MITSUBISHI 3000GT 1991 Owner's Manual

GENERAL - Towing and Hoisting
Sling type
Nheel lift type
3at bed type
SAFETY PRECAUTIONSThe following precautions should be taken when towing the
vehicle.
1.DO NOT LIFT OR TOW THE VEHICLE BY ATTACHING TO
OR WRAPPING AROUND THE BUMPER.
2. Any loose or protruding parts of damaged vehicle such as
hoods, doors, fenders, trim, etc., should be secured prior to
moving the vehicle.
3.Operator should refrain from going under a vehicle while it
is lifted by the towing equipment, unless the vehicle is
adequately supported by safety stands.
4. Never allow passengers to ride in a towed vehicle.
5. State and local rules and regulations must be followed
when towing a vehicle.
<AWD>
Caution1. If only the front wheels or only the rear wheels are
lifted for towing, the bumper will be damaged.
In addition, lifting of the rear wheels causes the oil to
flow forward, and may result in heat damage to the
rear bushing of the transfer, and so should never be
done.
2.The vehicle must not be towed by placing only its frontwheels or only the rear wheels on a rolling dolly,
because to do so will result in deterioration of the
viscous coupling and result in the viscous coupling
causing the vehicle to jump forward suddenly.
3. If this vehicle is towed, use flat bed equipment.
TSB Revision

00-18
GENERAL - Towing and Hoisting
Frame contact support location<FWD>:
1,070 mm (42.0 in.)<AwD>: 1,130 mm (44.0 in.) OOFOO3'
Front<Vehicles without active-aero svstem)
<Vehicles with active aero svstem>OOFO046HOISTING
POST TYPESpecial care should be taken when raising the vehicle on a
\frame contact type hoist. The hoist must be equipped with theL)proper adapters in order to support the vehicle at the proper
locations.
Caution
When service procedures require removing rear suspen-sion, fuel tank, spare tire and liftgate, place additional
weight on rear end of vehicle or anchor vehicle to hoist toprevent tipping of center of gravity changes.
FLOOR JACKThe usual type of floor jack is used at the following locations.
Front: Under the mid point of No. 1 crossmember
NOTEOn vehicles with active-aero system, the front jacking point
can be accessed by removing the center cover panel from
the under cover. Be sure to reinstall the center cover panel
after jack-up operation.
Rear:
<FWD> Under the jack up bracket of crossmember
<AWD> Under the rear differential
Caution1. When lifting the No. 1 crossmember, do not allow jack
lifting plate to contact under cover.
2. In order to prevent scarring the crossmember, place a
piece of cloth on the jack’s contact surface (to prevent‘corrosion caused by damage to the coating).
d3. A floor jack must never be used on any part of the
underbody.
4.Do not attempt to raise one entire side of the vehicle by
placing a jack midway between front and rear wheels.This practice may result in permanent damage to the
body.
TSB Revision

GENERAL - Towing and Hoisting
LIFTING, JACKING SUPPORT LOCATION00-19
<FWD>
<AWD>
OOFOO20OOFO019
@ Floor lack locations$Approximate center of gravrty
@Frame contact hoist. twin post‘hoist or scissors lack (emergency) locatlons
EMERGENCY JACKINGJack receptacles are located at the body sills to accept the
scissors jack supplied with the vehicle for emergency road
service. Always block opposite wheels and jack on level
surface.
TSB Revision

00-20GENERAL - Special Handling Instructions for AWD Models
14A019fOOPOO38
BalancingmachineOOA0046
Pick-up stand
OOA0024
I
FRONT WHEEL MEASUREMENTS1. Place the front wheels on the brake tester.
2. Perform the brake test.
CautionThe rear wheels should remain on the ground.
3.If the brake dragging force exceeds the specified value, jack
up the vehicle and manually rotate each wheel to check the
rotation condition of each wheel.
NOTEIf the brake dragging force exceeds the specified value, the
cause may be the effect of the viscous coupling’s dragging
force, so jack up the front wheels and check the rotation
condition of the wheels in this state for no effect by the
viscous coupling’s dragging force.
REAR WHEEL MEASUREMENTSAfter placing the rear wheels on the brake tester, follow the
same procedures as for the front wheel measurements.
WHEEL BALANCE
FRONT WHEEL MEASUREMENTS‘d
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
measurements.
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 MEASUREMENTS1. 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.
\
\L)
TSB RevisionSPECIAL HANDLING INSTRUCTIONS
FOR AWD MODELSMOOUAACBRAKE TEST
‘dIn order to stabilize the viscous coupling’s dragging force, the
brake test should always be conducted after the speedometer
test.

