1998 ISUZU TROOPER relay

6E±349 ENGINE DRIVEABILITY AND EMISSIONS

Damage during re-gapping can happen if the gapping
tool is pushed against the center electrode or the
insulator around it, causing the insulator to crack.
When re-gapping a spark plug, make the adjustment
by bending only the ground side terminal, keeping the
tool clear of other parts.

ºHeat shockº breakage in the lower insulator tip
generally occurs during several engine operating
conditions (high speeds or heavy loading) and may be
caused by over-advanced timing or low grade fuels.
Heat shock refers to a rapid increase in the tip
temperature that causes the insulator material to
crack.
Spark plugs with less than the recommended amount of
service can sometimes be cleaned and re-gapped , then
returned to service. However, if there is any doubt about
the serviceability of a spark plug, replace it. Spark plugs
with cracked or broken insulators should always be
replaced.
A/C Clutch Diagnosis
A/C Clutch Circuit Operation
A 12-volt signal is supplied to the A/C request input of the
PCM when the A/C is selected through the A/C control
switch.
The A/C compressor clutch relay is controlled through the
PCM. This allows the PCM to modify the idle air control
position prior to the A/C clutch engagement for better idle
quality. If the engine operating conditions are within their
specified calibrated acceptable ranges, the PCM will
enable the A/C compressor relay. This is done by
providing a ground path for the A/C relay coil within the
PCM. When the A/C compressor relay is enabled,
battery voltage is supplied to the compressor clutch coil.
The PCM will enable the A/C compressor clutch
whenever the engine is running and the A/C has been
requested. The PCM will not enable the A/C compressor
clutch if any of the following conditions are met:

The throttle is greater than 90%.

The engine speed is greater than 6315 RPM.

The ECT is greater than 119
C (246
F).

The IAT is less than 5
C (41
F).

The throttle is more than 80% open.
A/C Clutch Circuit Purpose
The A/C compressor operation is controlled by the
powertrain control module (PCM) for the following
reasons:

It improvises idle quality during compressor clutch
engagement.

It improvises wide open throttle (WOT) performance.

It provides A/C compressor protection from operation
with incorrect refrigerant pressures.
The A/C electrical system consists of the following
components:

The A/C control head.

The A/C refrigerant pressure switches.

The A/C compressor clutch.

The A/C compressor clutch relay.
The PCM.
A/C Request Signal
This signal tells the PCM when the A/C mode is selected
at the A/C control head. The PCM uses this to adjust the
idle speed before turning on the A/C clutch. The A/C
compressor will be inoperative if this signal is not
available to the PCM.
Refer to
A/C Clutch Circuit Diagnosis for A/C wiring
diagrams and diagnosis for A/C electrical system.
General Description (Exhaust Gas
Recirculation (EGR) System)
EGR Purpose
The exhaust gas recirculation (EGR) system is use to
reduce emission levels of oxides of nitrogen (NOx). NOx
emission levels are caused by a high combustion
temperature. The EGR system lowers the NOx emission
levels by decreasing the combustion temperature.
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Linear EGR Valve
The main element of the system is the linear EGR valve.
The EGR valve feeds small amounts of exhaust gas back
into the combustion chamber. The fuel/air mixture will be
diluted and combustion temperatures reduced.
Linear EGR Control
The PCM monitors the EGR actual positron and adjusts
the pintle position accordingly. The uses information from
the following sensors to control the pintle position:

Engine coolant temperature (ECT) sensor.

Throttle position (TP) sensor.

Mass air flow (MAF) sensor.
Linear EGR Valve Operation and Results
of Incorrect Operation
The linear EGR valve is designed to accurately supply
EGR to the engine independent of intake manifold
vacuum. The valve controls EGR flow from the exhaust

