1991 MITSUBISHI MONTERO coolant

CO OLIN G S YSTE M S PEC IF IC ATIO NS

1991 M it s u bis h i M onte ro
1991 ENGINE COOLING
Mitsubishi Cooling System Specifications
Mitsubishi: Eclipse, Galant, Mirage,
Montero, Pickup, Precis, 3000GT
COOLING SYSTEM SPECIFICATIONS
COOLING SYSTEM SPECIFICATIONS TABLE








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Application Specification
Coolant Replacement Interval ............. 30,000 Miles or 24 Months
Coolant Capacity
(Includes Heater & Reserve Tank)
Eclipse
1.8L .......................................... 6.6 qts. (6.2L)\
2.0L .......................................... 7.6 qts. (7.2L)\
Galant .......................................... 7.6 qts. (7.2L)\
Montero ........................................ 10.0 qts. (9.5L)\
Pickup
2WD
Automatic Transmission ....................... 6.4 qts. (6.1L)\
Manual Transmission .......................... 6.3 qts. (6.0L)\
4WD ........................................... 8.9 qts. (8.4L)\
Precis .......................................... 5.6 qts. (5.3L)\
3000GT .......................................... 8.8 qts. (8.3L)\
Pressure Cap ............................................. 11-15 psi
Thermostat Opens
Except 3000GT
Starts ............................................. 190
F (88C)
Fully Open ........................................ 212F (100C)
3000GT
Starts ............................................. 170
F (77C)
Fully Open ......................................... 190F (88C)








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View of 3.0L MPI Engine In thermostat housing.
View of A/C & Coolant
Temperature Sensor In thermostat housing.

Airflow Sensor In air cleaner housing
(Includes air temp. and baro.
sensor).
Barometric Pressure Sensor Inside airflow sensor
assembly.
Coolant Temperature Sensor
View of 3.0L MPI Engine On front of intake manifold.

View of A/C & Coolant
Temperature Sensor On front of intake manifold.
View of Thermostat Housing On front of intake manifold.
Crank Angle/TDC Sensor Inside distributor.

A/T Thermoswitch On thermostat housing.
Brakelight Switch On bracket, above brake pedal.
Clutch Switch On bracket, above brake pedal.
Coolant Temperature Switch On front of intake manifold.

Wire lead conductors
exposed ................ B .. Require repair or replacement.
Wire lead corroded ...... A .. Require repair or replacement.
Wire lead open .......... A .. Require repair or replacement.
Wire lead shorted ....... A .. Require repair or replacement.
(1) - Refer to manufacturer's diagnostic trouble code procedure
and require repair or replacement of affected
component(s).
( 2) - Determine cause and correct prior to repair or replacement
of part.
( 3) - Determine source of contamination, such as engine
coolant, fuel, metal particles, or water. Require
repair or replacement.
( 4) - Inoperative includes intermittent operation or out of OEM
specification. Some components may be serviceable; check
for accepted cleaning procedure.









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CRUISE CONTROL BRAKE SWITCHES
See SWITCHES.
CRUISE CONTROL CABLES
See CRUISE CONTROL LINKAGES AND CABLES .
CRUISE CONTROL CLUTCH SWITCHES
See SWITCHES.
CRUISE CONTROL LINKAGES AND CABLES
CRUISE CONTROL LINKAGE AND CABLE INSPECTION








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Condition Code Procedure
Attaching hardware
broken ................. A ... Require repair or replacement
of hardware.
Attaching hardware
missing ................ C .......... Require replacement of
hardware.
Attaching hardware not
functioning ............ A ... Require repair or replacement
of hardware.
Bent .................... A .. Require repair or replacement.
Binding ................. A .. Require repair or replacement.
Bracket bent, affecting
performance ............ A .. Require repair or replacement.
Bracket bent, not
affecting performance .. .. ........ No service suggested or
required.
Bracket broken, affecting
performance ............ A ............ Require replacement.
Bracket broken, not
affecting performance .. .. ........ No service suggested or
required.
Bracket corroded,
affecting performance .. A .. Require repair or replacement.
Bracket corroded, not
affecting performance .. 2 .. Suggest repair or replacement.

These 3 orifices are opened and closed by electric solenoids. The
solenoids are, in turn, controlled by the Electronic Control Module
(ECM). When a solenoid is energized, the armature with attached shaft
and swivel pintle is lifted, opening the orifice. See Fig. 11.
The ECM uses inputs from the Coolant Temperature Sensor
(CTS), Throttle Position Sensor (TPS) and Mass Airflow (MAF) senso\
rs
to control the EGR orifices to make 7 different combinations for
precise EGR flow control. At idle, the EGR valve allows a very small
amount of exhaust gas to enter the intake manifold. This EGR valve
normally operates above idle speed during warm engine operation.
Verify EGR valve is present and not modified or purposely
damaged. Ensure thermal vacuum switches, pressure transducers, speed
switches, etc., (if applicable) are not by-passed or modified. Ensure
vacuum hose(s) to EGR valve is not plugged. Ensure electrical
connector to EGR valve is not disconnected.
Fig. 11: Typical Digital EGR Valve
Courtesy of General Motors Corp.
Integrated Electronic EGR Valve
This type functions similar to a ported EGR valve with a

Fig. 2: Testing Electric Cooling Fan Relay (3000GT)
Courtesy of Mitsubishi Motor Sales of America.
ELECTRIC COOLING FAN - SYSTEM TESTING
MIRAGE 1.5L
1) With A/C on LOW position, ignition on and engine coolant
temperature greater than 185F (85C), thermosensor completes path to
ground, closing radiator fan motor relay contacts and providing
current to radiator fan motor. See Fig. 1.
2) With A/C on HIGH position and ignition on, power supply
from automatic compressor control unit causes condenser fan motor
relay and condenser fan motor control relay to turn on, causing
condenser fan and radiator cooling fan to operate.