1991 MITSUBISHI ECLIPSE engine

INTRODUCTION AND MASTER TROUBLESHOOTING - Precautions before Sew&e‘37
Nominal
sizeSAE
gi:ePermissible current
In engine
Othercompart-areasment
0.3mm2AWG22-5A
0.5
mm2AWG207A13A
0.85
mm’AWG189A17A
1.25
mm2AWG1612A22A
2.0mm2AWG1416A30A
3.0mm’AWG1221A40A
5.0mm2AWG1031A54A
r ‘.
oorsas
2. If additional optional equipment is to be installed, in ttievehicle, follow the procedure listed in the
ap@@priateinstruction manual; however, be sure to pay “careful
attention to the following points:
“9:(1) In order to avoid overloading the
wiring;’ take the
electrical current load of the optional
,equipment into
consideration, and determine the appropriate .wire size:(2) Where possible, route the wiring through the existing
harnesses.(3) If an ammeter or similar instrument is to be
connectedto a live-wire circuit, use tape to protect the wire, use a
clamp to secure the wire, and make sure that there is
no contact with any other parts.
(4) Be sure to provide a fuse for the load circuit of the
optional equipment.
TUBES AND OTHER RUBBER PARTS
Be careful to avoid spilling any gasoline, oil, etc., or rubber
parts, they might be adversely affected.
LUBRICANTSIn accordance with the instructions in this Service Manual,
apply the specified lubricants in the specified locations during
assembly and installation.
!’IV/ :>,I
BRAKE FLUID
Be careful to avoid spilling any brake fluid on painted surfaces,because the paint coat might be discolored or damaged.

18INTRODUCTION AND MASTER TROUBLESHOOTING - Precautions b&ire Service
DOING SERVICE WORK IN GROUPS OF VO’bRMORE TECHNICIANS
.-I-7.IIf the service work is to be done by two or more technicians
working together, extra caution must be taken.
VoltagedistributionMaximum
voltage
NOTE ON INSTALLATION OF RADIO EQIJIPMEATeThe computers of the electronic control system has been
designed so that external radio waves will not interfere with
their operation.
However, if antenna or cable of amateur transceiver etc. is
routed near the computers, it may affect the operation of the
computers, even if the output of the transceiver is no more
than
25W.To protect each of the computers from interference by
transmitter (hum, transceiver, etc.), the following should be
observed.1. Install the antenna on the roof or rear bumper.
2.Because radio waves are emitted from the coaxial cable of
the antenna, keep it 200 mm (8 in.) away from the
computers and the wiring harness. If the cable must cross
hthe wiring harness, route it so that it runs at right angles to
the wiring harness.
3.The antenna and the cable should be well matched, and thestanding-wave ratio* should be kept low.
4.A transmitter having a large output should not be installed
in the vehicle.
5.After installation of transmitter, run the engine at idle, emit
radio waves from the transmitter and make sure that the
engine is not affected.
“STANDING-WAVE RATIO
If an antenna and a cable having different impedances are
connected, the input impedance Zi will vary in accordance with
the length of the cable and the frequency of the transmitter,
and the voltage distribution will also vary in accordance with
the location.
The ratio between this maximum voltage and minimum voltage
is called the standing-wave ratio. It can also be represented bythe ratio between the impedances of the antenna and the
cable.The amount of radio waves emitted from the cable increases
as the standing-wave ratio increases, and this increases the
possibility of the electronic components being adversely
affected.

