coolant capacity JEEP LIBERTY 2002 KJ / 1.G Workshop Manual
[x] Cancel search | Manufacturer: JEEP, Model Year: 2002, Model line: LIBERTY, Model: JEEP LIBERTY 2002 KJ / 1.GPages: 1803, PDF Size: 62.3 MB
Page 16 of 1803
centage of antifreeze can cause the engine to over-
heat because specific heat of antifreeze is lower than
that of water.
CAUTION: Richer antifreeze mixtures cannot be
measured with normal field equipment and can
cause problems associated with 100 percent ethyl-
ene-glycol.
CAUTION: Do not use coolant additives that are
claimed to improve engine cooling.
OPERATION - AUTOMATIC TRANSMISSION
FLUID
The automatic transmission fluid is selected based
upon several qualities. The fluid must provide a high
level of protection for the internal components by
providing a lubricating film between adjacent metal
components. The fluid must also be thermally stable
so that it can maintain a consistent viscosity through
a large temperature range. If the viscosity stays con-
stant through the temperature range of operation,
transmission operation and shift feel will remain con-
sistent. Transmission fluid must also be a good con-
ductor of heat. The fluid must absorb heat from the
internal transmission components and transfer that
heat to the transmission case.
FLUID CAPACITIES
SPECIFICATIONS - FLUID CAPACITIES
DESCRIPTION SPECIFICATION
FUEL TANK 18.5 U.S. Gallons (70
Liters)****
ENGINE OIL
Engine Oil - with Filter -
2.4L2.4L (5.0 qts.)
Engine Oil - with Filter -
3.7L3.7L (5.0 qts.)
Engine Oil - With Filter -
2.5L Diesel6.5L (6.9 qts.)
ENGINE COOLANT
Cooling System - 2.4L 9.6L (10.1 qts.)
Cooling System - 3.7L 12.3L (13.0 qts.)
Cooling System - 2.5L
Diesel12.5L (13.2 qts.)
AUTOMATIC TRANSMISSION
Service Fill - 45RFE 4.73L (10.0 pts)
O-haul Fill - 45RFE 13.33L (28.0 pts)
Dry fill capacity Depending on type and size of
internal cooler, length and inside diameter of cooler
lines, or use of an auxiliary cooler, these figures may
vary. (Refer to 21 - TRANSMISSION/TRANSAXLE/
AUTOMATIC/FLUID - STANDARD PROCEDURE)
TRANSFER CASE
NV231 1.4L (2.95 pts.)
NV242 1.6L (3.4 pts.)
MANUAL TRANSMISSION
NV1500 (Approximate dry
fill or fill to bottom edge of
the fill plug hole.)2.28L (2.41 qts.)
NV3550 (Approximate dry
fill or fill to bottom edge of
fill plug hole.)2.28L (2.41 qts.)
FRONT AXLE
186 FIA (Model 30) 1.24L (41.9 fl. oz.)
REAR AXLE
198 RBI (Model 35) 1.78L (60.2 fl. oz.)*
8 1/4 2.08L (4.4 pts.)*
* When equipped with Trac-lok, include 4.0 ounces of
Friction Modifier.
****Nominal refill capacities are shown. A variation
may be observed from vehicle to vehicle due to
manufacturing tolerance and refill procedure.
0 - 4 LUBRICATION & MAINTENANCEKJ
FLUID TYPES (Continued)
Page 240 of 1803
RADIATOR PRESSURE CAP
DESCRIPTION
The cooling system cap is located on the coolant
pressure bottle. The cap construction includes; stain-
less steel swivel top, rubber seals and retainer, main
spring, and a spring loaded valve (Fig. 10).
OPERATION
The pressure cap allows the cooling system to oper-
ate at higher than atmospheric pressure which raises
the coolant boiling point, thus allowing increased
radiator cooling capacity. The pressure cap releases
pressure at some point within a range of 110 kPa
14 kPa (16 psi 2 psi).