GENERAL - General Data and Specifications
GENERAL DATA AND SPECIFICATIONS
00-21
MOOHA- -
c-i----J---i!--8GENERALSPECIFICATIONS
Vehicle dimensionsmm (in.)
Overall length
1
Overall width2
Overall height3
Wheelbase4
Tread
Front5
Rear6
OverhangFront7
Rear8
Minimum running groundclearance9
Angle of approachdegrees10
Angle of departuredegrees11
Vehicle weightkg (tbs.)
Curb weights
MIT
AI-T
Gross vehicle weight rating
Gross axle weight rating
Front
Rear
Seating capacity
Engine
Model No.
Piston displacementcm” (cu.in.)
3000GT<DOHC>
(Non-Turbo)
4,545(178.9)
1,840(72.4)
1,285(50.6)
2,470(97.2)
1,560(61.4)
1,580(62.2)
1,025(40.4)
1,050(41.3)
145(5.7)
12.2”
16.9”
1,455 (3,208)
1,495 (3,296)
1,925 (4,244)
1,100 (2,425)
850 (1.874)
4
6G72-(DOHC)
2,972 (181.4)3000GT SL<DOHC>
(Non-Turbo)
4,545(178.9)
1,840(72.4)
1,285
(50.6)
2,470(97.2)
1,560(61.4)
1,580(62.2)
1,025(40.4)
1,050(41.3)
145(5.7)
12.2”
16.9”
1,520 (3,351)
1,560 (3,439)
1,925 (4.244)
1,100 (2,425)
850 (1,874)
4
6G72-(DOHC) -
2,972 (181.4)
+64
OOFO015
3000GT VR-4<DOHC>
(Turbo)
4,545(I 78.9)
1,840
(72.4)
1,285(50.6)
2,470(97.2)
1,560(61.4)
1,580(62.2)
1,025(40.4)
1,050(41.3)
145 (5.7)
12.2”
16.9”
1,710 (3.770)1,720 (3,792)“’
-
2,050 (4.519)
1,110 (2,447)940
(2,072)
4
6G72-(DOHC)
2,972 (181.4)
NOTE“I : <4ws>
1 TSB Revision

00-22GENERAL - General Data and Specifications
Transaxle
Model No. -Type
Manual transaxle
Automatic transaxle
Fuel system
Fuel supply system3000GT<DOHC>
(Non-Turbo)
F5M33 -5speed manual
F4A33 - 4-speedautomatic
Electronic
control
multi-pointinjection
3000GT SL<DOHC>
(Non-Turbo)
F5M33 -5-speed manual
F4A33 - 4-speedautomatic
Electronic
control
multi-point
injection
3000GT VR-4<DOHC>
(Turbo)W5MGl
-5-speed manual
-
Electronic
control
multi-pointinjectionENGINE SPECIFICATIONS
Items
Type
Number of cylinders
Boremm (in.)
Strokemm (in.)
Piston displacementcm3 (cu.in.)
Compression ratio
Firing orderTRANSAXLE SPECIFICATIONS
FL
Items
Type
Gear ratio
Final reduction ratio1st
2n’d
3rd
4th
5th
Reverse
Transaxle
Transfer
L
6672 Non-Turbo
V60” DOHCFront Transverse
6
91 .I (3.59)
76.0 (2.99)
2,972 (181.4)
10
1-2-3-4-5-6
6672 Turbo
V60” DOHC
Front Transverse
6
91 .I (3.59)
76.0 (2.99)
2,972 (181.4)
8.0
1-2-3-4-5-6
F5M33W5MGlF4A33
5-speed M/T
3.090
1.833
1.217
0.888
0.741
3.166
4.153
-
5-speed MIT
3.071
1.739
1.103
0.823
0.659
3.076
3.972
0.814i
4-speed AlT
2.551
1.488
1 .ooo
0.685
-
2.176
3.958
1 TSB Revision

