100 CHRYSLER VOYAGER 2003 Service Manual

PLUMBING - REAR
TABLE OF CONTENTS
page page
EVAPORATOR
DESCRIPTION.........................94
OPERATION...........................94
REMOVAL
REMOVAL - REAR EVAPORATOR.........94
REMOVAL - EVAPORATOR LINE
EXTENSION.........................95
INSTALLATION
INSTALLATION - REAR EVAPORATOR.....96
INSTALLATION - EVAPORATOR LINE
EXTENSION.........................96
EXPANSION VALVE
DESCRIPTION.........................96
OPERATION...........................97
DIAGNOSIS AND TESTING - EXPANSION
VALVE ..............................97
REMOVAL.............................97
INSTALLATION.........................98
HEATER CORE
DESCRIPTION.........................98
OPERATION...........................98STANDARD PROCEDURE - HEATER CORE
FILLING.............................98
REMOVAL.............................99
INSTALLATION........................100
HEATER HOSE
REMOVAL............................100
INSTALLATION........................101
SUCTION LINE
REMOVAL............................101
INSTALLATION........................102
UNDERBODY LINES
DESCRIPTION........................103
OPERATION..........................103
REMOVAL
REMOVAL - REAR HEATER LINES.......104
REMOVAL - REAR AIR CONDITIONING
LINES.............................104
INSTALLATION
INSTALLATION - REAR HEATER LINES....105
INSTALLATION - REAR AIR CONDITIONING
LINES.............................105
EVAPORATOR
DESCRIPTION
The rear evaporator is located in the rear heater-
A/C unit housing, behind the right rear wheel house.
The evaporator is positioned in the rear heater-A/C
housing so that all air that enters the housing must
pass over the fins of the evaporator before it is dis-
tributed through the system ducts and outlets. How-
ever, air passing over the evaporator fins will only be
conditioned when the compressor is engaged and cir-
culating refrigerant through the evaporator tubes.
The rear heater-A/C unit housing must be removed
from the vehicle to access the evaporator for service.
The evaporator cannot be adjusted or repaired and, if
faulty or damaged, it must be replaced.
OPERATION
Refrigerant enters the rear evaporator from the
rear expansion valve as a low-temperature, low-pres-
sure liquid. As air flows over the fins of the evapora-
tor, the humidity in the air condenses on the fins,
and the heat from the air is absorbed by the refrig-
erant. Heat absorption causes the refrigerant to boil
and vaporize. The refrigerant becomes a low-pressure
gas when it leaves the evaporator.
REMOVAL
REMOVAL - REAR EVAPORATOR
WARNING: REFER TO THE APPLICABLE WARN-
INGS AND CAUTIONS FOR THIS SYSTEM BEFORE
PERFORMING THE FOLLOWING OPERATION.
(Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - FRONT - WARNING - A/C PLUMBING),
(Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - FRONT - CAUTION - A/C PLUMBING),
and (Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - FRONT - WARNING - HEATER PLUMB-
ING).
(1) Remove the rear heater-A/C unit housing from
the vehicle. (Refer to 24 - HEATING & AIR CONDI-
TIONING/DISTRIBUTION - REAR/REAR HEATER-
A/C HOUSING - REMOVAL).
(2) Remove the rear evaporator line extension from
the expansion valve. (Refer to 24 - HEATING & AIR
CONDITIONING/PLUMBING - REAR/EVAPORA-
TOR - REMOVAL - EVAPORATOR LINE EXTEN-
SION).
(3) Remove the rear expansion valve from the rear
evaporator. (Refer to 24 - HEATING & AIR CONDI-
24 - 94 PLUMBING - REARRS
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OPERATION
A mechanical sensor in the expansion valve control
head monitors the temperature and pressure of the
refrigerant leaving the evaporator coil through the
suction line, and adjusts the orifice size at the liquid
line to let the proper amount of refrigerant into the
evaporator coil to meet the vehicle cooling require-
ments. Controlling the refrigerant flow through the
evaporator ensures that none of the refrigerant leav-
ing the evaporator is still in a liquid state, which
could damage the compressor.