24 INTRODUCTION AND MASTER TROUBLESHOOTING - fSo%k%:~~it’ndrU~ionsREAR WHEEL MEASUREMENTS
After placing the rear wheels on the brake tester, follow the
same procedures as for the front wheel measurements.
,’
~.Braking force of AWD models with VCU
Balancing
machine
Pick-up stand
WA0024
Braking force
EachwheelLeft/right
sumLeft/right
differenceAt
90kg (19860% or more ofIbs.) pedal de-front axle weightpression force
Rear wheels: 330
kg (727 Ibs.) or more8% or less of axle weight
TotalAt 90kg (198830 kg (1,829 Ibs.)
Ibs.) pedal de-or more*pression force
* About 20 kg (44 Ibs.) of force by viscosity torque has been
added.
or...
I
Braking-stop distanceAt primary velocity of 50 km/h
(31 mph): Within 16.0m (52.5 ft.)
WHEEL BALANCE.r=lFRONT WHEEL MEASUREMENTS
1. Jack up the rear wheels, and place an axle stand at the
designated part of the side sill.
2. Jack up the front wheels and set a pick-up stand and
balancing machine in place.
Caution
1.Set so that the front and rear of the vehicle are at
the same height.
2. Release the parking brake.
3. Rotate each wheel manually and check to be sure
that there is no dragging.
3. Use the engine to drive the tires, and then make the
measurement.Caution
1.If an error is indicated in the state of engine drive,
motor drive can be used concurrently.
2. Do not operate the clutch
suddenly, or increase or
reduce speed suddenly during the work.
REAR WHEEL MEASUREMENTS
1. Jack up the front wheels, and place an axle stand at the
designated part of the side sill.
2. Jack up the rear wheels, and then, after setting a pick-up
stand and balancing machine in place, follow the same
procedure as for front wheel measurements.
.&,

INTRODUCTION AND MASTER TROUBLESHOOTING - :;k%ii::& and25
GENERAL DATA AND SPECIFICATIONSNOOHA-
OOAOl59
GENERAL SPECIFICATIONS
z-
A-l
.8L Engine1.8L Engine2.0L DOHC2.0L DOHCItems“Medium”“High”~%n?urbo):Tz%$
Vehicle dimensions
mm(in.)Overall length
14,330(170.5)4,330(170.5)4,330(I 70.5)4,330(170.5)Overall width
21,690(66.5)1,690(66.5)
1,690
(66.5)
1,690(66.5)Overall height
31,306(51.4)1,306(51.4)1,306(51.4)
1,306(51.4)Wheel base
4
2,470(97.2)2,470(97.2)2,470(97.2)2,470(97.2)Tread Front
5
1,465(57.7)
1,465(57.7)
1,465
(57.7)1,465(57.7)
Rear6
1,450(57.1)1,450(57.1)1,450(57.1)1,450(57:l i
Overhang Front
7950(37.4)950(37.4)950(37.4)
950(37.4)
Rear
8
910(35.8)910(35.8)910(35.8)910(35.8)Minimum running ground
9
160(6.3)160(6.3)
160(6.3)160(6.3)clearancemm (in.)
Angle of approach
degrees10 15.3”15.3”15.3”
15.3”Angle of departure
degrees11 18.1”
18.1” ’18.1“
18.1”Vehicle weight
kg (Ibs.)
Curb weights
M/T
1,145(2,524)
1,165(2,568)
1,215
(2,679)
1,245(2,745)
AIT1 ,I 70(2,579)
1,190(2,623)
1,240
(2,734)
1,280(2,822)Gross vehicle weight rating
1,585(3,494)1,585(3,494)
1,630
(3,594)‘I ,670(3,682)Gross axle weight rating
Front
900(1,984)900(1,984)930(2,050)965(2,127)
Rear
685(1,510)685(1,510)
700
(1,543)705‘(1,554)Seating capacity
4
444
EngineModel No.
4G3746374G634G63
TransaxleModel No.
Manual transaxle
F5M22F5M22F5M22F5M33Automatic transaxle
F4A22F4A22F4A22F4A33
Clutch
TypeDry-single discDry-single discDry-single discDry-single disc& diaphragm& diaphragm& diaphragm& diaphragm
springspringspringspring

26INTRODUCTION AND MASTER TROUBLESHOOTING - :;:%:a=and
Items
Chassis
TireFront suspension
TypeRear suspension
We
Brake
Type
SteeringGear typeFront
RearGear ratio
Fuel tank
Capacityliters (gals.)