A spring-loaded vent valve in the center of the cap
allows the system to pressurize and depressurize
without creating a vacuum. If the valve is stuck
open, coolant will escape to the overflow hose. There
is also a gasket in the cap to seal to the top of the
filler neck.
CAUTION: Use only the pressure cap specified for
this vehicle. Use of other pressure caps can lead to
coolant loss and overheating.
DIAGNOSIS AND TESTING - RADIATOR
PRESSURE CAP
Remove cap from radiator. Be sure that sealing
surfaces are clean. Moisten rubber gasket with water
and install the cap on pressure tester (tool 7700 or
an equivalent) (Fig. 11).Operate the tester pump and observe the gauge
pointer at its highest point. The cap release pressure
should be 124 to 145 kPa (18 to 21 psi). The cap is
satisfactory when the pressure holds steady. It is also
good if it holds pressure within the 124 to 145 kPa
(18 to 21 psi) range for 30 seconds or more. If the
pointer drops quickly, replace the cap.
CAUTION: Radiator pressure testing tools are very
sensitive to small air leaks, which will not cause
cooling system problems. A pressure cap that does
not have a history of coolant loss should not be
replaced just because it leaks slowly when tested
with this tool. Add water to tool. Turn tool upside
down and recheck pressure cap to confirm that cap
needs replacement.
CLEANING
Clean the radiator pressure cap using a mild soap
and water only.
INSPECTION
Visually inspect the pressure valve gasket on the
cap. Replace cap if the gasket is swollen, torn or
worn. Inspect the area around radiator filler neck for
white deposits that indicate a leaking cap.
Fig. 10 PRESSURE CAP
1 - MAIN SPRING
2 - GASKET RETAINER
3 - STAINLESS STEEL SWIVEL TOP
4 - RUBBER SEALS
5 - SPRING LOADED VALVE
6 - COOLANT PRESSURE BOTTLE
7 - FILLER NECK
8 - OVERFLOW NIPPLEFig. 11 Pressure Testing Radiator Pressure Cap -
Typical
1 - PRESSURE CAP
2 - TYPICAL COOLING SYSTEM PRESSURE TESTER
KJENGINE 7 - 25
Page 272 of 1803
RADIATOR PRESSURE CAP
DESCRIPTION
The cooling system cap is located on the coolant
pressure bottle. The cap construction includes; stain-
less steel swivel top, rubber seals and retainer, main
spring, and a spring loaded valve (Fig. 9).
OPERATION
The pressure cap allows the cooling system to oper-
ate at higher than atmospheric pressure which raises
the coolant boiling point, thus allowing increased
radiator cooling capacity. The pressure cap releases
pressure at some point within a range of 110 kPa
14 kPa (16 psi 2 psi).
A spring-loaded vent valve in the center of the cap
allows the system to pressurize and depressurize
without creating a vacuum. If the valve is stuck
open, coolant will escape to the overflow hose. There
is also a gasket in the cap to seal to the top of the
filler neck.
CAUTION: Use only the pressure cap specified for
this vehicle. Use of other pressure caps can lead to
coolant loss and overheating.
DIAGNOSIS AND TESTING - RADIATOR
PRESSURE CAP
Remove cap from radiator. Be sure that sealing
surfaces are clean. Moisten rubber gasket with water
and install the cap on pressure tester (tool 7700 or
an equivalent) (Fig. 10).Operate the tester pump and observe the gauge
pointer at its highest point. The cap release pressure
should be 124 to 145 kPa (18 to 21 psi). The cap is
satisfactory when the pressure holds steady. It is also
good if it holds pressure within the 124 to 145 kPa
(18 to 21 psi) range for 30 seconds or more. If the
pointer drops quickly, replace the cap.
CAUTION: Radiator pressure testing tools are very
sensitive to small air leaks, which will not cause
cooling system problems. A pressure cap that does
not have a history of coolant loss should not be
replaced just because it leaks slowly when tested
with this tool. Add water to tool. Turn tool upside
down and recheck pressure cap to confirm that cap
needs replacement.
CLEANING
Clean the radiator pressure cap using a mild soap
and water only.
