1996 CHRYSLER VOYAGER oil type
[x] Cancel search: oil typePage 18 of 1938
ENGINE OIL
SAE VISCOSITY RATING INDICATES ENGINE OIL VISCOSITY
An SAE viscosity grade is used to specify the vis-
cosity of engine oil. SAE 30 specifies a single viscos-
ity engine oil. Engine oils also have multiple
viscosities. These are specified with a dual SAE vis-
cosity grade which indicates the cold-to-hot tempera-
ture viscosity range.
²SAE 30 = single grade engine oil.
²SAE 10W-30 = multiple grade engine oil.
API QUALITY CLASSIFICATION
The API Service Grade specifies the type of perfor-
mance the engine oil is intended to provide. The API
Service Grade specifications also apply to energy con-
serving engine oils.
Use engine oils that are API Service Certified.
5W-30 and 10W-30 MOPAR engine oils conform to
specifications.
Refer to Group 9, Engine for engine oil specifica-
tion.
GEAR LUBRICANTS
SAE ratings also apply to multiple grade gear
lubricants. In addition, API classification defines the
lubricants usage.LUBRICANTS AND GREASES
Lubricating grease is rated for quality and usage
by the NLGI. All approved products have the NLGI
symbol (Fig. 3) on the label. At the bottom NLGI
symbol is the usage and quality identification letters.
Wheel bearing lubricant is identified by the letter
ªGº. Chassis lubricant is identified by the latter ªLº.
The letter following the usage letter indicates the
quality of the lubricant. The following symbols indi-
cate the highest quality.
FLUID CAPACITIES
Fuel Tank.......................76L(20gal.)
Engine Oil, With Filter............4.3 L (4.5 qts.)
Engine Oil, W/O Filter.............3.8 L (4.0 qts.)
Cooling System 2.4L Engine........9.0 L (9.5 qts.)
Cooling System 3.OL Engine.......9.5 L (10.5 qts.)
Cooling System 3.3 or 3.8L Engine . .9.5 L (10.5 qts.)
Automatic Transaxle Service Fill.....3.8 L (4.0 qts.)
Automatic Transaxle
31TH/O-haul Fill...............8.0 L (8.5 qts.)
Automatic Transaxle
41TE/O-haul Fill...............8.6 L (9.1 qts.)
Power Steering.................0.81 L (1.7 pts.)
Fig. 2 API Symbol
Fig. 3 NLGI Symbol
0 - 2 LUBRICATION AND MAINTENANCENS
GENERAL INFORMATION (Continued)
Page 22 of 1938
²Replace spark plugs.
²Replace ignition cables.
²Inspect serpentine drive belt, replace if neces-
sary. This maintenance is not required if belt was
previously replaced.
²Drain and refill automatic transaxle fluid and
replace filter. Adjust band, if so equipped. (See note)
²Change AWD power transfer unit fluid.
78,000 Miles (125 000 km)
²Change engine oil.
²Replace engine oil filter.
81,000 Miles (130 000 km)
²Change engine oil.
²Inspect brake linings.
²Flush and replace engine coolant.
84,000 Miles (134 000 km)
²Change engine oil.
²Replace engine oil filter.
²Change AWD overrunning clutch and rear car-
rier fluid.
87,000 Miles (139 000 km)
²Change engine oil.
90,000 Miles (144 000 km)
²Change engine oil.
²Replace engine oil filter.
²Replace air cleaner element.
²Check PCV valve and replace if necessary.
Not required if previously changed. *
²Inspect serpentine drive belt, replace if neces-
sary. This maintenance is not required if belt was
previously replaced.
²Drain and refill automatic transmission fluid
and replace filter. Adjust bands, if so equipped. (See
note)
²Change AWD power transfer unit fluid.
²Inspect tie rod ends and boot seals.
²Inspect brake linings.
93,000 Miles (149 000 km)
²Change engine oil.
96,000 Miles (154 000 km)
²Change engine oil.
