ignition DODGE NEON 1999 Service Repair Manual

STEERING COLUMN
INDEX
page page
DESCRIPTION AND OPERATION
STEERING COLUMN ASSEMBLY............ 35
STEERING GEAR TO STEERING
COLUMN COUPLING................... 36
DIAGNOSIS AND TESTING
STEERING COLUMN TO STEERING
GEAR COUPLING...................... 36
STEERING COLUMN..................... 36REMOVAL AND INSTALLATION
STEERING COLUMN SERVICE
PROCEDURE WARNINGS............... 37
STEERING COLUMN..................... 38
SPECIFICATIONS
STEERING COLUMN FASTEER
TORQUE SPECIFICATIONS.............. 42
DESCRIPTION AND OPERATION
STEERING COLUMN ASSEMBLY
Both the standard non-tilt and tilt steering col-
umns (Fig. 1) have been designed to be serviced only
as complete assemblies, if a component of the steer-
ing column is defective. The only replaceable compo-nents of the steering column assembly, are the key
cylinder, ignition switch, multi- function switch, clock
spring, trim shrouds and steering wheel. These
replaceable components of the steering column can be
serviced without requiring removal of the steering
column from the vehicle.
Fig. 1 Non-Tilt And Tilt Steering Column Assemblies
PLSTEERING 19 - 35

(13) Remove steering wheel assembly from steer-
ing column shaft using Puller, Special Tool C-3428-B
or equivalent.
(14) Remove key lock cylinder from steering col-
umn. Key lock cylinder is removed from steering col-
umn using the following procedure. Place the key
lock cylinder in the Run position. Then through the
hole in lower shroud, (Fig. 14) depress lock cylinder
retaining tab and remove key lock cylinder.
(15) Remove the 3 screws attaching the upper and
lower shroud to the steering column (Fig. 15). First
remove lower shroud from steering column, then
release tilt lever and tilt steering column to its low-
est point. Then remove upper shroud from steering
column.
(16) Remove retaining pin from pinch bolt in steer-
ing column upper coupling (Fig. 16).
(17) Loosen the steering column upper coupling
pinch bolt retaining nut and remove pinch bolt (Fig.
16) from steering coupling.(Pinch bolt nut iscaged to coupler and is not removable.)Then
separate steering column shaft coupling from lower
steering coupling.
(18) Remove the 2 nuts attaching the lower
mounting bracket of the steering column to the steer-
ing column mounting bracket.
(19) Remove the 2 nuts mounting the steering col-
umn upper bracket to the steering column support
bracket (Fig. 17).
(20) Lower steering column in the steering column
access opening of the lower instrument panel.
(21) Remove routing clip (Fig. 18) holding wiring
harness to jacket of steering column. Then remove
wiring harness connectors from the multi- function
switch and the windshield wiper switch (Fig. 18).
(22) Remove the vehicle wiring harness connec-
tors from the ignition switch and clock spring (Fig.
19).
Fig. 14 Key Lock Cylinder Access Hole In Steering
Column Shrouds
Fig. 15 Upper And Lower Steering Column Shrouds
Fig. 16 Upper To Lower Steering Column Coupler
Disassembly
Fig. 17 Steering Column Upper Support Bracket
Attaching Nuts
19 - 40 STEERINGPL
REMOVAL AND INSTALLATION (Continued)

(23) Remove steering column from vehicle through
the drivers door of the passenger compartment. Use
care to avoid damaging the paint or interior trim.
INSTALL
(1) Install steering column into steering column
access opening in lower instrument panel.
(2) Install the vehicle wiring harness connectors,
into the ignition switch and clock spring assembly
(Fig. 19).
(3) Install vehicle wiring harness connectors into
multi-function switch and turn signal switch (Fig. 18)
on steering column assembly. Install routing clip
(Fig. 18) holding wiring harness to jacket of steering
column.
(4) Install the studs in the steering column sup-
port bracket, into the slots in the aluminum capsules
in the upper mounting bracket of the steering column
(Fig. 17). Partially install the 2 upper steering col-
umn assembly mounting bracket to support bracketattaching nuts (Fig. 17).Do not tighten the 2
mounting nuts at this time.