INSPECTION
Visually inspect the pressure valve gasket on the
cap. Replace cap if the gasket is swollen, torn or
worn. Inspect the area around radiator filler neck for
white deposits that indicate a leaking cap.
Fig. 9 PRESSURE CAP
1 - MAIN SPRING
2 - GASKET RETAINER
3 - STAINLESS STEEL SWIVEL TOP
4 - RUBBER SEALS
5 - SPRING LOADED VALVE
6 - COOLANT PRESSURE BOTTLE
7 - FILLER NECK
8 - OVERFLOW NIPPLEFig. 10 Pressure Testing Radiator Pressure Cap -
Typical
1 - PRESSURE CAP
2 - TYPICAL COOLING SYSTEM PRESSURE TESTER
KJENGINE7s-25
Page 1725 of 1803
Normal vehicle miles or engine misfire can cause a
catalyst to decay. This can increase vehicle emissions
and deteriorate engine performance, driveability and
fuel economy.
The catalyst monitor uses dual oxygen sensors
(O2S's) to monitor the efficiency of the converter. The
dual O2S's sensor strategy is based on the fact that
as a catalyst deteriorates, its oxygen storage capacity
and its efficiency are both reduced. By monitoring
the oxygen storage capacity of a catalyst, its effi-
ciency can be indirectly calculated. The upstream
O2S is used to detect the amount of oxygen in the
exhaust gas before the gas enters the catalytic con-
verter. The PCM calculates the A/F mixture from the
output of the O2S. A low voltage indicates high oxy-
gen content (lean mixture). A high voltage indicates a
low content of oxygen (rich mixture).
When the upstream O2S detects a lean condition,
there is an abundance of oxygen in the exhaust gas.
A functioning converter would store this oxygen so it
can use it for the oxidation of HC and CO. As the
converter absorbs the oxygen, there will be a lack of
oxygen downstream of the converter. The output of
the downstream O2S will indicate limited activity in
this condition.
As the converter loses the ability to store oxygen,
the condition can be detected from the behavior of
the downstream O2S. When the efficiency drops, no
chemical reaction takes place. This means the con-
centration of oxygen will be the same downstream as
upstream. The output voltage of the downstream
O2S copies the voltage of the upstream sensor. The
only difference is a time lag (seen by the PCM)
between the switching of the O2S's.
To monitor the system, the number of lean-to-rich
switches of upstream and downstream O2S's is
counted. The ratio of downstream switches to
upstream switches is used to determine whether the
catalyst is operating properly. An effective catalyst
will have fewer downstream switches than it has
upstream switches i.e., a ratio closer to zero. For a
totally ineffective catalyst, this ratio will be one-to-
one, indicating that no oxidation occurs in the device.
The system must be monitored so that when cata-
lyst efficiency deteriorates and exhaust emissions
increase to over the legal limit, the MIL will be illu-
minated.
DESCRIPTION - TRIP DEFINITION
The term ªTripº has different meanings depending
on what the circumstances are. If the MIL (Malfunc-
tion Indicator Lamp) is OFF, a Trip is defined as
when the Oxygen Sensor Monitor and the Catalyst
Monitor have been completed in the same drive cycle.
When any Emission DTC is set, the MIL on the
dash is turned ON. When the MIL is ON, it takes 3good trips to turn the MIL OFF. In this case, it
depends on what type of DTC is set to know what a
ªTripº is.
For the Fuel Monitor or Mis-Fire Monitor (contin-
uous monitor), the vehicle must be operated in the
ªSimilar Condition Windowº for a specified amount of
time to be considered a Good Trip.
If a Non-Contiuous OBDII Monitor fails twice in a
row and turns ON the MIL, re-running that monitor
which previously failed, on the next start-up and
passing the monitor, is considered to be a Good Trip.