²Replace engine oil filter.
99,000 Miles (158 000 km)
²Change engine oil.
²Inspect brake linings.
102,000 Miles (163 000 km)
²Change engine oil.
²Replace engine oil filter.
105,000 Miles (168 000 km)
²Change engine oil.
²Inspect air cleaner element. Replace as
necessary.
²Inspect serpentine drive belt, replace if neces-
sary. This maintenance is not required if belt was
previously replaced.
²Drain and refill automatic transmission fluid
and filter. Adjust bands, if so equipped. (See note)
²Change AWD power transfer unit fluid.
²Change AWD overrunning clutch and rear car-
rier fluid.
108,000 Miles (173 000 km)
²Change engine oil.
²Replace engine oil filter.
²Inspect brake linings.
111,000 Miles (178 000 km)
²Change engine oil.
²Flush and replace engine coolant.
114,000 Miles (182 000 km)
²Change engine oil.
²Replace engine oil filter.
117,000 Miles (187 000 km)
²Change engine oil.
²Inspect brake linings.
120,000 Miles (192 000 km)
²Change engine oil.
²Replace engine oil filter.
²Replace air cleaner element.
²Inspect PCV valve. Replace as necessary. *
²Inspect serpentine drive belt. Not required if
replaced at 75,000, 90,000 or 105,000 miles.
²Drain and refill automatic transmission fluid
and replace filter. Adjust bands, if so equipped.
²Change AWD power transfer unit fluid.
²Inspect tie rod ends and boot seals.
* This maintenance is recommended by Chrysler to
the owner but is not required to maintain the war-
ranty on the PCV valve.
** If California vehicle, this maintenance is recom-
mended by Chrysler to the owner but is not required
to maintain the warranty of the timing belt.
NOTE: Operating vehicle more than 50% in heavy
traffic during hot weather, above 90ÉF (32ÉC), using
vehicle for police, taxi, limousine type operation or
trailer towing require the more frequent transaxle
service noted in Schedule ± B. Perform these ser-
vices if vehicle is usually operated under these con-
ditions.
Inspection and service should also be performed
anytime a malfunction is observed or suspected.
0 - 6 LUBRICATION AND MAINTENANCENS
GENERAL INFORMATION (Continued)
Page 41 of 1938
FRONT SUSPENSION
INDEX
page page
DESCRIPTION AND OPERATION
BALL JOINT............................ 11
COIL SPRING........................... 11
FRONT SUSPENSION DESCRIPTION......... 9
HUB AND BEARING ASSEMBLY............ 10
LOWER CONTROL ARM.................. 10
Mc PHERSON STRUT ASSEMBLY........... 10
STABILIZER BAR ATTACHING LINK.......... 10
STABILIZER BAR........................ 10
STEERING KNUCKLE.................... 10
SUSPENSION CRADLE (CROSSMEMBER)..... 9
WHEEL MOUNTING STUDS................ 11
DIAGNOSIS AND TESTING
BALL JOINT (LOWER).................... 12
HUB AND BEARING ASSEMBLY............ 12
LOWER CONTROL ARM.................. 12
Mc PHERSON STRUT.................... 11
STABILIZER BAR........................ 12
STEERING KNUCKLE.................... 12SERVICE PROCEDURES
SUSPENSION CRADLE THREAD REPAIR
PROCEDURE......................... 12
REMOVAL AND INSTALLATION
BALL JOINT............................ 22
FRONT WHEEL MOUNTING STUDS......... 28
HUB AND BEARING ASSEMBLY............ 25
LOWER CONTROL ARM.................. 19
Mc PHERSON STRUT.................... 13
REAR WHEEL MOUNTING STUDS.......... 29
STABILIZER BAR........................ 23
STEERING KNUCKLE.................... 14
DISASSEMBLY AND ASSEMBLY
BALL JOINT SEAL BOOT.................. 33
LOWER CONTROL ARM FRONT BUSHING.... 34
LOWER CONTROL ARM REAR BUSHING..... 35
Mc PHERSON STRUT.................... 30
STABILIZER BAR BUSHING................ 35
SPECIFICATIONS
FRONT SUSPENSION FASTENER TORQUES . . 36
SPECIAL TOOLS
FRONT SUSPENSION.................... 37
DESCRIPTION AND OPERATION
FRONT SUSPENSION DESCRIPTION
An independent Mc Pherson Strut type front sus-
pension is used on these vehicles. Vertical shock
absorbing Mc Pherson Struts attach to the top of the
steering knuckle and to the front strut tower. This
interconnection between the steering knuckle and the
body of the vehicle, provides for the correct steering
knuckle position. This steering knuckle position pro-
vides for the correct front Caster and Camber set-
tings for the vehicle, at the time the vehicle is
designed.
