brake MITSUBISHI TRITON 1997 Workshop Manual

MPI ± Troubleshooting13A-57
DATA LIST REFERENCE TABLE13100890180
Caution
When shifting the select lever to D range, the brakes should be applied so that the vehicle does
not move forward.
NOTE
*1. In a new vehicle [driven approximately 500 km or less], the air flow sensor output frequency is sometimes
10% higher than the standard frequency.
*
2. The idle position switch normally turns off when the voltage of the throttle position sensor is 50 ±
100 mV higher than the voltage at the idle position. If the idle position switch turns back on after
the throttle position sensor voltage has been by 100 mV and the throttle valve has been opened,
the idle position switch and the throttle position sensor need to be adjusted.
*3. The injector drive time represents the time when the cranking speed is at 250 r/min or below when
the power supply voltage is 11 V.
*4. In a new vehicle [driven approximately 500 km or less], the injector drive time is sometimes 10%
longer than the standard time.
*5. In a new vehicle [driven approximately 500 km or less], the step of the stepper motor is sometimes
30 steps greater than the standard value.
Item
No.Inspection
itemInspection contentsNormal conditionInspection
procedure
No.Reference
page
11Oxygen
sensorEngine:After having
warmed up
Air/fuel mixture is
made leaner when de-
When at 4,000 r/min,
engine is suddenly
decelerated200 mV or lessCode No.
1113A-11
made leaner when de-
celerating, and is made
richer when racing.
When engine is
suddenly raced600 ± 1,000 mV
Engine:After having
warmed up
The oxygen sensor
signal is used to check
the air/fuel mixture
ratio and control
Engine is idling400 mV or less
(Changes)
600 ± 1,000 mV
ratio, and control
condition by the en-
gine-ECU.2,500 r/min400 mV or less
(Changes)
600 ± 1,000 mV
12Air flow
sensor*1
Engine coolant
temperature:
80 ± 95C

Lamps and all
accessories: OFF
Engine is idling22 ± 48 Hz
<4G63>
19 ± 45 Hz
<4G64>±±
accessories: OFF

Transmission:
Neutral (A/T:
P range)2,500 r/min80 ± 120 Hz
<4G63>
67 ± 107 Hz
<4G64>
Engine is racedFrequency
increases in
response to
racing

AUTOMATIC TRANSMISSION ± Troubleshooting23-4
TROUBLESHOOTING23100760152
STANDARD FLOW OF DIAGNOSIS TROUBLESHOOTING
Automatic transmission malfunctions may be caused by the following conditions.
(1) Improper maintenance and adjustment
(2) Shift control system malfunction
(3) Mechanical malfunctions
(4) Hydraulic malfunctions
(5) Poor engine performance
Troubleshooting in the event of any such malfunctions should begin by checking fluid level, ATF condition,
manual linkage adjustment, throttle control cable adjustment and other conditions whose deviation from
standards can be readily known. Then, road test shall be performed to determine whether or not the
problem has been corrected or more diagnosis is necessary. If the problem still persists after these tests
and corrections, hydraulic tests should be performed for further troubleshooting.
Road test (guess what causes malfunc-
tion.)
Check how A/T works in each drive
range to find a defective system.
A/T control component inspection
Check the throttle cable, inhibitor switch,
overdrive switch, overdrive solenoid
valve, overdrive control relay, defective
switch, engine coolant temperature
switch and vehicle speed sensor.
Torque converter stall test (Inspection
of engine performance and mechanical
function)
Check the engine performance, torque
converter operation and clutch and
brake sliding performance.
Hydraulic pressure test (Inspection of
hydraulic control mechanism)
Measure the fluid line pressure and
check for malfunctions of the oil pump
or regulator valve and for oil leaks.
Oil leak inspection
Visually check gaskets and oil seals for
leaks.
Adjustment of basic inspection items
ROAD TEST 23100780158
Prior to performing road test, be sure to make basic checks including check and adjustment of fluid
level and condition and adjustment of the throttle cable. For road test, the transfer must be placed in
the 2H (2WD-high) position. In road test, various changes such as slips in transmission and shifting
conditions are checked and the transmission operation at each shift position must have been checked.