DIAGNOSIS AND TESTING - EXPANSION VALVE
WARNING: REFER TO THE APPLICABLE WARN-
INGS AND CAUTIONS FOR THIS SYSTEM BEFORE
PERFORMING THE FOLLOWING OPERATION.
(Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - FRONT - WARNING - A/C PLUMBING)
and (Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - FRONT - CAUTION - A/C PLUMBING).
NOTE: The expansion valve should only be tested
following testing of the compressor.
NOTE: Liquid CO
2is required to test the expansion
valve. This material is available from most welding
supply facilities. Liquid CO
2is also available from
companies which service and sell fire extinguish-
ers.
When testing the expansion valve, the work area
and the vehicle temperature must be 21É to 27É C
(70É to 85É F). To test the expansion valve:
(1) Connect a charging station or manifold gauge
set to the refrigerant system service ports. Verify the
refrigerant charge level.
(2) Close all doors, windows and vents to the pas-
senger compartment.
(3) Set the heater-air conditioner controls so that
the compressor is operating, the temperature control
is in the highest temperature position, the mode door
is directing the output to the floor outlets, and the
blower is operating at the highest speed setting.
(4) Start the engine and allow it to idle at 1000
rpm. After the engine has reached normal operating
temperature, allow the passenger compartment to
heat up. This will create the need for maximum
refrigerant flow into the evaporator.
(5) If the refrigerant charge is sufficient, the dis-
charge (high pressure) gauge should read 965 to 1655
kPa (140 to 240 psi). The suction (low pressure)
gauge should read 140 kPa to 207 kPa (20 psi to 30
psi). If OK, go to Step 6. If not OK, replace the faulty
expansion valve.WARNING: PROTECT THE SKIN AND EYES FROM
EXPOSURE TO LIQUID CO
2. PERSONAL INJURY
CAN RESULT.
(6) If the suction (low pressure) gauge reads
within the specified range, freeze the expansion valve
control head for 30 seconds using liquid CO
2or
another suitable super-cold material.Do not spray
R-134a or R-12 refrigerant on the expansion
valve control head for this test.The suction (low
pressure) gauge reading should drop by 10 psi. If OK,
go to Step 7 If not OK, replace the faulty expansion
valve.
(7) Allow the expansion valve control head to thaw.
The suction (low pressure) gauge reading should sta-
bilize at 140 kPa to 240 kPa (20 psi to 30 psi). If not
OK, replace the faulty expansion valve.
(8) When expansion valve testing is complete, test
the overall air conditioner performance. (Refer to 24 -
HEATING & AIR CONDITIONING - DIAGNOSIS
AND TESTING - A/C PERFORMANCE TEST).
Remove all test equipment before returning the vehi-
cle to service.
REMOVAL
WARNING: REFER TO THE APPLICABLE WARN-
INGS AND CAUTIONS FOR THIS SYSTEM BEFORE
PERFORMING THE FOLLOWING OPERATION.
(Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - FRONT - WARNING - A/C PLUMBING),
(Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - FRONT - CAUTION - A/C PLUMBING),
and (Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - FRONT - WARNING - HEATER PLUMB-
ING).
(1) Remove the rear heater-A/C unit housing from
the vehicle. (Refer to 24 - HEATING & AIR CONDI-
TIONING/DISTRIBUTION - REAR/REAR HEATER-
A/C HOUSING - REMOVAL).
(2) Carefully remove the foam insulator wrap from
the rear expansion valve.
(3) Remove the rear evaporator line extension from
the expansion valve. (Refer to 24 - HEATING & AIR
CONDITIONING/PLUMBING - REAR/EVAPORA-
TOR - REMOVAL - EVAPORATOR LINE EXTEN-
SION).
