1994 JAGUAR XJ6 handbrake

(if applicable) term(s) (or Eng-
lish Equivalent)
paragraph para
parking brake
Park Neutral Position PNP
Park Neutral Position Switch PNPS
Dart number I Dartno.
I pin boss
ping, pinging
piston pin
(also wrist pin)
power assisted steering
power steering pressure
. powertrain
program
Droaramable or Droarammable I
Droaramed or Droarammed I
Droaramer or Droarammer I
programing or programming
Programmable Electronic Control
I PECUS
Units System
I Programmable Read-only Mem- I PROM
on/ Prussian blue
Pump
purge cock I
indicates the selected non-drive modes of
the (automatic) transmission
boss in the piston wall (two per piston) which
is bored to
accept one end of the piston pin
metallic pinging sound caused by detonation
in the combustion chamber, usually caused
by incorrect grade of fuel (too low octane) or
over
-advanced ignition timing (see also knock)
pin which connects the connecting rod to the
piston, and permits articulation between the
two.
hvdraulic
DumD-assisted steerina svstem
the elements of
a vehicle by which motive
power is generated and transmitted to the
driven axle
sequence of events to be performed by
a
control module/comDuter
process whereby a common ECM is programmed on the production line to suit
the market requirements of
a particular vehicle
ROM with some provision for setting the
stored data after manufacture
device used to raise, transfer, or compress
fluids by suction, pressure or both handbrake
NDS, NGS, TSN,
gearbox sensor
piston pin boss
pinking
gudgeon pin
Dower steerina
drive line
programme, pro
-
gram
programmable
programmed
programmer
programming
enaineer's blue
drain plug, drain
tap
Issue 1 August 1994 X300 VSM 21

0 2.1 JACKING AND LIFTING
2.1.1. Safety Precautions
The following safety precautions must be observed when
raising the vehicle to perform service operations:
0 Whenever possible use a ramp or a pit in preference
to a jack, when working beneath a vehicle.
0 Never rely on a jack to support a vehicle; use axle
stands or blocks under the vehicle jacking points to
provide rigid support.
0 When working beneath a vehicle, chock the wheels in
addition to applying the handbrake.
0 Ensure that the vehicle is standing on firm, level
ground before using the jack
0 Check that any lifting equipment used has adequate
capacity for the load being lifted and is in full working
order.
2.1.2 Jacking Points
The jack provided in the vehicle toolkit engages with jacking
points situated below the body side members, in front of the
rear wheels (Fig.
1) and behind the front wheels (Fig. 2).
Fig. 1
Fig. 2
Fig. 3
2.1.3 WheeLFree L i#t
Use of a wheel-free lift is recommended for maintenance operations. Support the vehicle using lifting pads at the four
jacking points (Fig. 3).
issue 1 August 1994 X300 VSM 1

gg Jacking, lifting & Vehicle Recovery
2.2.4 Transporting
If thevehicle is being transported on a trailer or flatbed transporter (Fig. I), the handbrake must be applied, the wheels
chocked and if fitted with an automatic transmission, the gear selector lever moved to neutral, 'N' (see Gear-shift
Interlock).
e
JOS-031
Fig. 1
CAUTION: Do not select 'P' because the parking lock mechanism may be damaged by the continuous slight forward
and backward movement of the vehicle on the transporter.
There are four tie-down brackets on the vehicle underbody. Do not attach the tie down hooks of the transporter to the
towing eyes of the vehicle.
2.2.5 Towing Recovery
Adhereto local regulationsforthetowing ofvehicles. In certain countriesthe registration number ofthetowing vehicle
and an 'ON TOW sign or warning triangle must be displayed in a prominent position at the rear of the vehicle which
is being towed.
WARNING: WHEN THE ENGINE
IS NOT RUNNING, THE STEERING AND BRAKES WILL NO LONGER BE
ACCUMULATOR. THEREFORE, BE PREPARED FOR
HEAVY STEERING AND THE NEED FOR GREATLY
INCREASED BRAKE PEDAL PRESSURE.
POWER-ASSISTED.
APPLICATIONS
OF THE BRAKE PEDAL WILL GRADUALLY DEPRESSURIZE THE
*The vehicle may be towed by another for a SHORT DISTANCE ONLY (maximum
0,8km / O.Smile), with the gear lever
in neutral (N) provided that a speed of 48 km / h (30 mile / h) is not exceeded.
2.2.6
The vehicle must be towed with the rear wheels clear of the ground, see suspended towing.
Vehicles with Defective Automatic Transmission:
Issue 1 August 1994 4 X300 VSM