These will include the following:
²Oxygen Sensor
²Catalyst Monitor
²Purge Flow Monitor
²Leak Detection Pump Monitor (if equipped)
²EGR Monitor (if equipped)
²Oxygen Sensor Heater Monitor
If any other Emission DTC is set (not an OBDII
Monitor), a Good Trip is considered to be when the
Oxygen Sensor Monitor and Catalyst Monitor have
been completed; or 2 Minutes of engine run time if
the Oxygen Sensor Monitor or Catalyst Monitor have
been stopped from running.
It can take up to 2 Failures in a row to turn on the
MIL. After the MIL is ON, it takes 3 Good Trips to
turn the MIL OFF. After the MIL is OFF, the PCM
will self-erase the DTC after 40 Warm-up cycles. A
Warm-up cycle is counted when the ECT (Engine
Coolant Temperature Sensor) has crossed 160ÉF and
has risen by at least 40ÉF since the engine has been
started.
DESCRIPTION - COMPONENT MONITORS
There are several components that will affect vehi-
cle emissions if they malfunction. If one of these com-
ponents malfunctions the Malfunction Indicator
Lamp (MIL) will illuminate.
Some of the component monitors are checking for
proper operation of the part. Electrically operated
components now have input (rationality) and output
(functionality) checks. Previously, a component like
the Throttle Position sensor (TPS) was checked by
the PCM for an open or shorted circuit. If one of
these conditions occurred, a DTC was set. Now there
is a check to ensure that the component is working.
This is done by watching for a TPS indication of a
greater or lesser throttle opening than MAP and
engine rpm indicate. In the case of the TPS, if engine
vacuum is high and engine rpm is 1600 or greater
and the TPS indicates a large throttle opening, a
DTC will be set. The same applies to low vacuum if
the TPS indicates a small throttle opening.
All open/short circuit checks or any component that
has an associated limp in will set a fault after 1 trip
with the malfunction present. Components without
KJEMISSIONS CONTROL 25 - 19
EMISSIONS CONTROL (Continued)
Page 1766 of 1803
TANK - REMOVAL, FUEL...............14-25
TANK CHECK VALVE - DESCRIPTION,
FUEL..............................14-28
TANK CHECK VALVE - INSTALLATION,
FUEL..............................14-28
TANK CHECK VALVE - OPERATION, FUEL . . 14-28
TANK CHECK VALVE - REMOVAL, FUEL . . . 14-28
TANK SKID PLATE - INSTALLATION,
FUEL...............................13-9
TANK SKID PLATE - REMOVAL, FUEL......13-9
TASK MANAGER - DESCRIPTION........25-17
TASK MANAGER - OPERATION..........25-21
TCM QUICK LEARN - STANDARD
PROCEDURE........................8E-21
TEMP INDICATOR - DESCRIPTION,
TRANS.............................8J-33
TEMP INDICATOR - OPERATION, TRANS . . 8J-34
TEMP SENSOR - DESCRIPTION,
AMBIENT...........................8M-9
TEMP SENSOR - OPERATION, AMBIENT . . . 8M-9
TEMPERATURE GAUGE - DESCRIPTION,
ENGINE............................8J-18
TEMPERATURE GAUGE - OPERATION,
ENGINE............................8J-18
TEMPERATURE SENSOR - DESCRIPTION,