1.8L Engine
“Medium”Pl85/70R14
PI 85/70Rl4
Independent
strut
Independentstrut
3l\Fk Torsion&k-k Torsion
Disc
DiscDisc
Disc
Rack and
pinion
03
Rack and
pinion
cn60 (16)
60
(16)
ItemsVehicle dimensions
mm(in.)Overall length
1Overall width
2Overall height
3Wheel base
4
TreadFront5
Rear6
OverhangFront7
Rear8Minimum running ground
9
clearancemm (in.)
Angle of approachdegrees
10Angle of departure
degrees 11
Vehicle weight
kg (Ibs.)Curb weightsMiT
Al-rGross vehicle weight rating
Gross axle weight rating
Front
RearSeating capacity
EngineModel No.
1.8L Engine
“Medium”2.0L DOHC
Kr%n?u rbo)
P205/55Rl6 89H
;;5/55R16 89V%55R16
88V
Independentstrut
zx;;k Torsion
Disc
Disc
Rack and
pinion
co60 (16)
2.0L DOHC
#b”;
P205/55Rl6 89
or
205155R16 88V
Independentstrut
3Lnk Torsion
Disc
Disc
Rack and
pinion
co
60 (16)
2.0L DOHC Engine(Non-Turbo)
4,330(I 70.5)
1,690(66.5)
1,306(51.4)
2,470(97.2)
1,465(57.7)
1,450(57.1)
950(37.4)
910(35.8)
160(6.3)
15.3
18.1”
1,230 (2,712)
1,255 (2,767)
1,630 (3,594)930 (2,050)
700 (1,543)
4
4G63
2.0L DOHC Engine
(FWD-Turbo)
4,350(171.3)
1,700(66.9)
1,306(51.4)
2,470(97.2)
1,465(57.7)
1,450(57.1)
960(37.8)
920(36.2)
160(6.3)
13.2”
18.1”
1,260 (2,778)
1,295 (2,855)
1,670 (3,682)965 (2,127)
705 (1,554)
1
4G63
2.0L DOHC Engine
(AWD-Turbo)
4,380(I 72.4)
1,700(66.9)
1,321(52.0)
2,470(97.2)
1,465(57.7)
1,455(57.3)
960(37.8)
950(37.4)
158(6.2)
14.0”
17.6”
1,405 (3,097)
1,440 (3,175)
I,81 0 (3,990)
1,005 (2,216)
805 (1,775)
4
4G63

INTRODUCTION AND MASTER TROUBLESHOOTING - f~EEaZ% acld27
=r
9..
Items
TransaxleModel No.
Manual transaxle
Automatic transaxle
Clutch
Type
Chassis
TireFront suspension
TypeRear suspension
Type
Brake
Type
SteeringGear type
Gear ratio
Fuel tank
Capacity
2.0L DOHC Engine2.0L DOHC Engine2.0L DOHC Engine
(Non-Turbo)(FWD-Turbo)(AWD-Turbo)
F5M22F5M33W5M33
F4A22F4A33W4A33Dry-single disc
Dry-single discDry-single disc& diaphragm spring& diaphragm spring& diaphragm spring
P205/55R16 89HP205155R16 89VP205/55R16 89Vor 205/55R16 89Vor 205/55R16 88Vor 205/55R16 88Vor 205/55R16 88VIndependent strut
Independent strutIndependent strut
3-Link Torsion axle3-Link Torsion axleDouble wishbone
Front
Disc
DiscDisc
RearDisc
DiscDiscRack and pinion
Rack and pinionRack
,and pinion
03coccliters (gals.) 60 (16)
60 (16)60 (16)
)
ENGINE SPECIFICATIONS
Items4G374G63 Non-Turbo4G63 Turbo
TypeIn-line SOHCIn-line DOHCIn-line DOHC
Number of cylinders
444
Boremm (in.) 80.6 (3.17)
85.0 (3.35)85.0 (3.35)
Strokemm (in.) 86.0 (3.39)
88.0 (3.46)88.0 (3.46)
Piston displacement
cm3 (cu.in.) 1,755 (107)1,997 (122)1,997 (122)Compression ratio
9.09.07.8Firina order
1-3-4-21-3-4-21-3-4-2
TRANSAXLE SPECIFICATIONS
ItemsF5M22F5M33W5M33F4A22F4A33W4A33
TypeGear ratio
1 st
2nd
3rd
4th
5th
Reverse
TransaxlePrimary reduction ratio
Secondary reduction
ratio
Transfer
5-speed M/T5-speed M/T
3.363
3.090
1.947
1.833
1.285
1.217
0.939
0.888
0.756
0.741
3.0833.166
5speed M/T4-speed A/T4-speed AIT
3.083
2.8462.551
1.6841.5811.488
1.115
1.0001 .ooo
0.8330.6850.685
0.666--
3.166
2.1762.176
Qspeed AIT
2.551
1.488
1 .ooo
0.685
-
2.176
1.096
3.9411.2081.275
1.1251.2281.228
3.4373.866
3.5623.222
3.600
-1.090--1.090