(5) Install and securely tighten the 2 nuts mount-
ing the steering column lower mounting bracket to
the steering column support bracket.
(6) Install the upper and lower steering column
shrouds onto the lock housing of the steering column
assembly. Install and securely tighten the 3 upper to
lower steering column shroud to lock housing attach-
ing screws (Fig. 15).
(7) Be sure both breakaway capsules are still fully
seated in the slots of the upper steering column
mounting bracket. Equally tighten both steering col-
umn mounting nuts, until upper steering column
mounting bracket is seated against support bracket.
Then tighten the 2 steering column upper mounting
bracket nuts to a torque of 17 N´m (150 in. lbs.).
(8) Tighten the steering column lower mounting
bracket nuts (2) to a torque of 17 N´m (150 in. lbs.).
(9) Assemble the steering column flex coupler to
the intermediate steering coupler (Fig. 16). Install
the steering coupler pinch bolt. Torque the pinch bolt
nut to 28 N´m (250 in. lbs.).Be sure to install
upper to lower steering coupler pinch bolt
retaining pin (Fig. 16).
(10) Install the lower instrument panel steering
column cover liner onto lower instrument panel.
Install and securely tighten the 3 liner to instrument
panel attaching screws (Fig. 7).
(11) Install lower instrument panel steering col-
umn cover (Fig. 6) on lower instrument panel. Install
and securely tighten the 4 screws (Fig. 6) attaching
steering column cover, to lower instrument panel.
CAUTION: Clock spring centering procedure MUST
be performed prior to installing steering wheel
assembly. If clock spring is not centered it may be
overextended, causing clock spring assembly to
become inoperative.
(12) Center the clock spring using the following
procedure.
²Depress the 2 plastic locking pins to disengage
clockspring locking mechanism.
²Keeping locking mechanism disengaged, rotate
the clockspring rotor in the CLOCKWISE DIREC-
TION to the end of the travel. Do not apply excessive
torque.
²From the end of travel, rotate the rotor 2 full
turns and an additional half turn in the counter-
clockwise direction. (The horn wire should end up at
the top and the squib wire at the bottom.) Engage
the clockspring locking mechanism.
Fig. 18 Steering Column Wiring Connections
Fig. 19 Steering Column Wiring Connections
PLSTEERING 19 - 41
REMOVAL AND INSTALLATION (Continued)

CAUTION: Do not install steering wheel onto shaft
of steering column assembly by driving it onto the
shaft. Pull steering wheel down onto steering col-
umn shaft using ONLY the steering wheel retaining
nut.
(13) Feed clock spring wiring leads through hole in
steering wheel (Fig. 20). Position steering wheel on
shaft of steering column assembly, making sure to fit
flats on hub of steering wheel with formations on
inside of clockspring.
(14) Install steering wheel to steering column
shaft retaining nut and tighten until steering wheel
is fully installed on shaft. The tighten steering wheel
retaining nut to a torque of 61 N´m (45 ft. lbs.).
(15) Connect the clockspring electrical leads to
components such as horn switches and speed control
switches located in the steering wheel (Fig. 11).
(16) Install air bag electrical lead from clock
spring, into connector on back of air bag module (Fig.
10).Be sure electrical connector from clock-
spring is securely latched into air bag module
connector.
CAUTION: The fasteners, screws, and bolts, origi-
nally used for the air bag components are specifi-
cally designed for the air bag system. They must
never be replaced with any substitutes. Anytime a
new fastener is needed, replace only with correct
fasteners provided in service packages or fasteners
listed in the parts book.
(17) Install air bag module into center of steering
wheel. Align air bag module mounting holes with bolt
holes in steering wheel. Installonly the 2 original
or correct replacementair bag module attachingbolts (Fig. 9). Torque the 2 air bag module attaching
bolts to 10 N´m (90 in. lbs.).
(18) Install key lock cylinder into lock housing.