Automatic Transmission (V12 & AJl6 Supercharged) Pomrtrain
8.2.1 GENERAL DESCRIPTION
This section provides information relating to the Powertrain 4L80-E transmissions fitted to the 4,O liter supercharged
engine (4,OL SC) and to the 6,O liter engine (6,OL).
The Powertrain 4L80-E is a four-speed, high torque capacity, electronically controlled automatic transmission, which
comprises a torque converter with lock-up direct drive clutch and three planetary gear sets. Five multiple diskclutches,
one intermediate sprag clutch assembly, two roller clutch assemblies and two band assemblies provide the drive el- ements necessary for correct sequential gear engagement and operation.
The torque converter containing
a pump, a turbine (rotor), a stator assembly, and a clutch pressure disksplined to the
turbine, acts as a fluid coupling for smooth torque transmission from the engine. The converter also supplies addi- tional torque multiplication when necessary, and the torque converter clutch (TCC) pressure disk provides a mechan- ical direct drive or 'lock-up' above a certain speed in top gear for greater fuel economy.
Gearshift operations are controlled from the Transmission Control Module (TCM), which governs the electronically
controlled valve body situated within the transmission.
Three planetary gear sets provide reverse and the four forward ratios, the changing of which is fully automatic in rela
- tion to load, vehicle speed and throttle opening. The Transmission Control Module receives and integrates various ve- hicle sensor input signals, and transmits operating signals to the solenoids located in the control valve assembly.
These solenoids govern the transmission operating pressures, up-shift and down-shift gear selection patterns and
also the torque converter clutch operation by pulse width modulated control.
8.2.1.1 Gear Ranges
Selectable gear positions are: P - Park, R - Reverse, N - Neutral, D - Drive, 3, 2.
P - Park position of the shift lever provides a mechanical locking of the output shaft of the transmission, and as such,
must only be engaged when the the vehicle is stationary. In addition, and for
extra safety, the handbrake should also
be applied. It is necessary to have the ignition ON and the footbrake applied to move the shift lever from the Park
position. For ignition key removal the shift lever must be in the Park position. The engine can be started in the Park
position.
R - Reverse enables the vehicle to be operated in a rearwards direction. The engine cannot be started in the Reverse
position.
N
-Neutral position enables the engine to be started and operated without driving the vehicle. It also allows the vehicle
to be moved manually for access, ie for removal of the propeller shaft.
D
-Drive position allows the automatic selection of all four forward gear ratios during normal driving conditions for
maximum efficiency and fuel economy. On acceleration, down-shifts are obtained by depressing the accelerator pedal
or by manual selection. The engine cannot be started in this position.
3
- Manual third position allows automatic operation of the three lower gear ratios but inhibits selection of the fourth
ratio. This position is used for towing a trailer or negotiating hilly terrain when greater engine braking control is re- quired. The engine cannot be started in this position.
2 - Manual second position allows automatic operation of the two lower gear ratios but inhibits selection of the third
and fourth ratios. This position is used for heavy traffic congestion or negotiating hilly terrain when even greater en
- gine braking control is required than is provided by manual third. This ratio may be selected at any vehicle speed - even if the transmission is in third or fourth ratio, the transmission will immediately down-shift to second gear pro- vided the vehicle speed is below 137 km / h (85 mile / h). The engine cannot be started in this position.
N.g!b: With the Performance Mode switch in the NORMAL position, the vehicle will pull away in second gear. How- ever, if more than 75 per cent of throttle is applied when the vehicle speed is between zero and 13 km/ h (8 mile / h), then first gear will be selected. From 13 to 61 km/ h (8 to 38 mile/ h) first gear is obtainable by 'kick-down'.
In 'sport' mode thevehicle pulls away in first gear and the transmission operatesfully in all four forward gears.
X300 VSM 1 Issue 1 August 1994