Lower control arms are attached inboard to the
cast aluminum front suspension cradle and outboard
to the bottom of the steering knuckle. Attachment of
the lower control arm to the steering knuckle is done
through a ball joint in the lower control arm.
During steering maneuvers, the strut and the
steering knuckle (through the ball joint and a pivot
bearing in the strut's upper retainer) turn as an
assembly.
SUSPENSION CRADLE (CROSSMEMBER)
This vehicle uses a one piece cast aluminum cradle
for the front suspension. The cradle is used as theattaching points for the lower control arms, stabilizer
bar and steering gear. The cradle also has the power
steering hoses and the chassis brake tubes attached
to it.
The cradle is mounted to the front frame rails at
four points, two on each side of the vehicle. The cra-
dle is isolated from the body of the vehicle using four
isolators, one located at each mounting bolt location.
WARNING: If a threaded hole in the suspension
cradle needs to be repaired, only use the type of
thread insert and installation procedure specified
for this application.
The threaded holes in the cradle that are
used for attachment of the lower control arm
rear bushing retainer, power steering hose and
chassis brake tubes can be repaired. The repair
is done by the installation of a Heli-Coilt
thread insert which has been specifically devel-
oped for this application. Refer to the Mopar
Parts Catalog for the specified Heli-Coil thread
insert to be used for this application. The pro-
cedure for installing the Heli-Coiltthread
insert is detailed in the Service Procedures sec-
tion in this group of the service manual.
NSSUSPENSION 2 - 9
Page 42 of 1938
Mc PHERSON STRUT ASSEMBLY
The front suspension of the vehicle is supported by
coil springs positioned around the strut assembly.
The springs are contained between an upper seat,
located just below the top strut mount assembly and
a lower spring seat on the strut fluid reservoir.
The top of each strut assembly is bolted to the
upper fender reinforcement (strut tower) through a
rubber isolated mount.
The bottom of the strut assembly attaches to the
steering knuckle with two through bolts. Caster is a
fixed setting on all vehicles and is not adjustable
when an alignment is performed. In the event the
camber setting on a vehicle requires adjustment, a
service strut is available which will provide a method
by which the camber can be adjusted.
The strut assemblies on this vehicle are inter-con-
nected by the front stabilizer bar through 2 link
assemblies attaching the struts to the stabilizer bar.
STEERING KNUCKLE
The steering knuckle (Fig. 1) is a single casting
with legs machined for attachment of the strut
damper, steering linkage, disc brake caliper, and
lower control arm ball joint. The steering knuckle
also has the front hub/bearing assembly mounted to
it. The hub is positioned through the bearing and
knuckle, with the constant velocity stub shaft splined
through the hub.
LOWER CONTROL ARM
The lower control arm is an iron casting. The lower
control arm is mounted to and isolated from the body
of the vehicle using 2 types of rubber bushings. The
front lower control arm bushing is the spool type and
is pressed into the lower control arm, while the rear
uses a bushing that is pushed over a stem on the
lower control arm. The front and rear of the lower
control arm is mounted to the cast crossmemberusing a pivot bolt through the center of the front
pivot bushing, and a retainer which traps the rear
bushing in the crossmember.