Key lock cylinder is installed by positioning key cyl-
inder in the run position so retaining tab can be
depressed and the pushing key cylinder into lock hos-
ing until retaining tab locks into key lock cylinder.
(19) Reconnect ground cable to Negative post of
the battery.When reconnecting battery on a
vehicle that has had the air bag module
removed, the following procedure should be
used.
²Remove forward console or cover as necessary.
²Connect DRB II to ASDM diagnostic 6-way con-
nector, located at right side of the ASDM module.
²Turn ignition key to ON position. Exit vehicle
with the DRB II. Install the latest version of the
proper diagnostic cartridge into the DRB II.
²Ensuring that their are no occupants in the
vehicle, connect negative cable to negative post of the
battery.
²Using the DRB II read and record active fault
codes. Also read and record any stored fault codes.
Refer to the Passive Restraint Diagnostic Test Man-
ual if any faults are found.
²Erase stored faults if there are no active fault
codes. If problems remain, fault codes will not erase.
²From the passenger side of the vehicle, turn
ignition key to OFF and then ON observing instru-
ment cluster air bag lamp. It should go on for six to
eight seconds, then go out. This will indicate that the
air bag system is functioning normally.
(20)If air bag warning lamp fails to light,
blinks on and off or goes on and stays on, there
is an air bag system malfunction.Refer to the
Passive Restraint Diagnostic Test Manual to diag-
nose the system malfunction.
(21) Test the operation of the horn, lights and any
other functions that are steering column operated. If
applicable reset the radio and the clock.
(22) Road test vehicle to ensure proper operation
of the steering system and the speed control system.
SPECIFICATIONS
STEERING COLUMN FASTENER TORQUE
SPECIFICATIONS
DESCRIPTION TORQUE
Steering Wheel
Retaining Nut...............61N´m(45ft.lbs.)
Steering Column Assembly
Upper And Lower Mounting Bracket
Attaching Nuts...........17N´m(150 in. lbs.)
Fig. 20 Steering Wheel Installation
19 - 42 STEERINGPL
REMOVAL AND INSTALLATION (Continued)

31TH AUTOMATIC TRANSAXLE
INDEX
page page
GENERAL INFORMATION
FLUID LEVEL AND CONDITION............. 41
GENERAL INFORMATION................. 40
SELECTION OF LUBRICANT............... 41
SPECIAL ADDITIVES..................... 41
DESCRIPTION AND OPERATION
AUTOMATIC TRANSMISSION SHIFTER/
IGNITION INTERLOCK.................. 42
CLUTCHES, BAND SERVOS, AND
ACCUMULATOR....................... 42
FLOW CONTROL VALVES................. 42
GEARSHIFT AND PARKING LOCK CONTROLS . 42
GOVERNOR............................ 43
HYDRAULIC CONTROL SYSTEM............ 42
PRESSURE REGULATING VALVES.......... 42
PRESSURE SUPPLY SYSTEM.............. 42
TORQUE CONVERTER CLUTCH SOLENOID
WIRING CONNECTOR.................. 43
TORQUE CONVERTER CLUTCH............ 42
DIAGNOSIS AND TESTING
CLUTCH AND SERVO AIR PRESSURE TESTS . 54
FLUID LEAKAGE-TRANSAXLE TORQUE
CONVERTER HOUSING AREA............ 55
HYDRAULIC PRESSURE TESTS............ 52
INTERLOCK SYSTEM OPERATION CHECK.... 55
ROAD TEST............................ 52
THREE SPEED TRANSAXLE DIAGNOSIS AND
TESTS.............................. 43
SERVICE PROCEDURES
ALUMINUM THREAD REPAIR.............. 58
FLUID AND FILTER CHANGE............... 56
FLUID DRAIN AND REFILL................. 57
FLUSHING COOLERS AND TUBES.......... 58
OIL PUMP VOLUME CHECK............... 58
REMOVAL AND INSTALLATION
GEARSHIFT CABLE...................... 59
GEARSHIFT MECHANISM................. 60
INTERLOCK MECHANISM................. 63