6G±7 ENGINE LUBRICATION
Oil Pan and Crankcase
Removal
1. Disconnect battery ground cable.
2. Drain engine oil.
3. Lift vehicle by supporting the frame.
4. Remove front wheels.
5. Remove oil level dipstick from level gauge tube.
6. Remove stone guard.
7. Remove radiator under fan shroud.
8. Remove suspension cross member fixing bolts, 2 pcs
each per side and remove suspension cross member.
9. Remove pitman arm and relay lever assembly, using
the 5±8840±2005±0 remover, remove pitman arm
from the steering unit and remove four fixing bolts for
relay lever assembly.
10. Remove axle housing assembly four fixing bolts from
housing isolator side and mounting bolts from wheel
side. At this time support the axle with a garage jack
and remove axle housing assembly.
11. Remove oil pan fixing bolts.
12. Remove oil pan, using 5±8840±2153±0 sealer cutter,
remove oil pan.
013RS003
13. Remove crankcase fixing bolts.
14. Remove crankcase, using 5±8840±2153±0 sealer
cutter, remove crankcase.
NOTE: Do not deform or damage the flange of oil pan and
crankcase.
Replace the oil pan and/or crankcase if deformed or dam-
aged.
013RS003
Installation
1. Install crankcase.
1. Remove residual sealant, lubricant and moisture
from mounting surface, then dry thoroughly.
2. Properly apply a 4.5 mm (0.7 in) wide bead of
sealant (TB-1207C or equivalent) to mounting
surface of crankcase.
Sealant beat must be continuous.

The crankcase must be installed within 5
minutes after sealant application before the
sealant hardens.
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6G±8
ENGINE LUBRICATION
3. Install crankcase, tighten crankcase fixing bolts
to the specified torque.
Torque : 10 N´m (1.0 Kg´m/89 lb in)
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2. Install oil pan
1. Remove residual sealant, lubricant and moisture
from mounting surface, then dry thoroughly.
2. Properly apply a 4.5 mm (07 in) wide bead of
sealant (TB-1207C or equivalent) to mounting
surface of oil pan.
Sealant beat must be continuous.

The crankcase must be installed within 5
minutes after sealant application befor the
sealant hardens.
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3. Install oil pan, tighten oil pan fixing bolts to the
specified torque.
Torque : 25 N´m (2.5 Kg´m/18 lb ft)3. Install axle housing assembly and tighten fixing bolts
to the specified torque.
Axle case bolts
Torque : 82 N´m (8.4 Kg´m/60 lb ft)
Mounting bolts
Torque : 152 N´m (15.5 Kg´m/112 lb ft)
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4. Install relay lever assembly and tighten fixing bolts.
Torque: 44 N´m (4.5 Kg´m/32 lb ft)
5. Engage teeth of pitman arm and steering unit, and
tighten nut to the specified torque.
Torque : 216 N´m (22.0 Kg´m/159 lb ft)
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Legend
(1) Pitman Arm
(2) Relay Lever

SERVICE INFORMATION 00 Ð 3
1. HARD STARTING
Checkpoint Possible cause Correction
Battery Loose battery cable terminal
Poor connections due to rustingClean and/or retighten the battery
cable terminal
1. STARTER MOTOR INOPERATIVE
Battery discharged or weak Recharge or replace the battery
Fan belt loose or broken Adjust or replace the fan belt
Fusible link Fusible link shorted Replace the fusible link
Starter switch Defective starter switch or starter relay Replace the starter switch or the
starter relay
Starter motor Defective magnetic switch or starter relay Repair or replace the magnetic
switch
Defective starter motor Repair or replace the starter motor
2. STARTER MOTOR OPERATES BUT ENGINE DOES NOT TURN OVER
Battery Loose battery cable terminal
Poor connections due to rustingClean and/or retighten the battery
cable terminal
Battery discharged or weak Recharge or replace the battery
Fan belt loose or broken Adjust or replace the fan belt
Starter motor Defective pinion gear Replace the pinion gear
Defective magnetic switch Repair or replace the magnetic
switch
Brush wear, Weak brush spring Replace the brush and/or the brush
spring
Engine Piston, crank bearing seizuer, or other
damageRepair or replace the related parrts

SERVICE INFORMATION 00 Ð 5
Idling improperly adjusted Adjust the idling Idling system
Checkpoint Possible cause Correction
Defective fast idling speed control device Repair or replace the fast idling
speed control device Fast idling speed
control device
Accelerator control system improperly
adjustedAdjust the accelerator control
system Accelerator control
system
2. UNSTABLE IDLING
4. QUICK-ON START SYSTEM (QOS III)
PREPARATION
1. Disconnect the thermoswitch connector.
2. Determine whether or not the glow plugs are receiving power.
a) Make sure that the starter switch is "OFF"
b) Connect a voltmeter between one of the glow plugs and the cylinder wall.
c) Move the starter switch to the "ON" position.
The voltmeter needle will show the souse voltage (12V) if the glow plugs are receiving power.
If the voltmeter needle does not move, the glow plugs are not receiving power.
3. Perform the troubleshooting procedure.
1.
2.
3.Replace the fusible link wire
Replace the indicator light fuse
Replace the indicator light bulb Glow plug indicator
light does not turn
on.Defective Fusible link wire
Broken indicator light fuse
Defective indicator light bulb
1.
2.
3.
4.Replace the fusible link wire
Replace or Repair glow plug relay
connector
Replace or Repair glow plug
connector
Replace or Repair quick-on start
timer connector Preheating system
does not workDefective Fusible link wire shorted
Defective glow plug relay connector
Defective glow plug connector
Defective quick-on start timer connector
1.
2.
3.Replace thermo sensor or repair
wiring harness.
Replace glow plug
Replace timer unit Preheating time to
long or to shortDefective thermo sensor include
defective wiring harness
Defective glow plug
Defective timer unit

