engine MITSUBISHI DIAMANTE 1900 Repair Manual

- 8-38 SUSPENSION AND STEERING
11. Adjust the power steering belt for proper ten-
sion and tighten the adjusting bolts.
12. Reconnect the negative battery cable.
13. Refill the reservoir and bleed the system.
3. Of EIJGINE
1. Disconnect the battery negative cable. 2. Disconnect the return fluid line. Remove the
reservoir cap and allow the return line to drain the
fluid from the reservoir. If the fluid is contaminated,
disconnect the ignition high tension cable and crank
the engine several times to drain the fluid from the
gear box.
3. Remove the power steering pump drive belt.
4. Remove the pressure switch connector from
the side of the pump.
5. If the alternator is located under the oil pump,
cover it with a shop towel to protect it from oil.
6. Disconnect the high pressure hose and the
return hose from the pump.
7. Remove the pump drive belt and unbolt the
pump from its bracket and remove the pump.
To install: 8. Install the pump, *rap the belt around the
pulley and tighten the bolts that secure the pump to
17 ft. Ibs. (24 Nm).
9. Replace the O-rings and connect the high
pressure hose. Connect the pressure line so the
notch in the fitting aligns and contacts the pump’s
guide bracket. Tighten the mounting nut with lock-
washer to 17 ft. Ibs. (24 Nm).
IO. Using a new hose clamp, connect the return
line.
11. Attach the pressure switch connector.
12. Adjust the belt tension and tighten the
adjust- ing bolts.
13. Refill the reservoir and bleed the system.
Diamante *
FRONT
. 1. Disconnect the battery negative cable. 2. Disconnect the return fluid line. Remove the
reservoir cap and allow the return line to drain the
fluid from the reservoir. If the fluid is contaminated,
disconnect the ignition high tension cable and crank
the engine several times to drain the fluid from the
gearbox.
3. Remove the power steering pump drive belt.
4. Remove the pressure switch connector from
the side of the pump.
5. If the alternator is located under the oil pump,
cover it with a shop towel to protect it from oil.
6. Disconnect the high pressure hose and the
return hose from the pump.
7. Remove the pump drive belt and unbolt the
pump from its bracket and remove the pump.
To install: 8. Install the pump, wrap the belt around the
pulley and tighten the bolts that secure the pump to
17 ft. Ibs. (24 Nm).
9. Replace the O-rings and connect the high
pressure hose. Connect the pressure line so the
notch in the fitting aligns and contacts the pump’s
guide bracket. Tighten the mounting nut with lock-
washer to 17 ft. Ibs. (24 Nm).
10. Using a new hose clamp, connect the return
line.
Il. Attach the pressure switch connector.
12. Adjust the belt tension and tighten the adjust-
ing bolts.
13. Refill the reservoir and bleed the system.
REAR
1. Disconnect the negative battery cable.
2. Drain the power steering fluid.
3. Remove the rear power steering pump heat
protector, located on the engine side of the differen-
tial on the transaxle.
4. Disconnect the pressure line from the pump.
5. Disconnect the suction hose from the pump.
6. Remove the mounting bolts and remove the
pump from the transaxle.
44
33
REMOVAL STEPS
5. POWER STEERING PUMP
BRACKET STAY
6. OIL PUMP 1. DRIVE-BELT
2. SUCTION HOSE I ’ 3. PRESSURE HOSE
4. PRESSURE SWITCH
CONNECTOR
Exploded view of the power steering pump-Diamante
. 93158ga5
7. The installation is the reverse of the removal
procedure. Tighten the mounting bolts to 17 ft. Ibs.
(24 Nm).
8. Refill the reservoir and bleed the system.
Extreme caution should be taken when test-
ing the rear steering pump. Ensure that the
vehicle is supported safely and that all com-
ponents are torqued to specification prior be
testing.
. SYSTEM BLEEDING
,Front
1. Raise the vehicle and support safely.
2. Manually turn the pump pulley a few times.
3. Turn the steering wheel all the way to the left
and to the right 5 or 6 times.
4. Disconnect the ignition high tension cable
and, while operating the starter motor intermittently,
turn the steering wheel all the way to the letI and right
5-6 times for 15-20 seconds. During bleeding,
make sure the fluid in the reservoir never falls below
the lower position of the filter. If bleeding is at-
tempted with the engine running, the air will be ab-
sorbed in the fluid. Bleed only while cranking.
5. Connect ignition high tension cable, start en-
gine and allow to idle.
6. Turn the steering wheel left and right until
there are no air bubbles in the reservoir. Confirm that
the fluid is not milky and the level is up to the speci-
fied position on the gauge. Confirm that there is very
little change in the fluid level when the steering wheel
is turned. If the fluid level changes more than 0.2 in.
(5mm), the air has not been completely bled. Repeat
the process.
Rear
.
1. Bleed the front steering system.
2. Start the engine and let it idle.
3. Loosen the bleeder screw on the left side of the
control valve and install special tool MB991230 to
the bleeder.
4. Turn the steering wheel all the way to the left,
then immediately turn it halfway back. Confirm that
air has discharged with the fluid.
5. Repeat Step 4 two or three times as required,
to remove all air from the rear system. Stop the en-
gine.
6. Loosen the power cylinder (rear steering gear)
bleeder screw about I/* turn and install the same
special tool with the rotation prevention metal fixtures
to prevent the bleeder from opening more.
7. Start the engine and run to 50 mph to circulate
the fluid.
8. Maintain a speed of 20 mph and turn the steer-
ing wheel back and forth. Air should be discharged ,
through the tube of the special tool and into the oil
reservoir.
9. Repeat until all air is removed from the power
cylinder.