PARK/NEUTRAL STARTING AND BACK-UP
LAMP SWITCH........................ 64
PUMP OIL SEAL......................... 67
SHIFTER IGNITION INTERLOCK CABLE...... 61THROTTLE PRESSURE CABLE............. 60
TRANSAXLE........................... 64
VEHICLE SPEED SENSOR PINION GEAR..... 64
DISASSEMBLY AND ASSEMBLY
ACCUMULATOR-RECONDITION............ 83
DIFFERENTIAL REPAIR................... 95
FRONT CLUTCH-RECONDITION............ 78
FRONT PLANETARY AND ANNULUS GEAR-
RECONDITION........................ 81
KICKDOWN SERVO (CONTROLLED LOAD)-
RECONDITION........................ 83
LOW/REVERSE (REAR)
SERVO-RECONDITION.................. 82
OIL PUMP-RECONDITION................. 78
OUTPUT SHAFT REPAIR.................. 89
PARKING PAWL......................... 89
REAR CLUTCH-RECONDITION............. 79
TRANSAXLE........................... 67
TRANSFER SHAFT REPAIR................ 83
VALVE BODY RECONDITION............... 74
CLEANING AND INSPECTION
VALVE BODY........................... 99
ADJUSTMENTS
BAND ADJUSTMENT.................... 101
BEARING ADJUSTMENT PROCEDURES..... 101
DIFFERENTIAL BEARING................. 102
GEARSHIFT CABLE...................... 99
HYDRAULIC CONTROL PRESSURE
ADJUSTMENTS....................... 101
OUTPUT SHAFT BEARING................ 102
SHIFTER/IGNITION INTERLOCK SYSTEM.... 100
THROTTLE PRESSURE CABLE ADJUSTMENT
PROCEDURE........................ 100
TRANSFER SHAFT BEARING............. 103
SCHEMATICS AND DIAGRAMS
31TH TRANSAXLE HYDRAULIC SCHEMATIC . 105
SPECIFICATIONS
31TH AUTOMATIC TRANSAXLE............ 113
31TH TRANSAXLE TORQUE
SPECIFICATIONS..................... 113
SPECIAL TOOLS
31TH AUTOMATIC TRANSAXLE............ 114
GENERAL INFORMATION
GENERAL INFORMATION
NOTE: Safety goggles should be worn at all times
when working on these transaxles.This transaxle combines torque converter, three
speed transmission, final drive gearing, and differen-
tial into a front wheel drive system. The identifica-
tion markings and usage of the transaxle are charted
in Diagnosis and Tests.
21 - 40 TRANSAXLEPL

the use of special dyes to aid in detecting fluid leaks.
The use of transmission sealers should be avoided,
since they may adversely affect seals.
DESCRIPTION AND OPERATION
TORQUE CONVERTER CLUTCH
A torque converter clutch is standard on all vehi-
cles. The torque converter clutch is activated only in
direct drive and is controlled by the engine electron-
ics. A solenoid on the valve body, is powered by the
powertrain control module to activate the torque con-
verter clutch.
HYDRAULIC CONTROL SYSTEM
The hydraulic control system makes the transaxle
fully automatic, and has four important functions to
perform. The components of any automatic control
system may be grouped into the following basic
groups:
²Pressure supply system
²Pressure regulating valves
²Flow control valves
²Clutches
²Band servos
Taking each of these basic groups or systems in
turn, the control system may be described as follows:
PRESSURE SUPPLY SYSTEM
The pressure supply system consists of an oil pump
driven by the engine through the torque converter.
The single pump furnishes pressure for all hydraulic
and lubrication requirements.Oil pump housing
assemblies are available with preselected pump
gears.
PRESSURE REGULATING VALVES
The pressure regulating valve controls line pres-
sure dependent on throttle opening. The governor
valve transmits regulated pressure to the valve body
(in conjunction with vehicle speed) to control upshift
and downshift.
The throttle valve transmits regulated pressure to
the transaxle (dependent on throttle position) to con-
trol upshift and downshift.