AUTOMATIC TRANSMISSION ± Troubleshooting23-6
Ye s
Carry out TEST 4 again.
Ye s
Does the engine brake function in L range?NoBrake No. 3 malfunction
No
Does the engine brake function in 2 range?NoBrake No. 1 malfunction
TEST 4
When traveling in 3-speed or 4-speed, shift to 2 and L. Does the
engine brake function in each range?Ye sTEST 5
Ye s

High line pressure

Accumulator malfunction

Check ball malfunctionCarry out TEST 5 again.
TEST 5
Is there abnormal noise(s) during acceleration and deceleration?
Is there shocks when slipping and changing speed?NoTEST 6
Ye s

Incorrect torque converter installation

Oil pump malfunction

Shifting gear not meshing correctly

Incorrect drive plate installationCarry out TEST 6 again.
TEST 6
Is there abnormal noise(s) or vibration when traveling in 3-speed
or 4-speed?NoTEST 7
NOTE
Abnormal noises and vibrations are often caused by an unbalanced propeller shaft, differential, tyre,
torque converter, engine, etc. Extremely thorough inspection is therefore required.
Ye s
Carry out TEST 7 again.
Ye s
Does lock up go on, off?No
Lock up signal valve malfunction

Lock up relay valve malfunction

Lock up clutch malfunction
No
Does the moment when lock up turns ON or OFF conform with
the shift pattern?No
Governor malfunction

Line pressure malfunction
TEST 7
Check that lock up ON, OFF. Does the shifting points conform
with shift pattern?Ye sCarry out the road test in 2 range.
NOTE
(1) Determine the moment when lock up turns ON by decreased engine r/min or by a slight shock back
and forth.
(2) Determine the moment when lock up turns OFF by increased engine r/min.
(3) Check lock up condition by pumping the accelerator slightly. If engine r/min rises in accordance with
throttle valve opening size, determine that the lock up is OFF, if not, determine it ON.
(When lock up is OFF, drive power is transferred through the fluid in the torque converter and therefore,
when the accelerator pedal is depressed, slipping occurs inside the torque converter with a resulting
large increase in engine r/min.)

AUTOMATIC TRANSMISSION ± Troubleshooting23-7
2 RANGE TEST
Correct
Carry out TEST 1 again.
Ye s
Check the shifting point.Incorrect
Misadjusted throttle cable

Governor malfunction

Line pressure malfunction
No
Does the upshift from 1-speed to 2-speed occur?No
1 ± 2 shift valve malfunction

Governor malfunction
TEST 1
Start with throttle valve opening at 50% and full. Does the shifting
points conform with the shift pattern when upshifting from 1-speed

2-speed?Ye sTEST 2
Ye s
Carry out TEST 2 again.
NG
Does the downshift occur and is the shifting point correct?No
Detent regulator valve malfunction

Governor malfunction

Misadjusted throttle cable

1 ± 2 shift valve malfunction

Line pressure malfunction
TEST 2
Kickdown and check that possible kickdown vehicle speed limit
at 2-speed
1-speed conforms with shift pattern.OKCarry out road test in L range.
L RANGE TEST
No
Carry out road test in R range.
TEST 1
Does the transmission upshift to 2-speed?Ye s
Low coast modulator valve malfunction

Governor malfunction

Low line pressure
R RANGE TEST
Ye s
Carry out road test in P range.
TEST 1
Is the engine r/min by stall test correct?No
Brake No. 3 malfunction

Overdrive clutch or direct clutch malfunction

Overdrive one-way clutch malfunction

Low line pressure
P RANGE TEST
Ye s
End
TEST 1
Park vehicle on an incline (more than 5) and release parking
and service brakes. Does the vehicle move?No
Park mechanism malfunction