9-2 BRAKES
Hydraulic systems are used to actuate the brakes
of all modern automobiles. The system transports the
power required to force the frictional surfaces of the
braking system together from the pedal to the indi-
vidual brake units at each wheel. A hydraulic system
is used for two reasons.
First, fluid under pressure can be carried to all
parts of an automobile by small pipes and flexible
hoses without taking up a significant amount of room
or posing routing problems.
Second, a great mechanical advantage can be
given to the brake pedal end of the system, and the
foot pressure required to actuate the brakes can be
reduced by making the surface area of the master
cylinder pistons smaller than that of any of the pis-
tons in the wheel cylinders or calipers.
The master cylinder consists of a fluid reservoir
along with a double cylinder and piston assembly.
Double type master cylinders are designed to sepa-
rate the front and rear braking systems hydraulically
in case of a leak. The master cylinder converts me-
chanical motion from the pedal into hydraulic pres-
sure within the lines. This pressure is translated back
into mechanical motion at the wheels by either the
wheel cylinder (drum brakes) or the caliper (disc
brakes).
Steel lines carry the brake fluid to a point on the
vehicle’s frame near each of the vehicle’s wheels. The
fluid is then carried to the calipers and wheel cylin-
ders by flexible tubes in order to allow for suspen-
sion and steering movements.
In drum brake systems, each wheel cylinder con-
tains two pistons, one at either end, which push out-
ward in opposite directions and force the brake shoe
into contact with the drum.
In disc brake systems, the cylinders are part of the
calipers. At least one cylinder in each caliper is used
to force the brake pads against the disc.
All pistons employ some type of seal, usually
made of rubber, to minimize fluid leakage. A rubber
dust boot seals the outer end of the cylinder against
dust and dirt. The boot fits around the outer end of
the piston on disc brake calipers, and around the
brake actuating rod on wheel cylinders.
The hydraulic system operates as follows: When at
rest, the entire system, from the piston(s) in the mas-
ter cylinder to those in the wheel cylinders or
calipers, is full of brake fluid. Upon application of the
brake pedal, fluid trapped in front of the master cylin-
der piston(s) is forced through the lines to the wheel
cylinders. Here, it forces the pistons outward, in the
case of drum brakes, and inward toward the disc, in
the case of disc brakes. The motion of the pistons is
opposed by return springs mounted outside the
cylinders in drum brakes, and by spring seals, in disc
brakes.
Upon release of the brake pedal, a spring located
inside the master cylinder immediately returns the
master cylinder pistons to the normal position. The
pistons contain check valves and the master cylinder
I
has compensating ports drilled in it. These are un-
covered as the pistons reach their normal position.
The piston check valves allow fluid to flow toward the
wheel cylinders or calipers as the pistons withdraw.
Then, as the return springs force the brake pads or
shoes into the released position, the excess fluid
reservoir through the compensating ports. It is during the time the pedal is in the released position that any
fluid that has leaked out of the system will be re-
placed through the compensating ports.
Dual circuit master cylinders employ two pistons,
located one behind the other, in the same cylinder.
The primary piston is actuated directly by mechanical
linkage from the brake pedal through the power
booster. The secondary piston is actuated by fluid
trapped between the two pistons. If a leak develops in
front of the secondary piston, it moves forward until it
bottoms against the front of the master cylinder, and
the fluid trapped between the pistons will operate the
rear brakes. If the rear brakes develop a leak, the pri-
mary piston will move forward until direct contact
with the secondary piston takes place, and it will
force the secondary piston to actuate the front brakes.
In either case, the brake pedal moves farther when the
brakes are applied, and less braking power is avail-
able.
All dual circuit systems use a switch to warn the
driver when only half of the brake system is opera-
tional. This switch is usually located in a valve body
which is mounted on the firewall or the frame below
the master cylinder. A hydraulic piston receives pres-
sure from both circuits, each circuits pressure being
applied to one end of the piston. When the pressures
are in balance, the piston remains stationary. When
one circuit has a leak, however, the greater pressure
in that circuit during application of the brakes will
push the piston to one side, closing the switch and
activating the brake warning light.
In disc brake systems, this valve body also con-
tains a metering valve and, in some cases, a propor-
tioning valve. The metering valve keeps pressure
from traveling to the disc brakes on the front wheels
until the brake shoes on the rear wheels have con-
tacted the drums, ensuring that the front brakes will
never be used alone. The proportioning valve con-
trols the pressure to the rear brakes to lessen the
chance of rear wheel lock-up during very hard brak-
ing.
Warning lights may be tested by depressing the
brake pedal and holding it while opening one of the
wheel cylinder bleeder screws. If this does not cause
the light to go on, substitute a new lamp, make conti-
nuity checks, and, finally, replace the switch as nec-
essary.
The hydraulic system may
be checked for leaks by applying pressure to the pedal gradually and steadily.
If the pedal sinks very slowly to the floor, the system
has a leak. This is not to be confused with a springy
or spongy feel due to the compression of air within
the lines. If the system leaks, there will be a gradual
change in the position of the pedal with a constant
pressure.
Check for leaks along all lines and at wheel cylin-
ders. If no external leaks are apparent, the problem is
inside the master cylinder,
DISC BRAKES
Instead of the traditional expanding brakes that
press outward against a circular drum, disc brake
systems utilize a disc (rotor) with brake pads posi-
tioned on either side of it. An easily-seen analogy is
the hand brake arrangement on a bicycle. The pads
squeeze onto the rim of the bike wheel, slowing its
motion. Automobile disc brakes use the identical principle but apply the braking effort to a separate
disc instead of the wheel.
The disc (rotor) is a casting, usually equipped with
cooling fins between the two braking surfaces. This
enables air to circulate between the braking surfaces
making them less sensitive to heat buildup and more
resistant to fade. Dirt and water do not drastically af-
fect braking action since contaminants are thrown off
by the centrifugal action of the rotor or scraped off
the by the pads. Also, the equal clamping action of
the two brake pads tends to ensure uniform, straight
line stops. Disc brakes are inherently self-adjusting.