FLOW CONTROL VALVES
The manual valve provides the different transaxle
drive ranges selected by the vehicle operator.
The 1-2 shift valve automatically shifts the tran-
saxle from first to second or from second to first,
depending on the vehicle operation.
The 2-3 shift valve automatically shifts the tran-
saxle from second to third or from third to second
depending on the vehicle operation.The kickdown valve makes possible a forced down-
shift from third to second, second to first, or third to
first (depending on vehicle speed). This can be done
by depressing the accelerator pedal past the detent
feel near wide open throttle.
The shuttle valve has two separate functions and
performs each independently of the other. The first is
providing fast release of the kickdown band, and
smooth front clutch engagement when a lift-foot
upshift from second to third is made. The second
function is to regulate the application of the kick-
down servo and band when making third±to±second
kickdown.
The bypass valve provides for smooth application
of the kickdown band on 1-2 upshifts.
The torque converter clutch solenoid allows for the
electronic control of the torque converter clutch. It
also disengages the torque converter at closed throt-
tle. This is done during engine warm-up and part-
throttle acceleration.
The switch valve directs oil to apply the torque
converter clutch in one position. The switch valve
releases the torque converter clutch in the other posi-
tion.
CLUTCHES, BAND SERVOS, AND ACCUMULATOR
The front and rear clutch pistons, and both servo
pistons, are moved hydraulically to engage the
clutches and apply the bands. The pistons are
released by spring tension when hydraulic pressure
is released. On the 2-3 upshift, the kickdown servo
piston is released by spring tension and hydraulic
pressure.
The accumulator controls the hydraulic pressure
on the apply±side of the kickdown servo during the
1-2 upshift; thereby cushioning the kickdown band
application at any throttle position.
AUTOMATIC TRANSMISSION SHIFTER/IGNITION
INTERLOCK
The Shifter/Ignition Interlock, is a mechanical
cable operated system (Fig. 1). It interconnects the
automatic transmission floor±mounted shifter to the
steering column ignition switch. The interlock system
locks the floor±mounted shift lever into the PARK
position whenever the ignition switch is in the LOCK
or ACCESSORY position. When the key is in the
OFF or RUN position, the shifter is unlocked and
will move into any position. Also the interlock system
prevents the ignition switch from being turned to
LOCK or ACCESSORY position, unless shifter is in
the PARK position.
GEARSHIFT AND PARKING LOCK CONTROLS
The transaxle is controlled by alever typegear-
shift incorporated within the console. The control has
21 - 42 TRANSAXLEPL
GENERAL INFORMATION (Continued)

six selector lever positions: P (Park), R (Reverse), N
(Neutral), and D (Drive), 2 (Second), and 1 (First).
The parking lock is applied by moving the selector
lever past a gate to the (P) position.Do not apply
the parking lock until the vehicle has stopped;
otherwise, a severe banging noise will occur.
TORQUE CONVERTER CLUTCH SOLENOID WIRING
CONNECTOR
If the solenoid wiring connector is unplugged, the
torque converter will not engage (Fig. 2).
GOVERNOR
The governor can be serviced by removing the
transaxle oil pan and valve body assembly. The gov-
ernor can be unbolted from the governor support and
removed from the transaxle for reconditioning or
replacement.
When cleaning or assembling the governor, be sure
the governor valves move freely in the bores of the
governor body.
DIAGNOSIS AND TESTING
THREE SPEED TRANSAXLE DIAGNOSIS AND
TESTS
Automatic transaxle malfunctions may be caused
by four general conditions:
(1) Poor engine performance
(2) Improper adjustments
(3) Hydraulic malfunctions
(4) Mechanical malfunctions
Diagnosis of these problems should always begin
by checking the easily accessible variables; fluid level
and condition, gearshift cable adjustment, and throt-
tle pressure cable adjustment. Then perform a road
test to determine if the problem has been corrected
or that more diagnosis is necessary. If the problem
exists after the preliminary tests and corrections are
completed, hydraulic pressure tests should be per-
formed
31TH HYDRAULIC TROUBLE CODE CHARTS
The following charts should be used to help diag-
nose hydraulic or mechanical faults in the transaxle.