The ball joint is pressed into the control arm and
has a non-tapered stud with a notch for clamp bolt
clearance. The stud is clamped and locked into the
steering knuckle leg with a clamp bolt.
The ball joint is lubricated for the life of the vehi-
cle and does not require any periodic lubrication.
STABILIZER BAR
The stabilizer bar interconnects both Mc Pherson
strut assemblies of the vehicle and is attached
through rubber isolator bushings to the front suspen-
sion cradle
Jounce and rebound movements affecting one
wheel are partially transmitted to the opposite wheel
to stabilize body roll.
Attachment of the stabilizer bar to the front sus-
pension cradle is through 2 rubber-isolator bushings
and bushing retainers. The stabilizer bar to Mc Pher-
son strut assembly attachment is done utilizing a
sway bar attaching link. All parts of the stabilizer
bar are serviceable, and the stabilizer bar to cross-
member bushings are split for easy removal and
installation. The split in the stabilizer bar to cross-
member bushing should be positioned toward the
rear of the vehicle, with the square corner down
toward the ground, when the stabilizer bar is
installed in the vehicle.
STABILIZER BAR ATTACHING LINK
The stabilizer bar attaching links are used to
attach each end of the stabilizer bar to the front
strut assemblies. This reduces the fore-and-aft rate of
the stabilizer bar from the rest of the vehicle's front
suspension.
HUB AND BEARING ASSEMBLY
The Unit III Front Hub and Bearing Assembly is
used on all front wheel drive vans.
All hub and bearing assemblies mount to the steer-
ing knuckle the same way, but very by the wheel size
on the vehicle. Vehicles equipped with 14 inch wheels
have a 4 inch wheel mounting stud pattern. Vehicles
equipped with 15 inch wheels have a 4 1/2 inch
wheel mounting stud pattern. If a hub and bearing
assembly needs to be replaced, be sure that the
replacement assembly has the same size wheel
mounting stud pattern as the original part.
This unit is serviced only as a complete assembly.
It is mounted to the steering knuckle by four mount-
ing bolts that are removed from the rear of the steer-
ing knuckle.
Fig. 1 Front Steering Knuckle
2 - 10 SUSPENSIONNS
DESCRIPTION AND OPERATION (Continued)
Page 43 of 1938
COIL SPRING
Coil springs are rated separately for each corner or
side of the vehicle depending on optional equipment
and type of vehicle service. During service procedures
when both springs are removed, mark springs to
ensure installation in original position. Each coil
spring comes with a plastic sleeve on the second coil
of the spring. This plastic sleeve is a noise insulator
for the coil spring.
NOTE: If coil springs require replacement, be sure
that the springs needing replacement, are replaced
with springs meeting the correct load rating for the
vehicle and its specific options.
BALL JOINT
The ball joint (Fig. 2) is pressed into the lower con-
trol arm. The ball joint has a non-tapered stud with
a notch (Fig. 2) to provide clearance for the steering
knuckle clamp bolt and to provide retention of the
ball stud in the steering knuckle. The ball joint stud
is clamped and locked into the steering knuckle leg
using a pinch bolt. The ball joint used on this vehicle
is replaceable and if found defective can be serviced
as a separate component of the lower control arm
assembly.
WHEEL MOUNTING STUDS
If wheel attaching studs need to be replaced in the
hub and bearing assembly the studsCAN NOTbe
hammered out of the hub flange. If a stud is removed
by hammering it out of the bearing flange, damage to
the hub and bearing assembly will occur leading to
premature bearing failure.
Use the procedure and special tools shown in the
service procedures section for the wheel mounting
studs when replacing the wheel attaching studs.
The hub and bearing assembly does not require
removal from the steering knuckle or the rearknuckle to replace the wheel attaching studs in the
hub and bearing assembly.
DIAGNOSIS AND TESTING
Mc PHERSON STRUT
(1) Inspect for damaged or broken coil springs (Fig. 3).