BATTERY...........................8F-24
TEMPERATURE SENSOR - DESCRIPTION,
ENGINE COOLANT.....................7-19
TEMPERATURE SENSOR - DESCRIPTION,
INTAKE AIR .........................14-36
TEMPERATURE SENSOR - DESCRIPTION,
TRANSMISSION.....................21-170
TEMPERATURE SENSOR - DIAGNOSIS
AND TESTING, AMBIENT...............8M-9
TEMPERATURE SENSOR -
INSTALLATION, BATTERY..............8F-24
TEMPERATURE SENSOR -
INSTALLATION, ENGINE COOLANT........7-21
TEMPERATURE SENSOR -
INSTALLATION, INTAKE AIR............14-38
TEMPERATURE SENSOR - OPERATION,
BATTERY...........................8F-24
TEMPERATURE SENSOR - OPERATION,
ENGINE COOLANT.....................7-20
TEMPERATURE SENSOR - OPERATION,
INTAKE AIR .........................14-36
TEMPERATURE SENSOR - OPERATION,
TRANSMISSION.....................21-170
TEMPERATURE SENSOR - REMOVAL,
BATTERY...........................8F-24
TEMPERATURE SENSOR - REMOVAL,
ENGINE COOLANT.....................7-20
TEMPERATURE SENSOR - REMOVAL,
INTAKE AIR .........................14-37
TEMPERATURE SENSOR CIRCUIT -
DIAGNOSIS AND TESTING, AMBIENT.....8M-9
TENSIONER - DESCRIPTION, SEAT BELT . . 8O-36
TENSIONER - OPERATION, SEAT BELT....8O-36
TERMINAL - INSTALLATION.........8W-01-14
TERMINAL - REMOVAL.............8W-01-14
TEST - DIAGNOSIS AND TESTING, FUEL
PRESSURE LEAK DOWN................14-3
TEST - DIAGNOSIS AND TESTING, FUEL
PUMP AMPERAGE....................14-16
TEST - DIAGNOSIS AND TESTING, FUEL
PUMP CAPACITY.....................14-15
TEST - DIAGNOSIS AND TESTING, FUEL
PUMP PRESSURE....................14-15
TEST - DIAGNOSIS AND TESTING,
HYDRAULIC PRESSURE...............21-79
TEST - DIAGNOSIS AND TESTING, ROAD . . . 8P-2
TEST - STANDARD PROCEDURE,
BUILT-IN INDICATOR..................8F-10
TEST - STANDARD PROCEDURE,
HYDROMETER.......................8F-11
TEST - STANDARD PROCEDURE,
IGNITION-OFF DRAW..................8F-14
TEST - STANDARD PROCEDURE, LOAD . . . 8F-12
TEST - STANDARD PROCEDURE,
OPEN-CIRCUIT VOLTAGE
...............8F-12
TEST - STANDARD PROCEDURE,
VERIFICATION
........................8O-8
TEST MODE - DESCRIPTION, CIRCUIT
ACTUATION
..........................25-2
TEST MODE - DESCRIPTION, STATE
DISPLAY
............................25-2
TESTER - STANDARD PROCEDURE,
USING MIDTRONICS ELECTRICAL
.......8F-15TETHER ANCHOR - DESCRIPTION, CHILD . 8O-13
TETHER ANCHOR - OPERATION, CHILD . . . 8O-13
THEFT SECURITY - DESCRIPTION,
VEHICLE............................8Q-1
THEFT SECURITY - OPERATION, VEHICLE . . 8Q-3
THEFT SECURITY SYSTEM - DIAGNOSIS
AND TESTING, VEHICLE................8Q-6
THERMAL GUARD - DESCRIPTION.......8F-20
THERMAL GUARD - INSTALLATION......8F-20
THERMAL GUARD - OPERATION.........8F-20
THERMAL GUARD - REMOVAL..........8F-20
THERMOSTAT - DIAGNOSIS AND
TESTING............................7-21
THERMOSTAT - OPERATION, ENGINE
COOLANT............................7-21
THREAD REPAIR - STANDARD
PROCEDURE, ALUMINUM..............21-81
THREADED HOLE REPAIR -
DESCRIPTION......................Intro.-4
THREADS - STANDARD PROCEDURE,