(4) Remove the two screws that secure the expan-
sion valve to the evaporator tube sealing plate.
(5) Remove the expansion valve from the evapora-
tor tubes.
(6) Remove the seals from the evaporator tube fit-
tings and discard.
(7) Install plugs in, or tape over the opened evap-
orator tube fittings and both expansion valve ports.
RSPLUMBING - REAR24-97
EXPANSION VALVE (Continued)
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INSTALLATION
NOTE: If the rear heater core or the rear heater-A/C
housing have been removed from the vehicle for
service, the rear heater core may be pre-filled with
the proper engine coolant mixture prior to recon-
necting the heater hoses to the heater core hose fit-
tings. (Refer to 24 - HEATING & AIR CONDITIONING/
PLUMBING - REAR/HEATER CORE - STANDARD
PROCEDURE - HEATER CORE FILLING).
(1) Carefully slide the heater core into the rear
heater-A/C unit housing.
(2) Using hand pressure, press firmly and evenly
on the heater core end plate until the four latch tabs
that secure the heater core in the rear heater-A/C
unit housing are fully engaged (Fig. 5).
(3) Remove the plugs or tape from the heater core
fittings and both heater hoses.
(4) Reconnect the heater hoses to the rear heater
core. (Refer to 24 - HEATING & AIR CONDITION-
ING/PLUMBING - REAR/HEATER HOSE - INSTAL-
LATION).
(5) Install and tighten the screw that secures the
front of the rear heater-A/C unit housing to the right
quarter inner panel. Tighten the screw to 11 N´m (97
in. lbs.).
(6) Install and tighten the screw that secures the
back of the rear heater-A/C unit housing to the right
D-pillar. Tighten the screw to 11 N´m (97 in. lbs.).
(7) Reinstall the rear heater distribution duct onto
the right quarter inner panel. (Refer to 24 - HEAT-
ING & AIR CONDITIONING/DISTRIBUTION -REAR/REAR HEATER DISTRIBUTION DUCT -
INSTALLATION).
(8) Remove the right quarter trim panel and right
D-pillar trim panel from the quarter inner panel.
(Refer to 23 - BODY/INTERIOR/QUARTER TRIM
PANEL - INSTALLATION).
(9) Drain the engine cooling system. (Refer to 7 -
COOLING - STANDARD PROCEDURE - COOLING
SYSTEM REFILL).
HEATER HOSE
REMOVAL
REFER TO THE APPLICABLE WARNINGS AND
CAUTIONS FOR THIS SYSTEM BEFORE PER-
FORMING THE FOLLOWING OPERATION. (Refer
to 24 - HEATING & AIR CONDITIONING/PLUMB-
ING FRONT - WARNING - HEATER PLUMBING).
(1) Partially drain engine cooling system. Refer to
Group 7, Engine Cooling.
(2) Loosen clamp at the front end of the hose
located at the right, outboard side of the underbody,
rearward of the front crossmember. (Fig. 6)
(3) Carefully rotate hose back and forth while tug-
ging slightly away from connector nipple. If the hose
will not come off, slice the hose at the connector nip-
ple and peel off heater hose. This method will require
heater hose replacement.
CAUTION:
When removing hoses from outlet nipples, do not
use excessive force. Outlet nipples may become
damaged and leak engine coolant.
Fig. 5 Heater Core
1 - REAR HEATER-A/C HOUSING OUTLET
2 - REAR HEATER-A/C UNIT HOUSING
3 - LATCH (4)
4 - HEATER CORE
5 - RIGHT REAR WHEEL HOUSE
6 - HEATER HOSES
Fig. 6 Underbody Connections
1 - SUCTION LINE EXTENSION
2 - LIQUID LINE EXTENSION
3 - TIE STRAP
4- HEATER LINE EXTENSIONS
5 - UNDERBODY LINES
24 - 100 PLUMBING - REARRS
HEATER CORE (Continued)
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ªBig Slopeº. The PCM checks the oxygen sensor volt-
age in increments of a few milliseconds.