(2) Inspect for torn or damaged strut assembly
dust boots (Fig. 3).
(3) Inspect the coil spring isolator on the lower
spring seat, (Fig. 3) for any signs of damage or dete-
rioration.
(4) Lift dust boot (Fig. 4) and inspect strut assembly for
evidence of fluid running from the upper end of fluid res-
ervoir. (Actual leakage will be a stream of fluid running
down the side and dripping off lower end of unit). A slight
amount of seepage between the strut rod and strut shaft
seal is not unusual and does not affect performance of the
strut assembly (Fig. 4). Also inspect jounce bumpers for
signs of damage or deterioration.
Fig. 2 Ball Joint Assembly
Fig. 3 Mc Pherson Strut Assembly Inspection
Fig. 4 Strut Assembly Leakage Inspection
NSSUSPENSION 2 - 11
DESCRIPTION AND OPERATION (Continued)
Page 44 of 1938
STEERING KNUCKLE
The front suspension knuckle is not a repairable
component of the vehicles front suspensionIT MUST
BE REPLACED.If bent, broken or damaged in any
way, do not attempt to straighten or repair the steer-
ing knuckle.
Service replacement of the front hub/bearing
assembly can be done with the front steering knuckle
remaining on the vehicle.
LOWER CONTROL ARM
If damaged, the lower control arm casting is ser-
viced only as a complete component. Inspect lower
control arm for signs of damage from contact with
the ground or road debris. If lower control arm shows
any sign of damage, inspect lower control arm for
distortion.Do not attempt to repair or straighten
a broken or bent lower control arm.
The serviceable components of the lower control
arm are: the ball joint assembly, ball joint assembly
grease seal and control arm bushings. Inspect both
control arm bushings for severe deterioration, and
replace if required. Inspect ball joint per inspection
procedure in this section of the service manual and
replace if required. Service procedures to replace
these components are detailed in the specific compo-
nent removal and installation sections in this group
of the service manual.
BALL JOINT (LOWER)
With the weight of the vehicle resting on the road
wheels, grasp the grease fitting as shown in (Fig. 5)
and with no mechanical assistance or added force
attempt to rotate the grease fitting.
If the ball joint is worn the grease fitting will
rotate easily. If movement is noted, replacement of
the ball joint is recommended.
STABILIZER BAR
Inspect for broken or distorted sway bar bushings,
bushing retainers, and worn or damaged sway bar to
strut attaching links. If sway bar to front suspension
cradle bushing replacement is required, bushing can
be removed from sway bar by opening slit and peel-
ing bushing off sway bar.
HUB AND BEARING ASSEMBLY
The condition of the front hub and bearing assem-
bly is diagnosed using the inspection and testing pro-
cedure detailed below.
The bearing contained in the Unit III front hub/
bearing assembly will produce noise and vibration
when worn or damaged. The noise will generally
change when the bearings are loaded. A road test of
the vehicle is normally required to determine the
location of a worn or damaged bearing.
Find a smooth level road surface and bring the
vehicle up to a constant speed. When vehicle is at a
constant speed, swerve the vehicle back and forth
from the left and to the right. This will load and
unload the bearings and change the noise level.
Where axle bearing damage is slight, the noise is
usually not noticeable at speeds above 30 m.p.h..
SERVICE PROCEDURES
SUSPENSION CRADLE THREAD REPAIR
PROCEDURE
WARNING: When performing this procedure use
only the thread inserts which are specified in the
Mopar Parts Catalog for this repair procedure.
These thread inserts have been specifically devel-
oped for this application and use of other types of
thread inserts can result in an inferior long term
repair.
The threaded holes in the front suspension cradle,
if damaged, can repaired by installing a Heli-Coilt
thread insert.
The threaded holes that are repairable using the
thread insert, are the lower control arm rear bushing
retainer mounting bolt holes, routing bracket attach-
ing locations for the power steering hoses, and brake
hose attachment holes.