There are three general types of disc brake:
1. A fixed caliper.
2. A floating caliper.
3. A sliding caliper.
The fixed caliper design uses two pistons
mounted on either side of the rotor (in each side of
the caliper). The caliper is mounted rigidly and does
not move.
The sliding and floating designs are quite similar.
In fact, these two types are often lumped together. In
both designs, the pad on the inside of the rotor is
moved into contact with the rotor by hydraulic force.
The caliper, which is not held in a fixed position,
moves slightly, bringing the outside pad into contact
with the rotor. There are various methods of attaching
floating calipers. Some pivot at the bottom or top,
and some slide on mounting bolts. In any event, the
end result is the same.
DRUM BRAKES
Drum brakes employ two brake shoes mounted on
a stationary backing plate. These shoes are posi-
tioned inside a circular drum which rotates with the
wheel assembly. The shoes are held in place by
springs. This allows them to slide toward the drums
(when they are applied) while keeping the linings and
drums in alignment. The shoes are actuated by a
wheel cylinder which is mounted at the top of the
backing plate. When the brakes are applied, hydraulic
pressure forces the wheel cylinder’s actuating links
outward. Since these links bear directly against the
top of the brake shoes, the tops of the shoes are then
forced against the inner side of the drum. This action
forces the bottoms of the two shoes to contact the
brake drum by rotating the entire assembly slightly
(known as servo action). When pressure within the
wheel cylinder is relaxed, return springs pull the
shoes back away from the drum.
Most modern drum brakes are designed to self-
adjust themselves during application when the vehi-
cle is moving in reverse. This motion causes both
shoes to rotate very slightly with the drum, rocking
an adjusting lever, thereby causing rotation of the ad-
justing screw. Some drum brake systems are de-
signed to self-adjust during application whenever the
brakes are applied. This on-board adjustment system
reduces the need for maintenance adjustments and
keeps both the brake function and pedal feel satisfac-
tory.
POWER BOOSTERS
Virtually all modern vehicles use a vacuum as-
sisted power brake system to multiply the braking
force and reduce pedal effort. Since vacuum is always
available when the engine is operating, the system is

BRAKiS 9-3
simple and efficient. A vacuum diaphragm is located gine. Have an assistant observe the brake lights at the
on the front of the master cylinder and assists the dri- rear of the vehicle while you push on the brake pedal.
ver in applying the brakes, reducing both the effort The lights should come on just as the brake pedal
and travel he must put into moving the brake pedal. passes the point of free play.
The vacuum diaphragm housing is normally con- 9.
Adjust the brake light switch as necessary. The
netted to the intake manifold by a vacuum hose. A small amount of free play in the
pedal should not
check valve is placed at the point where the hose en-
ters the diaphragm housing, so that during periods
Of low manifold vacuum brakes assist will not be lost.
Depressing the brake pedal closes off the vacuum
source and allows atmospheric pressure to enter on
one side of the diaphragm. This causes the master
cylinder pistons to move and apply the brakes. When
the brake pedal is released, vacuum is applied to
REMOVAL &INSTALLATION
both sides of the diaphragm and springs return the
diaphragm and master cylinder pistons to the re- ) See Figures 2 thru 10
leased position.
If the vacuum supply fails, the brake pedal rod will
contact the end of the master cylinder actuator rod
and the system will apply the brakes without any
power assistance. The driver will notice that much
higher pedal effort is needed to stop the car and that
the pedal feels harder than usual.
Vacuum leak Test
1. Operate the engine at idle without touching the
brake pedal for at least one minute.
2. Turn off the engine and wait one minute.
3. Test for the presence of assist vacuum by de-
pressing the brake pedal and releasing it several
3 MASTER N- 188A11Ly
times. If vacuum is present in the system, light appli- . KLNsIMEm 0s CLWRANCE
BETWEEN BRAKE WOSTER
cation will produce less and less pedal travel. If there PUSHROO AN0 PRIMARY PISTCU
is no vacuum, air is leaking into the system.
System Operation Test
1. With the engine OFF, pump the brake pedal
until the supply vacuum is entirely gone.
2. Put light, steady pressure on the brake pedal.
3. Start the engine and let it idle. If the system is
operating correctly, the brake pedal should fall to-
ward the floor if the constant pressure is maintained.
Power brake systems may be tested for hydraulic
leaks just as ordinary systems are tested.
REMOVAL&INSTALLATION
$ See Figure 1
1. Disconnect the negative battery cable.
2. Detach the stop lamp switch electrical harness
connector.
3. Loosenthe locknut holding the switch to the
bracket. Remove the locknut and the switch.
To install:
4.
Install the new switch and install the locknut,
tightening it just snug.
5. Reposition the brake light switch so that the
distance between the outer case of the switch and the
pedal is 0.02-0.04 in. (0.5-l .Omm). Note that the
switch plunger must press against the pedal to keep
the brake lights off. As the pedal moves away from
the switch, the plunger extends and closes the
switch, which turns on the stop lights.
6.
Hold the switch in the correct position and
tighten the locknut.
7. Connect the wiring to the switch.
8. Check the operation of the switch. Turn the ig-
nition key to the ON position but do not start the en-

9-4 BRAKES
Fig 8 Unfasten the master cylinder-to-
power booster retaining nuts . . . F57g’6~ Fig. 9 . . . then remove the master cylinder
assembly from the vehicle Fig. 10 The brake booster pushrod and prf-
mary piston clearance (A) must be adjusted
1. Disconnect the negative battery cable.
2. Remove the master cylinder reservoir cap,
then use a clean turkey baster or equivalent to siphon
out as much fluid as possible and place in a suitable
container. Install the cap.