REPAIR DAMAGED OR WORN............9-9
THROTTLE BODY - DESCRIPTION........14-43
THROTTLE BODY - INSTALLATION.......14-44
THROTTLE BODY - OPERATION.........14-43
THROTTLE BODY - REMOVAL...........14-43
THROTTLE CONTROL CABLE -
INSTALLATION.......................14-46
THROTTLE CONTROL CABLE - REMOVAL . . 14-45
THROTTLE POSITION SENSOR -
DESCRIPTION.........................14-47
THROTTLE POSITION SENSOR -
INSTALLATION.......................14-48
THROTTLE POSITION SENSOR -
OPERATION.........................14-47
THROTTLE POSITION SENSOR -
REMOVAL..........................14-47
TIE ROD END - INSTALLATION..........19-16
TIE ROD END - REMOVAL..............19-16
TIE ROD END REMOVAL TOOL, SPECIAL
TOOLS - OUTER.....................19-15
TIME INDICATOR - DESCRIPTION, FULL . . . 8J-29
TIME INDICATOR - DESCRIPTION, PART . . 8J-29
TIME INDICATOR - OPERATION, FULL....8J-30
TIME INDICATOR - OPERATION, PART....8J-29
TIMING - DESCRIPTION, VALVE..........9-71
TIMING - OPERATION, VALVE............9-71
TIMING - SPECIFICATIONS, IGNITION......8I-2
TIMING BELT / CHAIN COVER(S) -
INSTALLATION........................9-76
TIMING BELT / CHAIN COVER(S) -
REMOVAL...........................9-74
TIMING CHAIN WEAR, STANDARD
PROCEDURE - MEASURING.............9-71
TIRE - INSTALLATION, SPARE...........22-9
TIRE - REMOVAL, SPARE...............22-8
TIRE INFLATION - DIAGNOSIS AND
TESTING............................22-7
TIRE NOISE OR VIBRATION - DIAGNOSIS
AND TESTING........................22-8
TIRE ROTATION - STANDARD
PROCEDURE.........................22-2
TIRE &TEMPORARY - DESCRIPTION,
SPARE..............................22-6
TIRE WEAR PATTERNS - DIAGNOSIS
AND TESTING........................22-8
TIRES - DESCRIPTION.................22-6
TIRES - DESCRIPTION, RADIAL-PLY.......22-6
TIRES - DESCRIPTION, REPLACEMENT....22-7
TIRES AND WHEEL RUNOUT -
DIAGNOSIS AND TESTING..............22-1
TO GROUND - STANDARD PROCEDURE,
TESTING FOR A SHORT.............8W-01-9
TO GROUND ON FUSES POWERING
SEVERAL LOADS - STANDARD
PROCEDURE, TESTING FOR A SHORT . . 8W-01-9
TO USE WIRING DIAGRAMS -
DESCRIPTION, HOW................8W-01-1
TOE ADJUSTMENT - STANDARD
PROCEDURE..........................2-5
TOE ADJUSTMENT - STANDARD
PROCEDURE, CAMBER, CASTER..........2-5
TOOL, SPECIAL TOOLS - OUTER TIE
ROD END REMOVAL..................19-15
TOOLS - 3.7L ENGINE, SPECIAL
..........9-15
TOOLS - 8 1/4 AXLE, SPECIAL
...........3-98
TOOLS - BASE BRAKES, SPECIAL
.........5-7
TOOLS - BODY, SPECIAL
................23-5
TOOLS - COOLING, SPECIAL
.............7-14TOOLS - FRONT AXLE, SPECIAL..........3-34
TOOLS - FRONT SUSPENSION, SPECIAL....2-8
TOOLS - FUEL SYSTEM, SPECIAL........14-6
TOOLS - OUTER TIE ROD END REMOVAL
TOOL, SPECIAL......................19-15
TOOLS - POWER DISTRIBUTION
SYSTEMS, SPECIAL................8W-97-2
TOOLS - POWER STEERING PUMP,
SPECIAL...........................19-20
TOOLS - REAR AXLE, SPECIAL...........3-63
TOOLS - RFE TRANSMISSION, SPECIAL . . 21-120
TOOLS - STEERING COLUMN, SPECIAL....19-8