Fig. 1 Shifter Ignition Interlock System Components
Fig. 2 Torque Converter Clutch Solenoid Wiring
Connector
PLTRANSAXLE 21 - 43
DESCRIPTION AND OPERATION (Continued)

LOW AND REVERSE SERVO (REAR)
Direct air pressure into LOW/REVERSE SERVO
APPLY passage. Operation of servo is indicated by a
tightening of rear band. Spring tension on servo pis-
ton should release the band.
If clutches and servos operate properly, no upshift
indicates that a malfunction exists in the valve body.
FLUID LEAKAGE-TRANSAXLE TORQUE
CONVERTER HOUSING AREA
(1) Check for source of leakage.
(2) Since fluid leakage near the torque converter
area may be from an engine oil leak, the area should
be checked closely. Factory fill fluid is dyed red and,
therefore, can be distinguished from engine oil.
(3) Prior to removing the transaxle, perform the
following checks:
(4) When leakage is determined to originate from
the transaxle, check fluid level prior to removal of
the transaxle and torque converter.
(5) High oil level can result in oil leakage out the
vent in the dipstick. If the fluid level is high, adjust
to proper level.
(6) After performing this operation, inspect for
leakage. If a leak persists, perform the followingoperation on the vehicle. This will determine if the
torque converter or transaxle is leaking.
TORQUE CONVERTER LEAKAGE
Possible sources of torque converter leakage are:
²Torque converter weld leaks at the outside diam-
eter (peripheral) weld
²Torque converter hub weld
²Torque converter impeller shell cracked adjacent
to hub
²At drive lug welds
NOTE: Hub weld is inside and not visible. Do not
attempt to repair. Replace torque converter.
INTERLOCK SYSTEM OPERATION CHECK
(1) Place shifter in PARK, the ignition switch
should rotate freely from OFF to LOCK position.
When the shifter is moved to the DRIVE position,
the ignition switch should not rotate from OFF to
LOCK.
(2) Moving shifter out of PARK should be possible
only when ignition switch is in the OFF or the RUN
position. Movement of the shifter from the PARK
Fig. 5 Air Pressure Tests
PLTRANSAXLE 21 - 55
DIAGNOSIS AND TESTING (Continued)

position should not be possible when the ignition
switch is in the LOCK or the ACCESSORY position.
(3) If the interlock system, operates in any way
other than as described above, repair of the interlock
system is required. See Adjustment and Repair pro-
cedures in this section for the required procedures.
SERVICE PROCEDURES
FLUID AND FILTER CHANGE
When the factory fill fluid is changed, only fluids
labeled MOPARtATF PLUS 3 (Automatic Transmis-
sion fluid) Type 7176 should be used.
If the transaxle is disassembled for any reason, the
fluid and filter should be changed.
30,000 MILE TRANSAXLE OIL CHANGE
When a vehicle attains 30,000 miles on its odome-
ter it is recommended that the transaxle oil be
changed. To change the oil, use the procedure that
follows:
It is recommended that a transaxle fluid exchanger
(ATF 2000+ or equivalent) be used to replace the
used fluid in the transaxle. If a fluid exchanger is not
available use a fluid suction pump (Vaculayor equiv-
alent) to draw the fluid out of the dipstick tube. If a
fluid suction pump is not available remove the oil
pan and drain the fluid.
CAUTION: Chrysler Corporation does not recom-
mend using any fluid exchanger that introduces
additives into the transaxle.
TRANSAXLE FLUID EXCHANGER METHOD
(1) To perform the transaxle fluid exchange, the
transaxle must be at operating temperature. Drive
the vehicle till it reaches full operating temperature.
(2) Verify that the fill tank on the transaxle fluid
exchanger (ATF 2000+ or equivalent) is clean and
dry.
(3) Fill the tank to the recommended fill capacity
with Mopar ATF Plus 3 Type 7176.