Driveshafts & Final Drive
9.3
SRO 51.10.24
Disconnect vehicle battery ground lead.
. Support the vehicle at the rear.
OUTPUT SHAFT END FLOAT, CHECK
Mount a dial test indicator (DTI) to the differential housing with the probe resting on the output shaft flange (DTI probe must be parallel to the output shaft center line and NOT at an angle).
. Push the wheel 1 shaft assembly inwards and zero the DTI; pull outwards and note the reading.
. If the end float exceeds 0,15 mm; firstly verify the shim preload and if this is found to be correct, renew the output
shaft bearing. See 51.10.22. this section, for shim check and renew operations.
9.4
SRO 51.20.19
rn Disconnect vehicle battery ground lead.
See operation 51.10.22. this section, for process detail, less bearing 1 oil seal renew.
OUTPUT SHAFT HOUSING ‘0’ RING, RENEW
Prior to removal of shaft assembly check output shaft end float in accordance with operation 51.10.24.
9.5 OIL SEAL - PINION FLANGE, RENEW
SRO 51.20.01
. Disconnect vehicle battery ground lead.
. Support the vehicle at the rear.
. Disconnect main handbrake cable at compensator.
’Match mark‘ the FLEXIBLE COUPLING to the differential DRIVE FLANGE and remove fixings.
Remove fixings center bearing to crossmember and push drive shaft rear section forward to disengage from pinion
spigot.
CAUTION: Under no circumstances must the flexible coupling (or its fixings) be loosened or removed from the drive
shaft flange.
Support the drive shaft, do not allow it to hang.
9 ‘Match mark‘ the drive flange retaining nut to both the pinion and the drive flange (Fig. 1).
. Slacken the flange retaining nut approximately half a turn and retighten to the ‘match mark‘ noting the required force.
. Remove the retaining nut, washer and drive flange.
CAUTION: Use only special tools; 18G 1205 to restrict rotation and JD 156 to remove drive flange.
. Inspect the drive flange oil seal surface for damage corrosion or grooving and replace as necessary.
. Remove oil seal from differential case taking care not to damage the machined counterbore.
rn Clean seal counterbore.
. Using special tool JD 198 fit replacement oil seal to differential case ensuring that, seal is square, fully seated and
If the force does NOT exceed 135 Nm, the final drive unit MUST be replaced.
Do not use abrasive cloth, or paper, to remove imperfections from the seal surface.
the
lip spring is not dislodged.
Apply grease to drive flange seal diameter and refit the flange to the pinion in the original position.
U: Do not hammer the drive flange onto the pinion; pull down with the drive flange nut.
Tighten the drive flange nut to the original noted torque PLUS 10%.
* Check that the pinion spigot radial run-out is to specifica- tion.
Fitting and reassembly is the reversal of this procedure en
- suring that drive shaft fixings are renewed and that the
shaft is aligned in accordance with Sub-Section 9.2.
Correct the final drive oil level if required.
. Tighten all fixings to specification.
Fig. 1
0
Issue 1 August 1994 4 X300 VSM

Driveshafts & Final Drive
9.8 FINAL DRWE UNIT RENEW
SRO 51.25.13
. Disconnect vehicle battery ground lead.
. Support the vehicle at the rear and remove the rear road
wheels.
Disconnect brake pad wear sensor multi-plug at RH hub
carrier and remove tie straps from wishbone. Release
ABS speed sensors at
RH and LH hub carriers and remove
tie straps from wishbones.
. Remove rear brake calipers, see Section 12, and support
at bump stop. Disconnect main handbrake cable at com- pensator, short cables at joining piece and remove com- pensator.
. Remove fixings, FLEXIBLE coupling to differential DRIVE FLANGE.
CAUTIW: Under no circumstances must the flexible
coupling (or itsfixings) be loosened or removed
from the drive shaft flange.
. Remove fixings center bearing to crossmember (1 Fig. 1) and push drive shaft rear section forward to disengage
from pinion spigot. Fig. 1
w: Take account of any shims located between the center bearing and the crossmember.
. Release fixings and remove, over axle exhaust pipe mounting from wide mounting bracket.
. Support the rear suspension assembly from below and remove fixings from RH and LH sides in the following order:
1. Shock absorber to body upper fixings.
2. Differential strut to body (1 Fig. 2).
3. 'A' frame bush (2 Fig. 2).
4. Lower mounting bracket assembly to body (3 Fig. 2).
. Carefully lower the unit clear of the vehicle and place in a safe working location.
. Release handbrake cable to wide mounting bracket clips.
. Disconnect RH and LH axle shafts from differential couplings, note camber shim and discard fixings.
. Remove wishbone pivot bolt, washers and remove wisbone / hub / axle shaft assembly RH and LH.
issue 1 August 1994 6 X300 VSM

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

Brakes (e#
12.1.7. Parking Brake
J70 293
W
1. Parking brake lever 2. Front cable 3. Relay lever 4. Driveshaft securing bracket 5. Intermediate cable 6. Cable equalizer
7. In-line cable connector 8. Rear cable RH 9. Rear cable LH
10. Parking brake switch and harness 11. Parking brake warning lamp
Fig.
1 Parking Brake Layout
All vehicles are fitted with identical parking brake systems.
When the parking brake lever
is operated, the cable system applies equal force to both RH and LH brakeshoe expander
assemblies. The brake shoes expand and press against the hub assembly, locking the rear wheels.
The handbrake lever, ratchet assembly and warning
light switch (item 1) are mounted on the transmission tunnel by means of threeflanged screws a blanking plate and gasket. The front cable (item 2) is connected to the relay lever (item 3) which is mounted on the driveshaft securing bracket (item 4). The relay lever operates the intermediate cable (item 5) which incorporates an adjusting screw to allow cable tension to be adjusted. The intermediate cable operates the
equalizer which ensures that equal force is applied to RH and LH parking brakesvia rearcable RH (item 8) and rear cable
LH (item 9). The rear cables are adjustable to allow cable tension to be adjusted.
The park brake switch (item 10) latches when the lever
is operated and lights the parking brake warning light (item 11 mounted in the instrument panel.
X300 VSM Issue 1 August 1994