Brake fluid contains polyglycol ethers and
polyglycols. Avoid contact with the eyes and
wash your hands thoroughly after handling
brake fluid. If you do get brake fluid in your
eyes, flush your eyes with clean, running wa-
ter for 15 minutes. If eye irritation persists,
or if you have taken brake fluid internally,
IMMEDIATELY seek medical assistance.
3. Disconnect and plug the lines from the brake
master cylinder reservoir.
4. Detach the fluid level sensor connector, un-
fasten the retainers, then remove the master cylinder
reservoir.
5. For vehicles equipped with manual transaxle,
remove the clutch master cylinder reservoir bracket.
6. Disconnect and plug the brake lines from the
master cylinder.
7. Unfasten the master cylinder-to-power
booster retainino nuts, then remove the master cvlin- ante value will become 0.004-0.012 in.
(0.1-0.3mm).
9. install the master cylinder to the brake
booster, then install the retaining nuts. Tighten the
nuts to 7 ft. Ibs. (10 Nm).
10. Install the master cylinder reservoir, securing
the retainers.
11. Attach the fluid level sensor connector, then
unplug and connect the fluid lines to the reservoir.
12. The remainder of installation is the reverse of
the removal procedure. Fill the reservoir with the
proper type and amount of DOT 3 brake fluid from a
fresh, sealed container.
I l
Clean, high quality brake fluid is essential to
the safe and proper operation of the brake
system. You should always buy the highest
quality brake fluid that is available. If the
brake fluid becomes contaminated, drain and
flush the system, then refill the master cylin-
der with new fluid. Never reuse any brake
fluid. Any brake fluid that is removed from
the system should be discarded. Also, do not
allow any brake fluid to come in contact with
a painted surface; it will damage the paint. Measure the brake pedal height from the floor of
the vehicle to the upper surface of the brake pedal.
The distance should be 6.9-7.1 in (176181mm). If
the brake pedal height is incorrect, adjust as follows:
1. Detach the stop lamp switch connector.
2. Loosen the locknut on the base of the stop
light switch and move the switch to a position where
it does not contact the brake pedal.
3. Loosen the operating rod locknut. Adjust the
height of the brake pedal by turning the operating rod
using pliers. Once the desired pedal height is ob-
tained, tighten the locknut on the operating rod.
4. Screw the stop light switch until the it contacts
the brake pedal stopper. Turn switch in until the
brake pedal just starts to move. At this point, return
(loosen) the stoplight switch $-1 turn and secure in
this position by tightening the locknut. In this posi-
tion, the distance between the lower stop light switch
case and the brake pedal stop should be 0.02-0.04
in. (0.5-l .Omm).
5. Attach the electrical connector to the stop light
switch.
6. Check to be sure that the stop lights are not il-
luminated with no pressure on the brake pedal.
7. Without starting the vehicle, depress the brake
pedal. If the brake light switch is properly connected,
the brake lights will illuminate.
der from the vefiicle.
To install:
8. Adjust the clearance (A)
booster pushrod ant
a. Calculate tl -,
between the brake
I the primary piston as follows:
le clearance A from the B, C
accompa-
i D.
I.335 in.
negative and D measurements, as shown in the
nying figure.A equals B minus C minus
b. The clearance should be 0.256-t
(0.65-0.858mm). When brake booster I
pressure 9.7 psi (67 kPa) is applied, then clear- 13. Bleed the brake system, as outlined later in
this section.
14. Adjust the brake pedal, as outlined later in
this section.
BRAKE PEDAL ADJUSTMENTS
Brake Pedal Height
b See Figures 11, 12, and 13 Brake Pedal Free-Play
II See Figure 14
1. With the engine off, depress the brake pedal
fully several times to evacuate the vacuum in the
booster.
2. Once all the vacuum assist has been elimi-
nated, press the brake pedal down by hand and con-
/
0.5-1.0 mm (.020-B40in.J I
I
I I
Fig. 12 Adjust the brake pedal height by in- I I.
@57w
Cir 44 “a*., .._^ *I.- 9.--l,- ---I-* L-@-L. -I Fig. 13 Inspect the clearance between thf . . - _-.L -*.a- - . . * _ . . . . ._ . rly. I I rnca~urc we urime peoai nefgnr ar
A and compare to specifications creasmg or aecreasing the lengrn or me op-
erating rod mop llgnt WItCh arm the brake pedal stop
and compare to specifications

BRAKES 9-5
Inspect brake pedal free-play
firm that the amount of movement before resistance
is felt is within 0.1-0.3 in. (3-8mm).
3. If the free-play is less than desired, confirm
that the brake light switch is in proper adjustment.
4. If there is excessive free-play, look for wear or
play in the clevis pin and brake pedal arm. Replace
worn parts as required and recheck brake pedal free-
Play*
REMOVAL &INSTALLATION '
b See Figure 15
1. Disconnect the negative battery cable.
2. Siphon the brake fluid from the master cylin-
der reservoir.
Brake fluid contains polyglycol ethers and
polyglycols. Avoid contact with the eyes and
wash your hands thoroughly after handling
brake fluid. If you do get brake fluid in your
eyes, flush your eyes with clean, running wa-
. ter for 15 minutes. If eye irritation persists,
or if you have taken brake fluid internally,
IMMEDIATELY seek medical assistance.
3. Remove and relocate the air conditioning re-
lay box and the solenoid valve located at the power
brake unit.
4. Disconnect the vacuum hose from the
booster by pulling it straight off. Prying off the vac-
uum hose could damage the check valve installed in
the brake booster vacuum hose.
5. Detach the electrical harness connector from
the brake level sensor.
6. Remove the nuts attaching the master cylin-
der to the booster and remove the master cylinder
and position aside. If necessary, disconnect and plug
the brake fluid lines at the master cylinder.