(4) Hookup the vehicle to the machine following
the manufacturers instructions. Perform the
exchange procedure following the instructions pro-
vided with the machine.
(5) Once machine has completed the fluid
exchange. Check the fluid level and condition and fill
to proper level with Mopar ATF Plus 3 Type 7176.
NOTE: Verify that the transaxle cooler lines are
tightened to proper specifications. Cooler line
torque specification is 2 N²m (18 in. lbs.).DIPSTICK TUBE FLUID SUCTION METHOD
(1) When performing the fluid suction method,
make sure the transaxle is at full operating temper-
ature.
(2) To perform the dipstick tube fluid suction
method, use a suitable fluid suction device (Vaculay
or equivalent).
(3) Insert the fluid suction line into the dipstick
tube.
NOTE: Verify that the suction line is inserted to the
lowest point of the transaxle oil pan. This will
ensure complete evacuation of the fluid in the pan.
(4) Follow the manufacturers recommended proce-
dure and evacuate the fluid from the transaxle.
(5) Remove the suction line from the dipstick tube.
(6) Add 4 Quarts of Mopar ATF Plus 3 Type 7176
transaxle fluid.
(7) Start the engine and allow it to idle for a min-
imum of one minute. With the parking brake applied,
press your foot on the service brake and cycle the
transaxle from park to all gear positions ending in
neutral or park.
(8) Check the transaxle fluid level and add an
appropriate amount to bring the transaxle fluid level
to 3mm (1/8 in.) below the ADD mark on the dip-
stick.
(9) Recheck the fluid level after the transaxle is at
normal operating temperature. The level should be in
the HOT range.
TRANSAXLE OIL PAN DROP METHOD
This procedure involves removing the transaxle oil
pan to drain the transaxle fluid.
(1) Bring the vehicle up to normal operating tem-
perature. Drive the vehicle a minimum of 10 miles.
(2) Raise the vehicle on the hoist.
(3) Loosen the transaxle oil pan and drain the
fluid into a suitable container.
(4) Remove the pan and clean all sealant from the
pan and transaxle mating surfaces. Clean the mag-
net and the inside of the pan.
(5) Apply a 1/8 inch bead of Mopar RTV Sealant to
the mounting flange of the transaxle oil pan. Apply
RTV Sealant to the underside of the attaching bolts.
Attach the oil pan to the transaxle. Tighten the bolts
to 19 N²m (165 in. lbs.).
(6) Lower the vehicle and add 4 Quarts of Mopar
ATF Plus 3 Type 7176 transaxle fluid.
(7) Start the engine and allow it to idle for a min-
imum of one minute. With the parking brake applied,
press your foot on the service brake and cycle the
transaxle from park to all gear positions ending in
neutral or park.
(8) Check the transaxle fluid level and add an
appropriate amount to bring the transaxle fluid level
21 - 56 TRANSAXLEPL
DIAGNOSIS AND TESTING (Continued)

(8) Recheck fluid level after transaxle is at normal
operating temperature. The level should be in the
HOT region.
ALUMINUM THREAD REPAIR
Damaged or worn threads in the aluminum tran-
saxle case and valve body can be repaired by the use
of Heli-Coils. This repair consists of drilling out the
worn-out or damaged threads. Then tap the hole with
a Heli-Coil tap, and install a Heli-Coil insert into the
hole. This brings the hole back to its original thread
size.
Heli-Coil tools and inserts are readily available
from most automotive parts suppliers.
FLUSHING COOLERS AND TUBES
When a transaxle failure has contaminated the
fluid, the oil cooler(s) must be flushed. The cooler
bypass valve in the transaxle must be replaced also.
The torque converter must also be replaced with an
exchange unit. This will ensure that metal particles
or sludged oil are not later transferred back into the
reconditioned (or replaced) transaxle.
The recommended procedure for flushing the cool-
ers and tubes is to use Tool 6906A Cooler Flusher.
