differential JAGUAR X308 1998 2.G User Guide

Re
ar Drive Axle/Differential - Axle Shaft
In-v
ehic
le Repair
Remov
a
l
S
p
ecial Tool(s)

Hub remover

2
04-011

Thread protector
JD
1D
/ 7

1. Disc
onnect the battery ground lead.
2. Support the vehicle at the rear and remove the appropriate
rear road wheel.
3. Remove and discard the hub nut, apply the brakes to prevent
rotation.
4. Remove the brake caliper in acco rdance with 70.55.03, but do
not disconnect the hydraulics.

5. Pr
epare the hub carrier.
1. 'Match mark' the hub carr ier fulcrum bolt head and
the carrier.
6. Prepare the hub carrier.
1. Slacken the hub ca rrier fulcrum nut.
2. Disconnect the ABS sensor multiplug at the hub

carri
er

7. Protect
the driveshaft thread wi
th special tool JD 1D / 7.

8. Wi
thdraw the hub from the axle shaft
8. CAUTION: Take care not to introduce debris into
the hub bearings, or damage the seal
U
sing service tool 204 - 011,
push the axle shaft through
the hub

9. NO
TE: In the wheel-free condition, the axle is in tension and
the flanges will separate as the nuts are withdrawn
Release the axle shaft 1. Remove and discard the (4) nuts axle shaft to differential output shaft
2. Clear the axle shaft from the output flange studs
3. Remove and keep safe the camber shim
10. NOTE: The axle shaft nuts may damage the studs upon
removal; check the thread conditio n by engaging a new nut 2 or 3
threads by hand.
Inspect the output flange studs and renew if there is evidence
of damage / distortion
11. Clean all traces of thread lo cking agent from the hub splines

R
ear Drive Axle/Differential - Differential Output Shaft Bearing
In-v
ehicle Repair
Remov

al
S
pecial Tool(s)

Replacer hu

b bearing
204-083

1. Di
sconnect the battery ground lead
2. Raise the vehicle for access

3. NO
TE: In the wheel-free condition, the axle is in tension and
the flanges will separate as the nuts are withdrawn
Release the axle shaft
1. Match mark the output an d axle shaft flanges (if the
output shaft is to be re-used)
2. Remove and discard the (4) nuts axle shaft to differential output shaft
3. Remove and keep safe the camber shim
4. T
horoughly clean the area around the output shaft housing and
differential case

5. Relea
se the circlip and withdraw the output shaft assembly
6. Prepare the retaining collar for removal

R
ear Drive Axle/Differential - Drive Pinion Flange and Drive Pinion Seal
In-v
ehicle Repair
Remov

al
S
pecial Tool(s)

Drive sh

aft flange wrench
205-053

D
rive shaft flange remover replacer.

205-272

1. Di
sconnect the battery ground lead.
2. Raise the vehicle for access.

3. Disconnect the main parking br ake c
able at the compensator.
4. Release the parking brake relay lever mounting bracket and
allow the assembly to hang down.
R
emove the fixings (4).

5. Disconne
ct the driveshaft fr
om the differential flange.
5. CAUTION: Under no circumstances must the
flexible coupling (or its fixings) be loosened or removed
from the drive shaft.
1. 'Match mark' the FLEX IBLE COUPLING to the
differential DRIVE FLANGE.
2. Remove the fixings (3).
6. Support the d
riveshaft, do not allow it to hang.

7. Re
move the fixings (2) center
bearing to mounting bracket and
push the drive shaft rear sectio n forward to disengage from the
pinion spigot.

8. Remove the drive flange pinion nu
t.
1. Using a suitable tool, re lieve the staked portion from
the pinion keyway.
2. Remove the pinion nut using a suitable socket and tool 205 - 053 to resist rotation.
9. Remove the drive flange assembly.
1. Use tool 205-272 (puller) to remove the drive flange / seal assembly.