7. From inside the passenger compartment, re-
move the cotter pin and clevis pin that secures the
booster pushrod to the brake pedal.
8. From inside the vehicle, remove the nuts that
attach the booster to the dash panel. Remove the
brake booster from the engine compartment.
To install: 9. Install the brake booster to the dash panel.
From inside the vehicle, install the attaching nuts and
tighten to 12 ft. Ibs. (17 Nm). 10. Apply grease to the clevis pin and install with
washers in place. Install new cotter pin and bend to
secure in place.
11. Attach the vacuum hose to the booster fitting.
12. Install the master cylinder assembly to the
mounting studs on the brake booster. Install the mas-
ter cylinder mounting nuts and tighten to 9 ft. Ibs. (12
Nm).
13. Reconnect the brake fluid reservoir to the
master cylinder, if disconnected. Attach the electrical
connector to the brake fluid level sensor.
14. Install the solenoid valve assembly and the
relay box, if removed.
15. Connect the negative battery cable.
16. Add fluid to the brake fluid reservoir as re-
quired.
Clean, high quality brake fluid is essentlal to
the safe and proper operation of the brake
system. You should always buy the highest
quality brake fluid that is available. If the
brake fluid becomes contaminated, drain and
flush the system, then refill the master cylin-
der with new fluid. Never reuse any brake
fluid. Any brake fluid that is removed from
the system should be discarded. Also, do not
allow any brake fluid to come in contact with
a painted surface; it will damage the paint.
17. Bleed the master cylinder. If after bleeding the
master cylinder the brake pedal feels soft, bleed the
brake system at all wheels.
18. Check the brake system for proper operation. *
rn( mr
'13 1. Relay box for air
conditioner
l-13 t- I, Ltx5. 5-18 NM 2. Solenoid valve
3. Brake fluid level
sensor connector
6 4. Brake tube
5. Master cylinder, hose
and reservoir
assem biy
Fig. 15 Exploded view of the power brake booster and related components-most models
12.
13.
14. Fitting 1
Cotter pin;
Washer 1
Clevis pin’ Fuel retuti tub8 installatiob bolt
Brake tUd8 installatioh bolt
Brake booster
Sealer
89579glt

BRAKES 9-23
1. Make sure the parking brake cable is free and
is not frozen or sticking.
2. Apply the parking brake with 45 Ibs. (200 N) of
force while counting the number of notches. The de-
sired parking brake stroke should be 5-7 notches.
3. If adjustment is required, access the adjusting
nut from inside the floor console.
4. Loosen the locknut on the cable rod.
5. Rotate the adjusting nut to adjust the parking
brake stroke to the 5-7 notch setting. After making
the adjustment, check there is no looseness between
the adjusting nut and the parking brake lever, then
tighten the locknut.
*Do not adjust the parking brake too tight. If
the number of notches is less than specifica-
tion, the cable has been pulled too much and
the automatic adjuster will fail or the brakes
will drag.
6. After adjusting the lever stroke, raise the rear of
the vehicle and safely support. With the parking brake
lever in the released position, turn the rear wheels to
confirm that the rear brakes are not dragging.
7. Check that the parking brake holds the vehicle
on an incline.
Galant
‘ 1990-93 VEHICLES
# See Figure 111
1. Pull the parking brake lever up with a force of
about 45 Ibs. (200 N). The total number of clicks
heard should be 5-7 clicks. If the number of clicks
was not within that range, the system requires adjust-
ment.
*The parking brake shoes must be adjusted
before attempting to adjust the cable mecha-
nism
2. To adjust the parking brake shoes perform the
following steps.
a. Remove the floor console, release the lever
and back off the cable adjuster locknut at the
base of the lever.
b. Raise the vehicle, support safely and re-
move the wheel.
c. Remove the hole plug in the brake rotor.
d. Remove the brake caliper and hang out of
the way with wire. Do not disconnect the fluid
line.
e. Use a suitable prybar to pry up on the self-
adjuster wheel until the rotor will not turn.
f. Return the adjuster 5 notches in the oppo-
site direction. Make sure the rotor turns freely
with a slight drag.
Fig. 111 Parking brake system adjustment
points-1993 Galant
g. Install the caliper and check operation.
3. Once the parking brake shoes have been prop-
erly adjusted, adjust the cable mechanism, by per-
forming the following steps: _
a. Turn the adjusting nut to give the proper
number of clicks when the lever is raised full
travel.
b. Raise and support the rear of the car on
jackstands.
c. Release the brake lever and make sure that
the rear wheels turn freely. If not, back off on the
adjusting nut until they do.
1994470 VEHICLES
1, Pull the parking brake lever with a force of ap-
prox. 45 Ibs. (200 N) and count the number of
notches. Standard value is: 5-7 notches.
The 45 lbs. (200 N) force of the parking brake
lever must be strictly observed.
2. If the parking brake lever is not the standard
value, adjust in the following manner:
a. Remove the inner compartment mat of the
floor console
b. Loosen the adjusting nut at the end of the
cable rod, freeing the parking brake.
c. With the engine idling, forcefully depress
the brake pedal five or six times and confirm that
the pedal stroke stops changing. If the pedal
stroke stops changing, the automatic-adjustment
mechanism is functioning normally, and the
clearance between the shoe and the drum is cor-
rect.
d. After adjusting the parking brake lever
stroke, safely raise and support the rear of the
vehicle and with the parking brake lever in the re-
leased position, turn the rear wheels to confirm
that there is no brake drag.
Diamante
1. Pull the parking brake lever up with a force of
about 45 Ibs. (200 N). The total number of clicks
heard should be 3-5. If the number of clicks was not
within that range, the system requires adjustment.