This repair procedure now allows the threaded
holes in the suspension crossmember to be repaired,
eliminating the need to replace the crossmember if
damage occurs to one of the threaded holes.
The thread inserts for this application are specified
by part number in the Mopar Parts Catalog.Do not
use a substitute thread insert.
The specific tools and equipment required to install
the thread insert are listed below. Refer to the
Fig. 5 Checking Ball Joint Wear
2 - 12 SUSPENSIONNS
DIAGNOSIS AND TESTING (Continued)
Page 45 of 1938
instructions included with the thread insert for the
detailed procedure used for the installation of the
thread insert.
NOTE: The thread inserts for this application are
for the repair of M8x1.25 and M10x1.5 threads. Be
sure the correct tools are used for the required
thread insert size.
TOOL REQUIREMENT FOR M8x1.25 Thread
²8.3mm (5/16 in.) Drill Bit
²120É Countersink
²Heli-CoiltTap #4863-8
²Heli-CoiltGage #4624-8
²Heli-CoiltHand Inserting Tool 7751-8
²Needle Nose Pliers ± For Removal Of Thread
Insert Driving Tang
TOOL REQUIREMENT FOR M10x1.5 Thread
²10.5mm (25/64 in.) Drill Bit
²120É Countersink
²Heli-CoiltTap #4863-10
²Heli-CoiltGage #4624-10
²Heli-CoiltHand Inserting Tool 7751-10
²Needle Nose Pliers ± For Removal Of Thread
Insert Driving Tang
REMOVAL AND INSTALLATION
Mc PHERSON STRUT
REMOVAL
WARNING: DO NOT REMOVE THE NUT FROM THE
STRUT ROD WHILE STRUT ASSEMBLY IS
INSTALLED IN VEHICLE, OR BEFORE STRUT
ASSEMBLY SPRING IS COMPRESSED.
(1) Raise vehicle on jack stands or centered on a
frame contact type hoist. See Hoisting in the Lubri-
cation and Maintenance section of this service man-
ual, for the required lifting procedure to be used for
this vehicle.
(2) Remove the wheel and tire assembly from loca-
tion on front of vehicle requiring strut removal.
(3) If both strut assemblies are to be removed,
mark the strut assemblies right or left according to
which side of the vehicle they were removed from.
(4) Remove the hydraulic brake hose routing
bracket and the speed sensor cable routing bracket
from the strut damper brackets (Fig. 6).
NOTE: When removing nut from stud of stabilizer
bar attaching link, do not allow stud to rotate. Hold
stud from rotating by inserting a Torx Plus 40IP bit
in the end of the stud as shown in (Fig. 7).(5) Remove the stabilizer bar attaching link (Fig.
7) from the bracket on the strut assembly.
CAUTION: The steering knuckle to strut assembly
attaching bolts are serrated and must not be turned
during removal. Remove nuts while holding bolts
stationary in the steering knuckles.
(6) Remove the 2 strut assembly clevis bracket to
steering knuckle attaching bolts (Fig. 8).
(7) Remove the 3 nuts attaching the strut assem-
bly upper mount to the strut tower (Fig. 9).
INSTALLATION
(1) Install strut assembly into strut tower, aligning
and installing the 3 studs on the upper strut mount
into the holes in shock tower. Install the 3 upper
strut mount attaching nut/washer assemblies (Fig.
9). Then using a crow foot. tighten the 3 attaching
nuts to a torque of 28 N´m (250 in. lbs.).
Fig. 6 Brake Hose And Speed Sensor Cable Routing
Fig. 7 Stabilizer Bar Link To Strut Attachment
NSSUSPENSION 2 - 13
SERVICE PROCEDURES (Continued)
Page 101 of 1938
(5) With the aid of a helper, apply pressure to the
brake pedal until a pressure of 6895 kPa (1000 psi) is
obtained on the proportioning valve inlet gauge.