00 Ð 16 SERVICE INFORMATION
FAULTY MESHING OR PINION AND RING GEAR
CHECK IF BATTERY VOLTAGE IS PRESENT AT
MAGNETIC SWITCH TERMINAL “S” WHEN
STARTER SWITCH IS TURNED TO “START (ST)”
YESNO
EXTREME WEAR OF
PINION AND RING
GEARSTARTER SLIDING
RESISTANCE IS
LARGE
REPAIR OR REPLACE
STARTER. REPLACE
RING GEARREPAIR OR REPLACE
STARTER
UNDER THIS CONDITION, CHECK IF VOLTAGE
OF CONNECTOR 3BW ON MAGNETIC SWITCH
OF RESTART RELAY IS NORMAL
DISCONNECTION OR
FAULTY CONNECTION
BETWEEN STARTER
SWITCH AND MAGNETIC
SWITCHCHECK IF VOLTAGE IS
PRESENT AT WIRING
CONNECTOR 3BW ON
STARTER SWITCH OF
RESTART RELAY
YESNO
REPAIR
YESNO
FAULTY CONNECTION
OF STARTER SWITCH DISCONNECTION OR
FAULTY CONNECTION
BETWEEN STARTER
SWITCH AND BATTERY
REPLACE STARTER
SWITCH
REPAIR
OR

SERVICE INFORMATION 00 Ð 17
MAGNETIC SWITCH DOES NOT OPERATE THOUGH
STARTER SWITCH IS TURNED TO “START (ST)”
CHECK IF VOLTAGE IS PRESENT AT MAGNETIC
SWITCH TERMINAL “S” WHEN STARTER SWITCH
IS TURNED TO “START (ST)”
YESNO
CHECK IF INDICATOR LAMP ON
METER COMES ON NORMALLY
CHECK CONTINUITY
STARTER SWITCH AND
MAGNETIC SWITCH
TERMINAL “S”DISCONNECTION OR
FAULTY CONNECTION
BETWEEN BATTERY
AND STARTER SWITCH
YESNO
CHECK GROUND CABLE
YESNO
PINION
SLIDING
PART DOES
NOT MOVEMAGNETIC SWITCH
OR COIL IS
DISCONNECTED
OR BURNED OUT
REPAIR
REPAIR OR REPLACE STARTER
REPAIR
CHECK STARTER
RELAYFAULTY CONNECTION
OR STARTER SWITCH
CHECK CLUTCH
START SWITCHREPLACE STARTER
SWITCH
OR

SERVICE INFORMATION 00 Ð 37
3. Measure the glow plug terminal voltage with a circuit
tester immediately after turning the starter switch to the
ÒONÓ position.
8 – 9
V Glow Plug Terminal Voltage
QUICK-ON START III SYSTEM
Quick-On Start System Inspection Procedure
1. Disconnect the thermo-sensor connection on the ther-
mostat outlet pipe.
2. Turn the starter switch to the ÒONÓ position.
If the Quick-On Start III System is operating properly,
the glow relay will make a clicking sound within seven
seconds after the starter switch is turned on.
NOTE:
Electrical power to the quick-on start system will be cut
after the starter has remained in the ÒONÓ position for ten
seconds.
Turn the starter switch to the ÒOFFÓ position and back to
the ÒONÓ position.
This will reset the Quick-On Start III System.
Nut and Bolt Angular Tightening Method
(Using The Special Tool)
1. Carefully wash the nuts and bolts to remove all oil and
grease.
2. Apply engine oil to the threads and setting faces of the
nuts and bolts.
3. Use a torque wrench to tighten the nuts and bolts to the
specified torque (snug torque).
4. Attach the angle gauge to the socket wrench.
Angle Gauge: 5-88400-266-0
5. Attach a magnet to some part to hold the angle gauge
stationary.
6. Tighten the nuts and bolts to the specified angle, noting
the angle gauge indication.