Misadjusted shift lever

AUTOMATIC TRANSMISSION ± On-vehicle Service23-19
CONVERTER STALL TEST 23100540138
In this test, the engine maximum speed when the
torque converter stalls with the shift lever in the
ªDº or ªRº range is measured to check operation
of the torque converter, starter and one-way clutch
and check holding performance of the transmission
clutch (including brake).
Caution
Do not stand in front or at rear of the vehicle
during this test.
(1) Check the transmission fluid level. The fluid
temperature should be at the level after normal
operation (70 ± 80
C). The engine coolant
temperature should also be at the level after
normal operation (80 ± 90
C).
(2) Apply chocks to the rear wheels (right and left).
(3) Mount an engine tachometer.
(4) Apply fully the parking and service brakes.(5) Start the engine.
(6) With the selector lever in the ªDº range, fully
depress the accelerator pedal and read off the
engine maximum speed.
Standard value:
2,100 ± 2,400 r/min <4G63>
2,300 ± 2,600 r/min <4D56>
NOTE
When doing so, do not keep the engine running
with throttle full open for more than 5 seconds.
If two or more stall tests are needed, place
the selector lever in the ªNº position and run
the engine at about 1,000 r/min to allow the
transmission fluid to cool before another stall
test.
(7) Place the selector lever in the ªRº range and
perform the test as above.
JUDGEMENT OF STALL TEST RESULTS
Stall speed in ªDº and ªRº range is equal to each other
but lower than the nominal value.(1) Engine output is low.
(2) Starter one-way clutch is faulty. (Faulty torque
converter is suspected if it is lower than nominal
by more than 600 r/min)
Stall speed in ªDº range is higher than nominal.(1) Overdrive clutch slipping
(2) Overdrive one-way clutch faulty
(3) Forward clutch slipping
(4) One-way clutch No. 2 faulty
(5) Low line pressure
Stall speed in ªRº range is higher than nominal.(1) Overdrive clutch slipping
(2) Overdrive one-way clutch faulty
(3) Direct clutch slipping
(4) Brake No. 3 slipping
(5) Low line pressure

FRONT AXLE ± General Information26-2
GENERAL INFORMATION26100010111
2WD
The front hub assembly which uses a double taper
roller bearing is mounted on the knuckle spindle.For vehicles with ABS, a rotor for detecting the
wheel speed is press-fitted into the front hub.
4WD
The front axle consists of the hub assembly, drive
shaft, inner shaft, front differential, freewheel clutch
assembly and actuator. The features are:

The wheel bearing uses a double taper roller
bearing. For vehicles with ABS, a rotor for
detecting the wheel speed is bolted to the brake
disc.

Drive shafts of almost identical length reduce
torque steer. In addition, a D.O.J.-B.J.-type
constant velocity ball joint has high power
transmission efficiency and reduces vibration
and noise.
A vacuum-type freewheel clutch has been
adopted in the freewheel mechanism. Its
solenoid valve and actuator switch powertrain
between 2WD and 4WD.

There are two types of differential gear. The
difference between them is gear ratio.
2WD
ItemSpecifications
Wheel bearingTypeDouble taper roller bearing
Inner bearing (O.D. x I.D.) mm65.1 x 34.9
Outer bearing (O.D. x I.D.) mm50.0 x 21.4
4WD
<Bearings>
ItemSpecifications
Wheel bearingTypeDouble taper roller bearing
Inner bearing (O.D. x I.D.) mm73 x 45
Outer bearing (O.D. x I.D.) mm73 x 45
Drive shaftJoint typeOuter: B.J.
Inner: D.O.J.
Shaft length (joint to joint) mmRight: 318
Left: 291
Inner shaftO.D. x length mm31.5 x 304.2
Bearing (O.D. x I.D.) mm62 x 35

5
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861
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35A-2
BASIC BRAKE
SYSTEM
CONTENTS35109000197
GENERAL INFORMATION 3. . . . . . . . . . . . . . . . . .
SERVICE SPECIFICATIONS 5. . . . . . . . . . . . . . . . .
LUBRICANTS 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SEALANTS 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SPECIAL TOOLS 6. . . . . . . . . . . . . . . . . . . . . . . . . . .
TROUBLESHOOTING 7. . . . . . . . . . . . . . . . . . . . . . .
ON-VEHICLE SERVICE 10. . . . . . . . . . . . . . . . . . . .
Brake Pedal Check and Adjustment 10. . . . . . . . . .
Stop Lamp Switch Check 11. . . . . . . . . . . . . . . . . . . . .
Brake Booster Operating Test 11. . . . . . . . . . . . . . . . .
Check Valve Operation Check 12. . . . . . . . . . . . . . .
Brake Booster Vacuum Switch Check
<Diesel-powered vehicles> 12. . . . . . . . . . . . . . . . . . .
Bleeding 12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Brake Fluid Level Sensor Check 13. . . . . . . . . . . . . Load Sensing Spring Length Check and
Adjustment 13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Load Sensing Proportioning Valve Function
Test 14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disc Brake Pad Check and Replacement 15. . . . .
Front Disc Brake Rotor Check 16. . . . . . . . . . . . . . .
Brake Lining Thickness Check 17. . . . . . . . . . . . . . .
Brake Drum Inside Diameter Check 18. . . . . . . . . .
Brake Lining and Brake Drum Connection
Check 18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . BRAKE PEDAL 19. . . . . . . . . . . . . . . . . . . . . . . . . . .
MASTER CYLINDER AND BRAKE
BOOSTER 20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
LOAD SENSING PROPORTIONING
VA LV E 2 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FRONT DISC BRAKE 24. . . . . . . . . . . . . . . . . . . . .
REAR DRUM BRAKE 30. . . . . . . . . . . . . . . . . . . . .