93159901 Fig. 112 Exploded view of the parking shoes
and related components-1994-00 Galant
with disc brakes *The parking brake shoes must be adjusted
before attempting to adjust the cable mecha-
nism
2. To adjust the parking brake shoes, perform the
following steps: -
a. Remove the floor console, release the lever
and back off the cable adjuster locknut at the
base of the lever.
b. Raise the vehicle, support safely and re-
move the wheel. Remove the hole plug in the
brake rotor.
c. Remove the brake caliper and hang out of
the way with wire, Do not disconnect the fluid
line.
d. Use a suitable prybar to pry up on the self-
adjuster wheel until the rotor will not turn.
e. Return the adjuster 5 notches in the oppo-
site direction, Make sure the rotor turns freely
with a slight drag.
f. Install the caliper and check operation.
3. Once the parking brake shoes have been prop-
erly adjusted, adjust the cable mechanism, by per-
forming the following steps:
a. Pull the parking brake lever up with a force
of 45 Ibs. (200 N). The total number of clicks
heard should be 3-5.
b. Turn the adjusting
nut to give the proper
number of clicks when the lever is raised.
c. Raise and support the rear of the car on
jackstands.
d. Release the brake lever and make sure
that the rear wheels turn freely.
REMOVAL &INSTALLATION
1994-00 Galant and 1992-96 Diamante
# See Figures 112, 113, and 114
1. Raise and safely support the vehicle securely
on jackstands.
2. Remove the caliper assembly.
3. Remove the rear brake rotor.
I
I 93159902 Fig. 113 Exploded view of the parking brake
shoes and related components-1992-96
Diamante

BRAKES 9-25
Diagnostic inspection item Diagnostic content
trouble
code No.
11 Right front wheel speed sensor
12 Left front wheel speed sensor Open circuit
13 Right rear wheel speed sensor
14 Left rear wheel speed sensor
Abnormal output signal
Abnormal battery posi-
tive voltage 15 Wheel speed sensor system
16 Power supply system
r 21
I Right front wheel speed sensor 1 Excessive gap
22 I Left front wheel speed sensor or short circuit
23 Right rear wheel speed sensor
24 Left rear wheel speed sensor
36 Stop light switch system Open circuit or ON mal-
function
Right front solenoid valve system
I 5’ I Valve relay system 1 Valve relay OFF failure
I 53 1 Motor relay or motor system Motor relay OFF failure
and motor drive failure
63 ABS-ECU Malfunction in ABS-
ECU (program maze,
etc.)
I
!
Detection
conditions
B ’
A, B
A, B
A, B
A, 8
B
A, B
Detection conditions
A: During system check immediately after starting
B: When driving
89579954 Fig. 117 ABS diagnostic trouble code list-1992-96 Diamante
Diagnostrc
trouble Inspection item Detectron
code no. condalons
1
11 1 Front right wheel speed SensOr
I
I I
12 1 Front left wheel speed sensor
13 1 Rear right wheel speed sensor Open circuit
lBsC I
14
Rear left wheel speed sensor
15 Wheel speed sensor output signal abnormal
16 Power supply system
21 Front right wheel speed sensor A B
A, B, C
22 Front left wheel speed sensor
23 Rear right wheel speed sensor
24 Rear left wheel speed sensor
38 Stop light switch system Short circuit
8, c
B. C
41 1 Front right solenoid valve (inlet)
I I
42
Front left solenoid valve (inlet)
43 Rear right solenord valve (inlet) 0.c
44 Rear left solenoid valve (inlet)
45 Front right solenoid valve (outlet)
46 Front left solenoid valve (outlet)
47
Rear nght solenoid valve (outret) - B,C
48 Rear left solenoid valve (outlet)
51
Valve relay A 6, c
53
Motor relay B
63 ABSECU A B, c
Detection conditions
A: During system check immediately after starting 6: While ABS control is not operating while driving C: While ABS control is operating 93159go4 Fig. 118 ABS diagnostic trouble code list-1997-00 Diamante
The ABS control unit performs system tests and
self-tests during startup and normal operation. The
valves, wheel sensors and fluid level circuits are
monitored for proper operation. If a fault is found, the ABS will be deactivated and the amber ANTI LOCK
light will be lit until the ignition is turned OFF. When
the light is lit, the Diagnostic Trouble Code (DTC)
may be obtained. Under normal operation, the ANTI-
89579g53 Fig. 119 ABS diagnostic trouble code list-
1990-93 Galant
LOCK warning lamp will flash either twice (FWD) or 4
times (AWD) vehicles, in about 1 second with the ig-
,
nition switch ON , then the lamp will turn OFF.
The Diagnostic Trouble Codes (DTC) are an al-
phanumeric code and a scan tool, such as DRB-III,
MUT-II or equivalent diagnostic scan tool, is required
to retrieve the codes. Refer to the scan tool manufac-
turers instructions for operating the tool and retriev-
ing the codes.
The Data Link Connector (DLC) for the ABS is lo-
cated under the dash on the driver’s side. It is the
same connector used for the electronic engine con-
trol system.
REMOVALANDINSTALLATION
The Hydraulic Control Unit (HCU) is located in the
engine compartment. It contains the solenoid valves
and the pump/motor assembly which provides pres-
surized fluid for the anti-lock system when necessary.
Hydraulic units are not interchangeable on any vehi-
cles Neither unit is serviceable; if any fault occurs
within the hydraulic unit, the entire unit must be re-
placed.
Diamante
b See Figure 124
1. Disconnect the negative battery cable.
2. Remove the splash shield from beneath the
vehicle.
3. Use a syringe or similar device to remove as
much fluid as possible from the reservoir. Some fluid
will be spilled from lines during removal of the hy-
draulic unit; protect adjacent painted surfaces.