Rea
r Drive Axle/Differential - Axle Assembly
Re
mo
val and Installation
Remov
a
l
•

NOTE: The pinion flange shown in this procedure is NOT intended to be a true representation
S
p
ecial Tool(s)

Suspensi
on
Spring Compressor Tool
204-179

1. Disc
onnect the battery ground lead
2. Raise the vehicle for access and remove both rear roadwheels
3. Remove the rear suspensi on assembly, 51.25.13
4. CAUTION: Do not lift the assembly by the axle shafts,
this may cause damage
Using a suitable hoist, place the assembly onto a workbench

5. Locat e
the spring compressor 204
- 179 to the RH road spring
6. Tighten the spring compressor evenly to release the spring
load on the damper

The rotary distri
butor and control sleeve turn relative to ea
ch other, forming the unequal restrictions which create the
differential pressures to operat e the rack piston; the displacement of the di stributor and sleeve being controlled by the
elastic deformation of a torsion bar which is concentric with the pinion and valve. Refer to Positive Center-Feel Torsion Bar
in this sub-sectio n.
The hydraulic reaction piston moves axially, relative to th e rotary distributor, and is connected to the control sleeve by a
three-bearing helical screw. Pressure applied either side of the hydraulic reaction piston is translated into a rotational force
which increases steering effort. For detail s of Servotronic speed-sensitive steering control, refer to Servotronic Control in
this sub-section.
When the vehicle is travelling straight ah ead, the valve restrictions are balanced, thus providing equal pressures on either
side of the rack piston. When load is a pplied at the steering wheel, the two halves of the control valve (rotary distributor
and control sleeve) are displaced making the restrictions unequa l. The resulting differential pressures on either side of the
rack piston, assist the steering rack to mo ve to left or right. As the turning load is removed, the pressures equalize again
and the steering return s to the straight ahead position , aided by suspension geometry.
Serv
otronic Control

P a
rts List
The Servotronic system provides steering assistance which is pr oportional to vehicle speed. It comprises the steering control
module, and Servotronic valve forming part of the hydraulic control valve assembly.
The Servotronic valve is an electro-hydrauli c device with a variable orifice, which varies in size according to the position of a
needle valve. The needle valve is controlled by a solenoid in response to a variable current input from the steering control
Ite
m
Part
Number
Descr
iption
1—Vehi
cl
e speed input
2—Steeri
ng control
module
3—Servotronic valve
4—Hydraulic

control valve housing
5—PAS stee
rin
g pump
6—Batt
ery

Sym
ptom #2
Sy
mptom #2
Sym

ptom #3
Sy
mptom #3
No
cooling
Compressor sei
zed
Compressor seal failure
Compressor valve or piston damage
*
*
*
R
enew compressor
*
Compressor cl
utch / circuit faulty
*
R
efer to PDU
*
D
rive belt slack / broken
*
Adjust or r
enew
*
B
lower motor / circuit faulty
Pressure switch / circuit fault
*
*
R
efer to PDU
*
Total l
oss of refrigerant caused by broken pipe or joint
*
Repair / renew. Check code 2
3
*
P
artial loss of refrigerant caused by leaking joint or pipe
*
R
epair / renew, check fault code #23
*
Conden
ser damage
*
Re
new, check fault code #23
*
Bl
ocked receiver / drier filter
*
R
enew receiver / drier
*
Evaporator senso
r / circuit faulty
*
R
efer to PDU, check fault code #13
*
Bl
ocked pollen filter (if fitted)
*
Cle
an or renew
*
• NOTE: Should a leak or low refrigerant be established as the cause of INSUFFICIENT COOL ING, follow the procedures
Recovery / Recycle / Recharge, this section, and ob serve all refrigerant and oil handling instructions.
Sy
mptom
Possib
le Sources
Acti
on
Insuffi

