1991 MITSUBISHI MONTERO lock

Maximum Refinish Diameter ..................... 10.1 (257)
Wheel Cylinder Diameter
Montero ................................... .875 (22.22)
Pickup & Ram-50
2WD ..................................... .937 (23.80)
4WD ..................................... .875 (22.22)
Discard Diameter ........................... 10.12 (257.0)
(1) - Information is not available.









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TORQUE SPECIFICATIONS
TORQUE SPECIFICATIONS TABLE








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Application Ft. Lbs. (N.m)
Caliper Guide or Lock Pin Bolt
Guide Pin Bolt ........................... 29-36 (40-49)
Lock Pin Bolt ............................ 23-30 (31-41)
Caliper Mounting Bolts ..................... 58-72 (79-98)
Front Wheel Bearing Nut .............................. ( 1)
Rotor-To-Hub Bolts Or Nuts
Pickup (2WD) ............................ 34-38 (46-52)
All Others ............................... 36-43 (49-58)
INCH Lbs. (N.m)
Master Cylinder-To-Power Brake Unit Nut .... 72-108 (8-12)
( 1) - See FRONT BRAKE ROTOR under REMOVAL & INSTALLATION.









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CRUIS E C O NTR O L S YSTE M

1991 M it s u bis h i M onte ro
1991-92 SAFETY EQUIPMENT
Mitsubishi Cruise Control Systems
Montero
DESCRIPTION & OPERATION
The cruise control system is electronically and vacuum
controlled. System components include a control unit, actuator, vacuum
pump, cruise control switch, clutch pedal switch, cruise indicator
light, diode, inhibitor switch (A/T), stoplight switch, vehicle speed
sensor and A/T control unit.
The system has self-diagnostic capability. When
self-diagnostic mode is activated, each switch and sensor is checked
for defects. When cruise control system has been cancelled without
using a normal cancel method, a code will be set and stored in control
unit. Codes can be retrieved to help determine which circuit is
malfunctioning.
PRELIMINARY INSPECTION
Before performing TROUBLE SHOOTING steps, inspect linkage
assembly, actuator, cables and vacuum hoses. Ensure linkage and cables
move smoothly. Ensure cables do not have excessive slack or tension.
TROUBLE SHOOTING
NOTE: For further trouble shooting information, see CHECK RESULTS
& SYMPTOM CHARTS. See Figs. 11-16.
SYSTEM CANCELS OR WILL NOT RESET AFTER CANCELLATION
1) Check trouble codes, see SELF-DIAGNOSTICS under DIAGNOSIS
& TESTING. If no trouble codes are stored, ensure cruise control can
be set.
2) If cruise control can be set, system may have cancelled
because of driving on steep hills or loose wiring connection. If
cruise control still cannot be set, perform SYSTEM INPUT TESTS under
DIAGNOSIS & TESTING.
3) On 1991 models, if SYSTEM INPUT TESTS check okay, check
actuator circuit. See TEST NO. 5 under CIRCUIT TESTS (1991). On 1992
models, if SYSTEM INPUT TESTS check okay, check vacuum pump circuit.
See TEST NO. 6 under CIRCUIT TESTS (1992). On all models, if SYSTEM
INPUT TESTS do not check okay, see INPUT CODE CHART. See Fig. 9 or 10.
ADJUSTMENTS
CRUISE CONTROL CABLE
1991
1) Ensure cruise control and accelerator cables are free of
bends and folds. Remove actuator cover. Loosen lock nuts and adjusting
nuts to free cables. Adjust accelerator cable "A" to correct
dimension. See Fig. 1 or 2.
2) Tighten lock nuts. Loosen adjustment bolts on intake air
plenum. Adjust plate so that inner cable free play is .04-.08" (1-2

mm). Tighten adjustment plate bolts.
3) Ensure throttle link is touching fixed Speed Adjusting
Screw (SAS). With intermediate link "A" in contact with stopper,
tighten adjusting nut "A" in direction that reduces inner cable free
play. See Fig. 3.
4) Stop turning adjusting nut "A" just before intermediate
link "A" begins to move. Back off adjusting nut "A" 1/2 turn. Inner
cable free play should be 0-.04" (0-1 mm). Tighten lock nut. Ensure
the distance intermediate link "B" begins to move when selector of
actuator turns is 04-.08" (1-2 mm). See Fig. 4.
5) Press accelerator pedal to ensure intermediate links "A"
and "B" operate smoothly. Install actuator cover.
Fig. 1: Adjusting Cruise Control & Accelerator Cables (1991 - 1 Of 4)\
Courtesy of Mitsubishi Motor Co.