Reduced Output Voltage (Half Cycle)ÐThe
output voltage of the O2S ranges from 0 to 1 volt
(voltages are offset by 2.5 volts on NGC vehicles). A
good sensor can easily generate any output voltage in
this range as it is exposed to different concentrations
of oxygen. To detect a shift in the A/F mixture (lean
or rich), the output voltage has to change beyond a
threshold value. A malfunctioning sensor could have
difficulty changing beyond the threshold value. Each
time the voltage signal surpasses the threshold, a
counter is incremented by one. This is called the Half
Cycle Counter.
Heater PerformanceÐThe heater is tested by a
separate monitor. Refer to the Oxygen Sensor Heater
Monitor.
OPERATIONÐAs the Oxygen Sensor signal
switches, the PCM monitors the half cycle and big
slope signals from the oxygen sensor. If during the
test neither counter reaches a predetermined value, a
malfunction is entered and Freeze Frame data is
stored. Only one counter reaching its predetermined
value is needed for the monitor to pass.
The Oxygen Sensor Monitor is a two trip monitor
that is tested only once per trip. When the Oxygen
Sensor fails the test in two consecutive trips, the
MIL is illuminated and a DTC is set. The MIL is
extinguished when the Oxygen Sensor monitor
passes in three consecutive trips. The DTC is erased
from memory after 40 consecutive warm-up cycles
without test failure.
Enabling ConditionsÐThe following conditions
must typically be met for the PCM to run the oxygen
sensor monitor:
²Battery voltage
²Engine temperature
²Engine run time
²Engine run time at a predetermined speed
²Engine run time at a predetermined speed and
throttle opening
²Transmission in gear and brake depressed (auto-
matic only)
²Fuel system in Closed Loop
²Long Term Adaptive (within parameters)
²Power Steering Switch in low PSI (no load)
²Engine at idle
²Fuel level above 15%
²Ambient air temperature
²Barometric pressure
²Engine RPM within acceptable range of desired
idle
Pending ConditionsÐThe Task Manager typi-
cally does not run the Oxygen Sensor Monitor if over-
lapping monitors are running or the MIL is
illuminated for any of the following:²Misfire Monitor
²Front Oxygen Sensor and Heater Monitor
²MAP Sensor
²Vehicle Speed Sensor
²Engine Coolant Temperature Sensor
²Throttle Position Sensor
²Engine Controller Self Test Faults
²Cam or Crank Sensor
²Injector and Coil
²Idle Air Control Motor
²EVAP Electrical
²EGR Solenoid Electrical (if equipped)
²Intake/inlet Air Temperature
²5 Volt Feed
ConflictÐThe Task Manager does not run the
Oxygen Sensor Monitor if any of the following condi-
tions are present:
²A/C ON (A/C clutch cycling temporarily sus-
pends monitor)
²Purge flow in progress
²Ethanol content learn is taking place and the
ethanol used once flag is set (if equipped)
SuspendÐThe Task Manager suspends maturing
a fault for the Oxygen Sensor Monitor if any of the
following are present:
²Oxygen Sensor Heater Monitor, Priority 1
²Misfire Monitor, Priority 2
OXYGEN SENSOR HEATER MONITOR
DESCRIPTIONÐIf there is an oxygen sensor
(O2S) DTC as well as a O2S heater DTC, the O2S
fault MUST be repaired first. After the O2S fault is
repaired, verify that the heater circuit is operating
correctly.
The voltage readings taken from the O2S are very
temperature sensitive. The readings are not accurate
below a sensor temperature of 300ÉC. Heating of the
O2S is done to allow the engine controller to shift to
closed loop control as soon as possible. The heating
element used to heat the O2S must be tested to
ensure that it is heating the sensor properly.