GENERAL - Tightening Torque00-23TIGHTENING TORQUE
MOOJA- -Each torque value in the table is a standard value for tightening under the following conditions.
(1) Bolts, nuts and washers are all mode of steel and plated with zinc.
(2) The threads and bearing surface of bolts and nuts are all in dry condition.
The values in the table are not applicable:
(1) If toothed washers are inserted.
(2) If plastic parts are fastened.
(3) If bolts are tightened to plastic or die-cast inserted nuts.
(4) If self-tapping screws or self-locking nuts are used.
Standard bolt and nut tightening torque
Bolt nominaldiameter(mm)
M5
M6
M8
Pitchb-m-n)
0.8
1.0
1.25
Head mark @
2.5 (1.8)
5.0 (3.6)
12 (8.7)
Torque Nm (ft.lbs.)
Head mark @
5.0 (3.6)
9.0 (6.5)
22 (16)
Head mark @
6.0 (4.3)
10 (7.2)
25 (18)
M241.5400 (289)Flange bolt and nut tightening torque750 (542)870 (629)
Ml21.7543 (31)83 (60)98 (71)Taper thread tightening torque
Thread sizeTorque Nm (ft.lbs.1
Female thread material: Light alloyFemale thread material: Steel
NPTF 116I7.0 (5.1)I10 (7.2)I
PT 11810 (7.2)18 (13)
/I
idPT 114, NPTF 11425 (18140 (29)
PT 31848 (35)68 (49)
NOTE: NPTF is dry seat pipe thread, whrle PT IS pipe thread.
TSB Revision

00-24GENERAL - Master Troubleshooting
MASTER TROUBLESHOOTING
MOOWWENGINE OVERHEATS
Symptom
Engine overheatsProbable cause
Cooling system
faulty
, incorrect ignition timing
Reference page
14-3
11-13
v’.ENGINE WILL NOT CRANK OR CRANKS SLOWLY
Symptom
Engine will not crankor cranks slowly
Probable cause
Starting system faulty
Reference page
16-15ENGINE WILL NOT START OR HARD TO START (CRANKS OK)
1 Symptom
Engine will not start or hard to
start (Cranks OK)Probable causeNo fuel supply to injector
injection system problems
Ignition system problems
Vacuum leaksl Purge control valve hosel Vacuum hosesl Intake manifoldl Air intake plenuml Throttle bodyl EGR valve
Reference page
-
-
16-25
17-3
Compression too low
11-15
d
1 TSB Revision1

GENERAL - Master Troubleshooting
ROUGH IDLE OR ENGINE STALLS
LProbable causeReference page or remedy
Symptom
Rough idle or engine stallsVacuum leaks
l Purge control valve hosel Vacuum hosesl Intake manifoldl Air intake plenuml Throttle bodyl EGR valve
Ignition system problems16-25
Idle speed set too lowCheck idle speed controlsystem
Idle mixture too lean or too rich-
Fuel injection system problems-
Exhaust gas recirculation (EGR) systemproblems17-11
Engine overheats
114-3
Compression too lowIll-15
ENGINE HESITATES OR POOR ACCELERATION
L
Reference pageSymptomProbable cause
Ignition system problem
Vacuum leaksl Purge control valve hosel Vacuum hosesl Intake manifoldl Air intake plenuml Throttle bodyl EGR valve
Air cleaner clogged
Fuel line clogged
Fuel injection system problem
Emission control system problem
l EGR system always on
Engine overheats
Compression too low11-13
Engine hesitates or poor
acceleration
17-3
15-9
-
17-11
14-3
TSB Revision

00-26GENERAL - Master Troubleshooting
ENGINE DIESELING
Symptom
Engine dieseling (runs afterignition switch is turned off)
Probable cause
Incorrect ignition timing
Reference page
11-13EXCESSIVE OIL CONSUMPTION
ISymptomProbable cause( Reference page or remedy(
Excessive oil consumptionOil leakRepair as necessary
Positive crankcase ventilation line clogged
Valve stem seal worn or damaged
17-5
11-34
I----Valve stem worn11-34I
IPiston ring worn or damaged11-44IPOOR FUEL MILEAGE
NOISE
SymptomProbable causeReference page or remedy
NoiseLoose bolts and nutsRetighten as necessary
Engine noise
il-10
) TSB Revision