Fig. 4: Adjusting Cruise Control & Accelerator Cables (1991 - 4 Of 4)\
Courtesy of Mitsubishi Motor Co.
1992
Remove link protector. Loosen lock nut. Hold link "A" so that
it touches link "B". Adjust free play by turning adjusting nut until
free play is .04-.08" (1-2 mm). Tighten lock nut. See Fig. 5.
Fig. 5: Adjusting Cruise Control Cable (1992)
Courtesy of Mitsubishi Motor Co.
DIAGNOSIS & TESTING

Replace cruise control switch if it does not test correctly.
Main Switch (1992)
1) In each switch position, continuity should be present
between terminals No. 2 and 7 for switch illumination. See Figs. 22-
29. When switch is moved to Neutral position, continuity should be
present between terminals No. 1 and 4.
2) When switch is moved to ON position, continuity should be
present between terminals No. 1, 4 and 5. Connect battery voltage to
terminal No. 5 and ground terminal No. 4.
3) Battery voltage should then be present on terminal No. 1
when main switch is moved to On position. Replace switch if it does
not test correctly.
BRAKELIGHT/STOPLIGHT SWITCH TEST
Disconnect switch connector. When brake pedal is pressed,
continuity should be present between terminals No. 2 and 3. See
Figs. 22 -29. When brake pedal is released, continuity should be
present between terminals No. 1 and 4. Replace switch if it does not
test correctly.
IDLE SWITCH & THROTTLE POSITION SENSOR TESTS
Throttle Position Sensor (1992)
1) Disconnect sensor connector. Resistance between terminals
No. 1 and 4 should be 3500-6500 ohms. Use an analog ohmmeter to
measure resistance between terminals No. 1 and 3. See Figs. 22-29.
2) Slowly open throttle valve to wide open throttle.
Resistance should change smoothly as throttle is opened. Replace
throttle position sensor if it does not test correctly.
Idle Switch (1992)
1) Disconnect throttle position sensor connector. Continuity
should be present between terminals No. 1 and 2 with accelerator pedal
released. See Figs. 22-29. Continuity should not be present with
accelerator pedal pressed.
2) If continuity is not present with accelerator released,
loosen throttle position sensor mounting screw. Turn throttle position
sensor completely clockwise. Recheck continuity. Replace throttle
position sensor if idle switch does not test correctly.
INHIBITOR SWITCH TEST
Disconnect switch connector. Shift transaxle into Neutral and
Park positions. On 1991 models, continuity should be present between
Black/Yellow wire terminals No. 3 and 4. On 1992 models, continuity
should be present between terminals No. 7 and 12. See Figs. 22-29. On
all models, if continuity is not present, adjust inhibitor switch. If
switch is adjusted properly, replace switch.
VACUUM PUMP TEST
1992
1) Remove vacuum pump connector. Resistance should be 50-60
ohms between terminal No. 1 and terminals No. 2 and 3. See Figs. 22-
29. Ensure solenoid valve makes operating noise when battery voltage
is applied between terminal No. 1 and terminals No. 2 and 3.
2) If solenoid valve does not make noise, replace vacuum pump
assembly. Apply battery voltage to terminals No. 1 and 4, motor should
operate. Replace vacuum pump if motor does not operate.