Brake fluid contains polyglycol ethers and
poly9lycols. Avoid contact with the eyes and
wash your hands thoroughly after handling
brake fluid. If you do 9et brake fluid in your
eyes, flush your eyes with clean, running wa-
ter for 15 minutes. If eye irritation persists,
or if you have taken brake fluid internally,
IMMEDIATELY seek medical assistance.
4. Lift the relay box with the harness attached
and position it aside.
5. Remove the air intake duct.
6. Disconnect the brake lines from the hydraulic
unit. Correct reassembly is critical. Label or identify
the lines before removal. Plug each line immediately

BRAKES 9-29
8. Reinstall the sensor harness with its clamps
and bolts.
9. Reconnect the speed sensor connector.
IO. Install the fender splash shield.
11. Reinstall the tire and wheel, safely lower the
vehicle, and reconnect the negative battery cable. To install: 7. Install the speed sensor and torque to 9 ft.
Ibs. (12 Nm).
8. Install the clips holding the sensor harness.
9. Connect the speed sensor connector.
IO. Connect the negative battery cable.
REAR REAR
) See Figure 131 and 132
1. Disconnect the negative battery cable. Wait at
least 90 seconds before performing any work.
2. Raise and safely support the vehicle. Remove
the necessary tire and wheel assembly.
3. Detach the ABS speed sensor connector.
4. Remove the sensor harness clamp bolts and
clamps.
I) See Figure 133
1. Disconnect the negative battery cable.
5. Remove the ABS speed sensor mounting bolt
and the sensor.
Work must be started after 90 seconds from
the time the ignition switch is turned to the
LOCK position and the negative battery cable
is disconnected.
To install:
6. Install the ABS speed sensor with its mounting
bolt.
*The clearance between the wheel speed
sensor and the rotor’s toothed surface is not
adjustable, but measure the distance be-
tween the sensor installation surface and the
rotor’s toothed surface. Standard value is:
1.11-l .I2 in. (28.2-28.4mm). If not within
specifications, replace the speed sensor or
the toothed rotor.
2. Raise and safely support the vehicle.
3. Detach the speed sensor connector.
4. Remove the clips holding the sensor harness.
5. On AWD models, remove the cable band.
6. Remove the mounting bolt and the speed
sensor with the O-ring.
To install: 7. Install the speed sensor with the O-ring and
torque to 9 ft. Ibs. (12 Nm).
8. Install the clips holding the sensor harness.
9. Install the cable band.
10. Install the sensor wire harness and connect
the connector.
7. Reinstall the sensor harness with its clamps
and bolts.
8. Reconnect the speed sensor connector.
9. Reinstall the tire and wheel, safely lower the
vehicle, and reconnect the negative battery cable.
Diamante
FRONT
* See Figure 133
1. Disconnect the negative battery cable.
Work must be started after 90 seconds from
the time the ignition switch is turned to the
LOCK position and the negative battery cable
is disconnected.
2. Raise and safely support the vehicle.
3. Remove the splash shield.
4. Detach the speed sensor connector.
5. Remove the clips holding the sensor harness.
6. Remove the speed sensor.
1 Front toothed rotor
2 Ckp
3 Front speed sensor
4 Front speed aenmr bracket t ;5’ toothed rotor ‘I Rear speed SB"SO,
93159016
Fig. 133 Wheel speed sensors-Diamante
11. Connect the negative battery cable.
The G-sensors are used only on the AWD vehi-
cles. The rear is mounted in the trunk under the floor
mat while the front sensor is under the console as-
sembly. The sensor transmits acceleration and decel-
eration information to the anti-lock control unit. This
data is used in conjunction with individual wheel
speed and engine data, allowing the controller to de-
termine the approximate road friction. This friction
factor is then used to compute the proper control of
the solenoid valves.
REMOVAL&INSTALLATION
# See Figure 134
1. For the front sensor, remove the console as-
sembly.
-lkol*)
1 wimp--vx
2 Gasnan I‘m”0
3. Gmwor LmcM
Bmar burl
: wwzh&T&m~mm-
6 G.smsol Ired Th, - ape.24 m-5 un Nt- vmsa*.
7 c-.elwnbRcta
93159909 Fig. 134 Front and rear G-sensor mount-
ing-l 990-93 AWD Galant
2. For the rear sensor, remove the trunk floor
mat.
3. Disconnect the G-sensor wiring harness.
4. Remove the cover from the rear sensor. Re-
move the sensor from the bracket. Remove the
bracket if desired.
To install: 5. Reinstall the bracket if it was removed.
6. Install the G-sensor and connect the wiring
harness. Tighten the retaining bolts to 8 ft. Ibs. (11
Nm).
7. Install the cover on the rear G-sensor.
8, Install the console and/or the trunk floor mat or
carpet.
REMOVAL & INSTALLATION
Front
1. Raise and safely support the vehicle.
2. Remove the wheel and tire.
3. Remove the wheel speed sensor and discon-
nect sufficient harness clips to allow the sensor and
wiring to be moved out of the work area.
*The speed sensor has a pole piece project-
ing from it. This exposed tip must be pro-
tected from impact or scratches. Do not al-
low the pole piece to contact the toothed
wheel during removal or installation.
4. Remove the front hub and knuckle assembly.
5. Remove the hub from the knuckle.
6. Support the hub in a vise with protected jaws.
7. Remove the retaining bolts from the toothed
wheel and remove the toothed wheel.
To install: 8. Fit the new toothed wheel onto the hub and
tighten the retaining bolts to 7 ft. Ibs. (10 Nm).
9. Assemble the hub to the knuckle
IO. Install the hub and knuckle assembly to the
vehicle.
11. Install the wheel speed sensor.
12. Install the wheel and tire.
13. Lower the vehicle to the ground.
Rear
EXCEPT AWD GALANT
1. Raise and safely support the vehicle.
2. Remove the wheel and tire.
3. Remove the wheel speed sensor and discon-
nect sufficient harness clips to allow the sensor and
wiring to be moved out of the work area.