BASIC BRAKE SYSTEM ± General Information35A-3
GENERAL INFORMATION35100010120
The brake system has high reliability and durability
which maintains excellent braking performance and
braking feeling. The main features are as follows.

A dual type master cylinder is equipped in all
models.

Both a single type and a tandem type brake
booster have been adopted.
The following type of brake have been adopted.
Front: Floating caliper, 2-piston, ventilated disc
brakes (V4-W43, V5-W43) or floating caliper,
1-piston, ventilated disc brakes (V4-S60,
V5-S60)
Rear: Leading-trailing type drum brake.
Items2WD
<Petrol-powered
vehicles>2WD
<Diesel-powered
vehicles>4WD
<Petrol-powered
vehicles>4WD
<Diesel-powered
vehicles>
Master cylinder I.D. mm23.823.823.823.8
Brake booster effective dia.
of power cylinder mm230
205 + 230*230
180 + 205*205 + 230180 + 205
Brake booster boosting ratio5.05.07.07.0
Load sensing proportioning
valve decompression ratio0.150.150.150.15
Front brake disc effective
dia. mm200200222
228*222
228*
Front brake wheel cylinder
I.D. mm60.3
42.9*60.3
42.9*60.3
42.9*60.3
42.9*
Rear drum brake drum I.D.
mm254254270270
Rear drum brake wheel
cylinder I.D. mm23.823.823.823.8
Rear drum brake lining
thickness mm4.74.74.74.7
NOTE
*: Vehicles with ABS.

BASIC BRAKE SYSTEM ± Service Specifications35A-5
SERVICE SPECIFICATIONS35100030119
ItemsStandard valueLimit
Brake pedal height mm176 ± 181±
Brake pedal free play mm3 ± 8±
Brake pedal to floor board clearance mm95 or more±
Load sensing proportioning
valve outputpressure kPa
2WDWhen load sensing
spring length is 190
3,625 (5,884)±
valve out ut ressure kPa
(Input pressure kPa)
s ring length is 190
mm (when unladen)5,390 (17,652)±
When load sensing
spring length is 215
mm (when laden)14,393 (17,652)±
4WDWhen load sensing
spring length is 190
4,309 (5,884)±
s ring length is 190
mm (when unladen)6,074 (17,652)±
When load sensing
spring length is 215
mm (when laden)16,310 (17,652)±
Load sensing spring length mm189 ± 193±
Booster push rod to master
cylinder piston clearance mmSingle brake boosterPetrol-powered ve-
hicles0.65 ± 1.05±
Diesel-powered ve-
hicles1.00 ± 1.40±
Tandem brake boosterVehicle which brake
booster of power
cylinder is 180 mm
and 205 mm in
effective diameter0.90 ± 1.30±
Vehicle which brake
booster of power
cylinder is 205 mm
and 230 mm in
effective diameter0.70 ± 1.10±
Front disc brake pad thickness mm102.0
Front brake disc thickness mm2422.4
Front brake disc run-out mm2WD±0.08
4WD±0,06
Front disc brake drag force (tangential force of wheel mounting bolts) N69 or less±
Rear drum brake lining thickness mm4.71.0
Rear drum inside diameter mm2WD254.0256.0
4WD270.0272.0
Front hub end play mm0.05±