WARNING: WEAR PROTECTIVE EYEWEAR THAT
MEETS THE REQUIREMENTS OF OSHA AND ANSI
Z87.1±1968. WEAR STANDARD INDUSTRIAL RUB-
BER GLOVES.
KEEP LIGHTED CIGARETTES, SPARKS, FLAMES,
AND OTHER IGNITION SOURCES AWAY FROM THE
AREA TO PREVENT THE IGNITION OF COMBUSTI-
BLE LIQUIDS AND GASES. KEEP A CLASS (B) FIRE
EXTINGUISHER IN THE AREA WHERE THE
FLUSHER WILL BE USED.
KEEP THE AREA WELL VENTILATED.
DO NOT LET FLUSHING SOLVENT COME IN CON-
TACT WITH YOUR EYES OR SKIN: IF EYE CONTAM-
INATION OCCURS, FLUSH EYES WITH WATER FOR
15 TO 20 SECONDS. REMOVE CONTAMINATED
CLOTHING AND WASH AFFECTED SKIN WITH
SOAP AND WATER. SEEK MEDICAL ATTENTION.
COOLER FLUSH USING TOOL 6906A
(1) Remove cover plate filler plug on Tool 6906A.
Fill reservoir 1/2 to 3/4 full of fresh flushing solution.
Flushing solvents are petroleum based solutions gen-
erally used to clean automatic transmission compo-
nents.DO NOTuse solvents containing acids, water,
gasoline, or any other corrosive liquids.
(2) Reinstall filler plug on Tool 6906A.
(3) Verify pump power switch is turned OFF. Con-
nect red alligator clip to positive (+) battery post.
Connect black (-) alligator clip to a good ground.
(4) Disconnect the cooler lines at the transmission.NOTE: When flushing transmission cooler and
lines, ALWAYS reverse flush.
(5) Connect the BLUE pressure line to the OUT-
LET (From) cooler line.
(6) Connect the CLEAR return line to the INLET
(To) cooler line
(7) Turn pump ON for two to three minutes to
flush cooler(s) and lines. Monitor pressure readings
and clear return lines. Pressure readings should sta-
bilize below 20 psi. for vehicles equipped with a sin-
gle cooler and 30 psi. for vehicles equipped with dual
coolers. If flow is intermittent or exceeds these pres-
sures, replace cooler.
(8) Turn pump OFF.
(9) Disconnect CLEAR suction line from reservoir
at cover plate. Disconnect CLEAR return line at
cover plate, and place it in a drain pan.
(10) Turn pump ON for 30 seconds to purge flush-
ing solution from cooler and lines. Turn pump OFF.
(11) Place CLEAR suction line into a one quart
container of Mopar ATF Plus 3ttype 7176 automatic
transmission fluid.
(12) Turn pump ON until all transmission fluid is
removed from the one quart container and lines. This
purges any residual cleaning solvent from the trans-
mission cooler and lines. Turn pump OFF.
(13) Disconnect alligator clips from battery. Recon-
nect flusher lines to cover plate, and remove flushing
adapters from cooler lines.
OIL PUMP VOLUME CHECK
After the new or repaired transmission has been
installed, fill to the proper level with Mopar ATF
PLUS 3 (Type 7176) automatic transmission fluid.
The volume should be checked using the following
procedure:
(1) Disconnect theFrom coolerline at the trans-
mission and place a collecting container under the
disconnected line.
CAUTION: With the fluid set at the proper level,
fluid collection should not exceed (1) quart or inter-
nal damage to the transmission may occur.
(2) Run the engineat curb idle speed, with the
shift selector in neutral.
(3) If fluid flow is intermittent or it takes more
than 20 seconds to collect one quart of ATF, discon-
nect theTo Coolerline at the transaxle.
(4) Refill the transaxle to proper level and recheck
pump volume.
(5) If flow is found to be within acceptable limits,
replace the cooler. Then fill transmission to the
proper level, using Mopar ATF PLUS 3 (Type 7176)
automatic transmission fluid.
21 - 58 TRANSAXLEPL
SERVICE PROCEDURES (Continued)