*The speed sensor has a pole piece project-
ing from it. This exposed tip must be pro-
tected from impact or scratches. Do not al-
low the pole piece to contact the toothed
wheel during removal or installation.
4. Remove the hub assembly.
5. Support the hub in a vise with protected jaws.
6. Remove the retaining bolts from the toothed
wheel and remove the toothed wheel.
To install: 7. Fit the new toothed wheel onto the hub and
tighten the retaining bolts to 7 ft. Ibs. (10 Nm).
8. Install the hub assembly to the vehicle. The
center hub nut is not reusable. The new nut must be

TROUBLESHOOTING INDEX 11-2
SECTION 1: ENGINE 11-2
SECTION 2: DRIVE TRAIN
11-3
SECTION 3:BRAKESYSTEM 11-3
SECTION 4:WHEELS,TIRES, STEERING,
AND SUSPENSION II-4
SECTION 5: ELECTRICAL
ACCESSORIES II-4
SECTION 6:lNSTRUMENTSAND
GAUGES II-5
SECTION 7:CLlMATE CONTROL II-5
DIAGNOSTIC PROCEDURES II-6
SECTION 1: ENGINE II-6
ENGINE STARTING PROBLEMS II-6
ENGINE RUNNING CONDITIONS II-7
ENGINE NOISES,ODORSAND
VIBRATIONS II-8
ENGINE ELECTRICALSYSTEM 11-8
ENGINE COOLING SYSTEM II-8
ENGINE EXHAUSTSYSTEM II-9
SECTION 2: DRIVE TRAIN
II-9
AUTOMATIC TRANSMISSION II-9
MANUALTRANSMISSION II-10
CLUTCH II-10
DIFFERENTIAL AND FINAL
DRIVE II-10
TRANSFER ASSEMBLY II-10
DRIVESHAFT II-10
AXLES II-II
OTHER DRIVE TRAIN
CONDITIONS II-II
SECTION 3:BRAKE SYSTEM II-II
BRAKESYSTEM
TROUBLESHOOTING II-II
SECTION 4:WHEELS, TIRES, STEERING
AND SUSPENSION II-12
WHEELSAND WHEEL
BEARINGS II-12
TIRES II-12
STEERING II-12
SUSPENSION II-12
DRIVING NOISES AND
VIBRATIONS II-13
SECTION 5:ELECTRlCAL
ACCESSORIES II-13 -
HEADLIGHTS II-13
TAIL, RUNNING AND SIDE MARKER
LIGHTS II-13
INTERIOR LIGHTS II-14
BRAKE LIGHTS II-14
WARNING LIGHTS II-14
TURN SlGNALAND4-WAYHAZARD
LIGHTS II-15
WINDSHIELD WIPERS II-15
SECTION 6:lNSTRUMENTSAND
GAUGUES II-15
I
SPEEDOMETER(CABLE
OPERATED) II-15
SPEEDOMETER(ELECTRONICALLY
OPERATED) II-16
FUEL,TEMPERATUREAkJD OIL
PRESSURE GAUGES II-16 SECTION 7:CLlMATECON
AIR CONDITIONER ll-
HEATER II-16 TR(
-16 IL II-16

11-2 TROUBLESHOOTING
Condition
Section/Item Number
The following troubleshooting charts are divided into 7 sections covering engine, drive train, brakes, wheels/tires/steering/suspension, electrical accessories, instruments and gauges,
and climate control. The first portion (or index) consists of a list of symptoms, along with section and item numbers. After selecting the appropriate condition, refer to the corresponding
diagnostic procedure in the second portion’s specified location.
INDEX
Gasoline Engines Engine turns over, but will not start
Engine does not turn over when attempting to start
Engine stalls immediately when started
Starter motor spins, but does not engage
Engine is difficult to start when cold
Engine is difficult to start when hot
Diesel Engines Engine turns over but won’t start
Engine does not turn over when attempting to start
Engine stalls after starting
Starter motor spins, but does not engage
Engine is difficult to start I-A, 1
l-A, 2
I-A, 3
I-A, 4
I-A, 5
I-A, 6
I-A, 1
l-A, 2
I-A, 3
I-A, 4
l-A, 5
Gasoline Engines Engine runs poorly, hesitates
Engine lacks power
Engine has poorfuel economy
Engine runs on (diesels) when turned off
Engine knocks and pings during heavy acceleration, and on steep hills
Engine accelerates but vehicle does not gain speed
Diesel Engines Engine runs poorly
Engine lacks power l-B, 1
I-B, 2
l-B, 3
I-B, 4
l-B, 5
I-B, 6
l-B,-1
l-B, 2
Engine makes a knocking or pinging noise when accelerating
Starter motor grinds when used
Engine makes a screeching noise
Engine makes a growling noise
Engine makes a ticking or tapping noise
Engine makes a heavy knocking noise
Vehicle has a fuel odor when driven
Vehicle has a rotten egg odor when driven
Vehicle has a sweet odor when driven
Engine vibrates when idling
Engine vibrates during acceleration
Battery goes dead while driving
Battery goes dead overnight
Engine overheats
Engine loses coolant
Engine temperature remains cold when driving
Engine runs hot
Exhaust rattles at idle speed
Exhaust system vibrates when driving
Exhaust system seems too low
Exhaust seems loud l-C, 1
l-C, 2
l-C, 3
I-C, 4
l-C, 5
I-C, 6
l-C, 7
l-C, 8
I-C, 9
I-C, 10
l-C, 11
l-C, 1
I-C, 2
I-D, 1
I-D, 2
I-D, 3
I-D, 4
l-F, 1
l-F, 2
I-F, 3
I-F, 4