TOOLS - WIRING/TERMINAL, SPECIAL . 8W-01-10
TOOLS, BATTERY SYSTEM - SPECIAL.....8F-7
TOOLS, SPECIFICATIONS - SPECIAL....3-12,3-6
TOOLS, SPECIFICATIONS - SPECIAL......8F-24
TOP COVER - INSTALLATION,
INSTRUMENT PANEL.................23-153
TOP COVER - REMOVAL, INSTRUMENT
PANEL............................23-152
TORQUE - SPECIFICATIONS.............13-6
TORQUE CHART, SPECIFICATIONS . . 19-15,19-19,
19-8
TORQUE CHART, SPECIFICATIONS.....2-17,2-8
TORQUE CONVERTER - DESCRIPTION . . . 21-162
TORQUE CONVERTER - INSTALLATION . . . 21-167
TORQUE CONVERTER - OPERATION.....21-166
TORQUE CONVERTER - REMOVAL......21-167
TORQUE, EXCEPT DIESEL..............8F-23
TORQUE, GAS POWERED..............8F-38
TORQUE, IGNITION SYSTEM.............8I-3
TORQUE REFERENCES - DESCRIPTION . . Intro.-7
TORQUE, SPECIFICATIONS...............5-7
TORQUE, SPECIFICATIONS..............7-13
TORQUE, SPECIFICATIONS.............25-26
TORQUE, SPECIFICATIONS..............9-12
TORQUE, SPECIFICATIONS..............14-5
TORQUE, SPEED CONTROL.............8P-2
TOUCH-UP - DESCRIPTION, PAINT......23-163
TOW CONNECTOR - INSTALLATION,
TRAILER...........................8L-61
TOW CONNECTOR - REMOVAL, TRAILER . . 8L-61
TOW HOOK - INSTALLATION, FRONT......13-8
TOW HOOK - INSTALLATION, REAR.......13-8
TOW HOOK - REMOVAL, FRONT..........13-8
TOW HOOK - REMOVAL, REAR...........13-8
TOW RELAY - DESCRIPTION, TRAILER....8L-61
TOW RELAY - DIAGNOSIS AND TESTING,
TRAILER...........................8L-62
TOW RELAY - INSTALLATION, TRAILER . . . 8L-64
TOW RELAY - OPERATION, TRAILER.....8L-62
TOW RELAY - REMOVAL, TRAILER.......8L-63
TOW WIRING - DESCRIPTION, TRAILER . . 8L-64
TOWING - STANDARD PROCEDURE........0-6
TRACK - DESCRIPTION, SEAT..........8N-15
TRACK - DIAGNOSIS AND TESTING,
SEAT ..............................8N-16
TRACK - INSTALLATION, SEAT.........23-168
TRACK - INSTALLATION, SEAT..........8N-16
TRACK - OPERATION, SEAT............8N-15
TRACK - REMOVAL, SEAT.............23-168
TRACK - REMOVAL, SEAT..............8N-16
TRAC-LOK - ASSEMBLY, DIFFERENTIAL . . . 3-109,
3-77
TRAC-LOK - CLEANING, DIFFERENTIAL . . . 3-109,
3-77
TRAC-LOK - DISASSEMBLY,
DIFFERENTIAL...................3-107,3-75
TRAC-LOK - INSPECTION, DIFFERENTIAL . 3-109,
3-77
TRAC-LOKT- DIAGNOSIS AND TESTING . . 3-106,
3-74
TRAILER HITCH - INSTALLATION.........13-9
TRAILER HITCH - REMOVAL.............13-9
TRAILER TOW CONNECTOR -
INSTALLATION.......................8L-61
TRAILER TOW CONNECTOR - REMOVAL . . 8L-61
TRAILER TOW RELAY - DESCRIPTION....8L-61
TRAILER TOW RELAY - DIAGNOSIS AND
TESTING...........................8L-62
TRAILER TOW RELAY - INSTALLATION . . . 8L-64
TRAILER TOW RELAY - OPERATION......8L-62
TRAILER TOW RELAY - REMOVAL
.......8L-63
TRAILER TOW WIRING - DESCRIPTION
. . . 8L-64
TRANS COOLER - DESCRIPTION
.........7-32
TRANS TEMP INDICATOR -
DESCRIPTION
.......................8J-33
TRANS TEMP INDICATOR - OPERATION
. . . 8J-34
KJINDEX 27
Description Group-Page Description Group-Page Description Group-Page