cient
cooling
Compre
ssor clutch slipping
*
R
enew clutch assembly
*
Fl
aps or vents closed / seized
*
Check f
ault codes #41 to 46
*
Bl
ower circuit fault
*
R
efer to PDU
*
Bl
ocked condenser matrix / fins
*
Check hig
h / low side pr
essures / renew. Check /
clean fins
*
Bl
ocked evaporator matrix
*
Check hig
h / low side
pressures / renew
*
Bl
ocked pollen filter (if fitted)
*
Cle
an or renew
*
Evaporator temp
erat
ure sensor faulty
*
R
efer to PDU
*
P
artial loss of refrigerant caused by leaking joint

or pipe
*
R
epair / renew
*
Blocked expan
sion valve
*
Check hig
h / low side
pressures / renew
*
Expans
ion valve fault
*
Chec
k system pres
sure differential
*
C
ollapsed air conditioning hose hose
*
Check hig
h / low side
pressures / renew
*
Moi
sture or air in the system
*
Chec
k system pressures
*
Low r
efrigerant charge
*
Initiate recovery
procedure, check fault code #23
*
Coo
lant flow valve open
*
Chec
k operation
*
Sy
mptom
Possib
le Sources
Acti
on
Int

ermittent cooling
Compre
ssor clutch slipping
*
R
enew clutch assembly
*
Compressor cl
utch circuit faulty
Blower(s) circuit faulty
*
*
R
efer to PDU
*
Motorized in-car aspirator faulty

*
R
efer to PDU, check fault code #11
*
Evaporator temp
erature sensor faulty

*
R
efer to PDU, check fault code #13
*
Bl
ocked condenser matrix / fins
*
Check hig
h / low side pressures / renew. Check / clean fins

*
Bl
ocked evaporator matrix
*
Check hig
h / low side
pressures / renew
*


Sym
ptom #1
Sy
mptom #1
Sy

mptom
Possib
le Sources
Acti
on

Refrigeration Cycle

The Compressor draws low pressure, lo
w te
mperature, refrigerant from the evaporat or and, by compression, raises the
refrigerant temperature and pressure. High pressure, hot, vaporized refr igerant enters the condenser, where it is cooled by
the flow of ambient air. A change of state occurs as the refrigerant cools in the condense r and it becomes a reduced
temperature, high pressure, liquid.
From the condenser, the liquid passes into the receiver drier which has three functions:
Storage vessel
for varying sy
stem refrigerant demand.
F
ilter to remove sy
stem contaminants.
Mo
isture removal via the dessicant.
With the passage through the receiver drie r completed, the liquid refrigerant, still at high pressure, enters the expansion
valve where it is metered through a contro lled orifice, which has the effect of reducing the pres sure and temperature. The
refrigerant, now in a cold atomized st ate, flows into the evaporator and cools the air passing through the matrix.
As heat is absorbed by the refrigerant, it once again changes state, into a vapor, and returns to the compressor for the
cycle to be repeated.
An automatic safety valve is incorporated in the compressor, which will operate if the system pressure rises above 41 bar.
The valve will reseat when the pressure drops below 27,6 bar.
It
em
Par
t Number
De
scription
1—Compre

ssor
2—Conden

ser
3—Re

ceiver drier
4—Expans

ion valve
5—Evaporator


6—4

-level pressure switch


The terms 'high' and 'low'

pressure (or si
de) refer to the pres sure differential betw een the compressor and expansion valve
ports. This differential is critical to sy stem fault diagnosis and efficiency checks.

Key to Plan
Standard Wheelbase Body Dimensions- Side View
KeyLocation
1Front face body-bumper strut/mounting point
2Rearmost hole, vee-mount to crush tube
3Front Master Datum Plan, centre li ne of front crossmember rear mount ing at main floor RH longitudinal
4Rearmost hole, transmission mounting at main floor RH longitudinal
5Handbrake rear lever bracket fixings
6Rear Master Datum Plan, rear longitudinal
7Tapped boss, rear suspension 'A' frame mounting bush
8Rear suspension spring-pan damper mounting
9Rear suspension differential strut mounting
10Rear face body-bumper strut/mounting point
11Driveshaft centre bearing mounting