INTRODUCTION AND MASTER TROUBLESHOOTING - Mast& Tro6blerhootbia
MASTER TROUBLESHOOTING7 *
I,._ ,...
r. ENGINE OVERHEATSi ”
SymptomEngine overheatsProbable causeCooling system faulty
Incorrect ignition timingReference page: I._),7-5
8-169
ENGINE WILL NOT CRANK OR CRANKS SLOWLY
SymptomEngine will not crank
or cranks slowlyProbable causeStarting system faulty
,’
Reference page8-153
ENGINE WILL NOT START OR
HbRD TO START (CRANKS OK)
SymptomProbable causeReference page
Engine will not start or hard toNo fuel supply to injector
-start (Cranks OK)
Injection system problems
-Ignition system problems
8-16!$/ ”;Vacuum leaks11-5..“,:’l Purge control valve hose25-4
l Vacuum hoses
l Intake manifoldl Air intake plenum
l Throttle body
l EGR valveCompression too low
g-23,‘, :. ” ‘,;A;ROUGH IDLE OR ENGINE STALL
Symptom
Rough idle or engine stallsProbable cause
Vacuum leaks
l Purge control valve hosel Vacuum hosesl Intake manifoldl Air intake plenuml Throttle bodyl EGR valve
“. ._
Reference page or remedy
11-525-4
Ignition system problems
Idle speed set too low8-169Check idle speed control sys-
tem
Idle mixture too lean or too rich
Fuel injection system problems
Exhaust gas recirculation
(EGR) system
problems
Engine overheatsCompression too low
-
-
25-l 57-5
9-23

30INTRODUCTION AND MASTER TROUBLESHOOTING - Master Troubleshooting
ENGINE HESITATES OR POOR ACCELERATION
SymptomEngine hesitates or poor
accelerationProbable causeIgnition system problem
Vacuum leaks
l Purge control valve hose
l Vacuum hosesl Intake manifoldl Air intake plenum
l Throttle bodyl EGR valveReference page
8-169
11-525-4
Air cleaner clogged
Fuel line clogged
Fuel injection system problem
Emission control system problem
l EGR system always on
Engine overheats
Compression too low
-
-
-25-15
7-5
9-23
ENGINE
DIESELING
SymptomEngine dieseling (runs after
ignition switch is turned off)Probable causeIncorrect ignition timingReference page
8-169
EXCESSIVE OIL CONSUMPTION
Symptom
Excessive oil consumptionProbable cause
Oil leak
Positive crankcase ventilation line clogged.
Valve stem seal worn or damaged.Valve stem worn.
Piston ring worn or damaged.Reference page or remedy
Repair as necessary.25-7
g-55.114
g-55.114
g-66,128