Colt, Colt 200, Mirage & Summit
Remove defogger relay located to the right of fuse block.
Ground relay terminal No. 4, and apply battery voltage to terminal No.
2. Check relay continuity using ohmmeter. Continuity should exist
between terminals No. 1 and 3. With voltage disconnected, continuity
should not be present between terminals No. 1 and 3. Ensure continuity
is present between terminals No. 2 and 4. See Fig. 2.
Colt Vista, Eclipse, Stealth & 3000GT
Remove defogger relay located on left center of firewall.
Ground relay terminal No. 4, and apply battery voltage to relay
terminal No. 3. Check relay continuity using ohmmeter. Ensure
continuity exists between terminals No. 1 and 2. With voltage
disconnected, continuity should not exist between terminals No. 1 and
2. Continuity should exist between terminals No. 3 and 4. See Fig. 2.
Galant
Remove defogger relay located in right front corner of engine
compartment. Ground relay terminal No. 1, and apply battery voltage to
terminal No. 3. Check relay continuity using ohmmeter. Continuity
should exist between terminals No. 4 and 5. See Fig. 2. With voltage
disconnected, continuity should not exist between terminals No. 4 and
5. Ensure continuity exists between terminals No. 1 and 3. See Fig. 2.
Fig. 2: Identifying Defogger Relay Terminals
Courtesy of Chrysler Motors.
DEFOGGER TIMER TEST

Colt, Colt 200, Mirage & Summit
Remove defogger timer from junction block under left side of
instrument panel. Connect a battery and test light to defogger timer
terminals. See Fig. 3. Apply battery voltage to terminal No. 7 for 5-7
seconds. Ensure test light illuminates for approximately 10 seconds.
Reapply battery voltage to terminal No. 7. Test light should go off
when voltage is applied again.
Colt Vista
With ignition switch in ON position, apply battery voltage to
terminal No. 2 of defogger timer. Timer should operate for
approximately 11 seconds then stop. See Fig. 3.
Eclipse & Galant
Remove defogger timer from interior relay block. Connect
battery voltage and test light to timer. See Fig. 3. Ensure test light
illuminates for approximately 11 seconds when battery voltage is
applied to terminal No. 4. Reapply battery voltage to terminal No. 4
and observe test light. Test light should go off.
Fig. 3: Identifying Defogger Timer Terminals
Courtesy of Chrysler Motors.
GRID TEST
1) Start engine and operate at 2000 RPM. Ensure battery is
fully charged. Turn defogger switch to ON position. Using a voltmeter,
check voltage at center section of each grid wire. If voltage is
approximately 6 volts, grid wire is okay. If voltage is approximately
12 volts, an open is present in the negative circuit. Move probe
slowly toward the negative terminal to determine location of open
circuit.
2) If voltage is zero volt, an open is present in the
positive circuit. Move probe slowly toward the positive terminal to

must be installed in original location.
2) Using bearing puller, remove differential case side
bearings. Loosen ring gear retaining bolts in diagonal sequence.
Remove ring gear.
3) Remove drive pinion shaft lock pin from ring gear side.
Remove pinion shaft and pinion gears. Remove side gears and thrust
spacers.
DRIVE PINION
1) Remove pinion flange nut. Scribe alignment mark on pinion
flange and pinion. Remove flange. Using soft-faced hammer, drive out
pinion. Remove rear bearing and oil seal from carrier. Remove rear
adjusting shim from pinion.
2) Press front bearing from pinion. Remove front adjusting
shim and spacer from pinion. Inspect all components for unusual wear
or damage. Replace as necessary.
DIFFERENTIAL REASSEMBLY & ADJUSTMENTS
CASE REASSEMBLY
1) Place side gear thrust spacers behind side gears in
original position. Assemble side gears in differential case. Install
pinion gears and washers. Rotate pinion gears to mesh with side gears.
2) Install pinion shaft without lock pin. Check pinion and
side gear backlash. Install wooden wedge to lock side gears. Using
dial indicator, measure gear backlash. See Fig. 3.
3) Backlash must be within specification. See PINION & SIDE
GEAR BACKLASH SPECIFICATIONS table. Adjust backlash by using different
side gear spacers. Ensure both sides are equally shimmed.
4) Install pinion shaft lock pin. Securely stake in 2 places.
Ensure adhesive is removed from ring gear mounting bolts and gear
mounting surface. Clean internal threads with tap.
5) Install ring gear on differential case. Ensure alignment
marks on differential case and ring gear are aligned. Apply Loctite
271 to bolts and install. Tighten bolts alternately in diagonal
sequence to specification. See TORQUE SPECIFICATIONS table at the end
of this article.
PINION & SIDE GEAR BACKLASH SPECIFICATIONS









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Application In. (mm)
Standard ....................... .003 (.08)
Wear Limit ..................... .008 (.20)









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