper run
1 Charge pressure I Heating element to increase pressure
Issue 1 August 1994 X300 VSM iii

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30
29
28 27
26
4 26 24 21 23 22 7 20 19 18 18 17 8
a
10
11
12
13
14
1s
1M-137
1. Tachometer 2. Speedometer
3. Battery Condition 4. FuelGauge 5. Oil Pressure 6. Coolant Temperature 7. Odometer /Trip Computer Display 8. Primary Warning Indicators (RED) 9. Exhaust Temperature 10. Low Oil Pressure 11. Seat Belt Not Fastened 12. Boot Open 13. DoorOpen 14. Coolant Level 15. Air Bag Fault 16. Status / Warning Lamps
17. Hand Brake On (RED) 18. Brake System Fault (RED)
19. Main Beam On (BLUE) 20. Direction Indicator Right (GREEN) 21. Status / Warning Lamps 22. Direction Indicator Left (GREEN) 23. Traction Control Off (GREEN) 24. Transmission Sport Mode (GREEN) 25. Charging Fault (RED) 26. Check Engine (AMBER)
27. Low Fuel Level (AMBER) 28. Anti - Lock Fault (AMBER) 29. Traction Control Fail (AMBER) 30. Bulb Fail (AMBER) 31. Washer Fluid Level (AMBER) 32. Transmission Fault (AMBER)
Fig.
1 Instrument Panel, Front Mew
w: The 'Premium Unleaded Fuel Only' caution is added to the Federal Market vehicles, also 'PARK BRAKE and
'BRAKE' replace international symbols used in all other markets.
m: Six cylinder vehicle version shown; the tachometer red-line on 12 cylinder vehicles starts at 6000 RPM.
The front of the
PECUSprogrammable instrument panel features 6 analog gauges, 22 warning lamps /tell tales and
a Liquid Crystal Display (LCD), the rear of the panel accommodates two PCB mounted connectors, one 24-way
connector, one 48-way connector, one instrument panel identification label and 14 light bulbs arranged in groups of
seven on either side. Three power inputs and two ground inputs are provided for 'POWER UP' and 'POWER DOWN'
sequence, the three power inputs comprising battery, ignition and auxiliary. The instruments are protected by a
housing
/ lens assembly.
15.2.7 Gauges
The two major gauges are tachometer and speedometer, and the four minor gauges indicate battery condition, fuel
level, oil pressure and coolant temperature.
Each gauge is contained
in a sealed non-serviceable can and must be renewed as a complete unit in case of any
damage.
CAUTION: Extreme care should be exercised when renewing instrument pand components to avoid damago to the delicate indicator needles.
X300 VSM 9 Issue 1 August 1994