Then based on the type of brake system the vehicle is
equipped with and the pressure specification shown
on the following table, compare the pressure reading
on the outlet gauge to the specification. If outlet
pressure at the proportioning valve is not within
specification when required inlet pressure is
obtained, replace the proportioning valve.
(6) Remove the pressure test fittings and pressure
gauges from the proportioning valve.
(7) Install the chassis brake lines in the correct
ports of the proportioning valve.
(8) Install the pressure test fittings and pressure
gauges in the opposite inlet and outlet port of the
height sensing proportioning valve. Repeat steps 4
and 5 for the other proportioning valve.
(9) Remove the pressure test fittings and pressure
gauges from the proportioning valve.
(10) Install the chassis brake lines in the correct
ports of the proportioning valve.
(11) Install the actuator (Fig. 22) on the height
sensing proportioning valve. Adjust the proportioning
valve actuator. See Height Sensing Proportioning
Valve in the Adjustment Section in this group of the
service manual for the adjustment procedure.
(12) Bleed both rear hydraulic circuits at the rear
brakes.
(13) Road test vehicle.
BRAKE FLUID CONTAMINATION
Indications of fluid contamination are swollen or deteri-
orated rubber parts.
Swollen rubber parts indicate the presence of
petroleum in the brake fluid.To test for contamination, put a small amount of
drained brake fluid in clear glass jar. If fluid sepa-
rates into layers, there is mineral oil or other fluid
contamination of the brake fluid.
If brake fluid is contaminated, drain and thor-
oughly flush system. Replace master cylinder, propor-
tioning valve, caliper seals, wheel cylinder seals,
Antilock Brakes hydraulic unit and all hydraulic
fluid hoses.
RED BRAKE WARNING LAMP TEST
For diagnosis of specific problems with the red
brake warning lamp system, refer to Brake System
Diagnostics Chart 2, located in the Diagnosis And
Testing section in this group of the service manual.
TRACTION CONTROL LAMP TEST
The traction control light is tested by cycling the
traction control switch on and off. The traction con-
trol switch used on this vehicle is a momentary con-
tact type switch. The test procedure for the traction
control light is performed as follows: Press the trac-
tion control switch once and the ªTrac Offº lamp will
illuminate. With the ªTrac Offº lamp illuminated,
press the traction control switch again and the ªTrac
Offº lamp will turn off.
If the traction control lamp does not function as
described in the test above, diagnosis of the traction
control switch, lamp, wiring and other related compo-
nents of the traction control system is required.
STOP LAMP SWITCH TEST PROCEDURE
The required procedure for testing the stop lamp
switch is covered in Group 8H, Vehicle Speed Control
System in this service manual. The electrical circuit
tests for stop lamps is covered in Group 8W Rear-
Lighting in this service manual.
WHEEL
BASEDRIVE
TRAINSALES CODEBRAKE SYS-
TEMSPLIT POINT SLOPEINLET PRES-
SURE PSIOUTLET
PRESSURE
PSI
SWB FWD BRA+BGF149DISC/DRUM
W/O ANTILOCKVAR. .30 1000 PSI 250-350 PSI
SWB FWDBRA+BGF
BRB+BGF
BRV+BGF149,159,159HD
DISC/DRUM
WITH ANTILOCK25 BAR .59 1000 PSI660-780
PSI
LWB FWD BRA+BGF149DISC/DRUM
W/O ANTILOCKVAR. .30 1000 PSI 250-350 PSI
LWB FWDBRA+BGF
BRB+BGF
BRV+BGF149,159,159HD
DISC/DRUM
WITH ANTILOCK25 BAR .59 1000 PSI 660-780 PSI
SWB AWD BRE+BGF159DISC/DISC
WITH ANTILOCK25 BAR .36 1000 PSI 525-640 PSI
LWB AWD BRE+BGF159DISC/DISC
WITH ANTILOCK41 BAR .36 1000 PSI 690-800 PSI
NSBRAKES 5 - 19
DIAGNOSIS AND TESTING (Continued)