The heater element itself is not tested. The sensor
output is used to test the heater by isolating the
effect of the heater element on the O2S output volt-
age from the other effects. The resistance is normally
between 100 ohms and 4.5 megaohms. When oxygen
sensor temperature increases, the resistance in the
internal circuit decreases. The PCM sends a 5 volts
biased signal through the oxygen sensors to ground
this monitoring circuit. As the temperature increases,
resistance decreases and the PCM detects a lower
voltage at the reference signal. Inversely, as the tem-
perature decreases, the resistance increases and the
PCM detects a higher voltage at the reference signal.
The O2S circuit is monitored for a drop in voltage.
RSEMISSIONS CONTROL25-3
EMISSIONS CONTROL (Continued)
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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 (Check
Engine lamp) will be illuminated.
NATURAL VACUUM LEAK DETECTION (NVLD) (if equipped)
The Natural Vacuum Leak Detection (NVLD) sys-
tem is the next generation evaporative leak detection
system that will first be used on vehicles equipped
with the Next Generation Controller (NGC). This
new system replaces the leak detection pump as the
method of evaporative system leak detection. This is
to detect a leak equivalent to a 0.0209(0.5 mm) hole.
This system has the capability to detect holes of this
size very dependably.
The basic leak detection theory employed with
NVLD is the9Gas Law9. This is to say that the pres-
sure in a sealed vessel will change if the temperature
of the gas in the vessel changes. The vessel will only
see this effect if it is indeed sealed. Even small leaks
will allow the pressure in the vessel to come to equi-
librium with the ambient pressure. In addition to the
detection of very small leaks, this system has the
capability of detecting medium as well as large evap-
orative system leaks.
The NVLD seals the canister vent during engine off
conditions. If the EVAP system has a leak of less than
the failure threshold, the evaporative system will be
pulled into a vacuum, either due to the cool down
from operating temperature or diurnal ambient tem-
perature cycling. The diurnal effect is considered one
of the primary contributors to the leak determination
by this diagnostic. When the vacuum in the system
exceeds about 19H2O (0.25 KPA), a vacuum switch
closes. The switch closure sends a signal to the NGC.
The NGC, via appropriate logic strategies (described
below), utilizes the switch signal, or lack thereof, to
make a determination of whether a leak is present.
The NVLD device is designed with a normally open
vacuum switch, a normally closed solenoid, and a
seal, which is actuated by both the solenoid and a
diaphragm. The NVLD is located on the atmosphericvent side of the canister. The NVLD assembly may
be mounted on top of the canister outlet, or in-line
between the canister and atmospheric vent filter. The
normally open vacuum switch will close with about 19
H2O (0.25 KPA) vacuum in the evaporative system.
The diaphragm actuates the switch. This is above the
opening point of the fuel inlet check valve in the fill
tube so cap off leaks can be detected. Submerged fill
systems must have recirculation lines that do not
have the in-line normally closed check valve that pro-
tects the system from failed nozzle liquid ingestion,
in order to detect cap off conditions.
The normally closed valve in the NVLD is intended
to maintain the seal on the evaporative system dur-
ing the engine off condition. If vacuum in the evapo-
rative system exceeds 39to 69H2O (0.75 to 1.5 KPA),
the valve will be pulled off the seat, opening the seal.
This will protect the system from excessive vacuum
as well as allowing sufficient purge flow in the event
that the solenoid was to become inoperative.
The solenoid actuates the valve to unseal the can-
ister vent while the engine is running. It also will be
used to close the vent during the medium and large
leak tests and during the purge flow check. This sole-
noid requires initial 1.5 amps of current to pull the
valve open but after 100 ms. will be duty cycled down
to an average of about 150 mA for the remainder of
the drive cycle.
Another feature in the device is a diaphragm that
will open the seal in the NVLD with pressure in the
evaporative system. The device will9blow off9at
about 0.59H2O (0.12 KPA) pressure to permit the
venting of vapors during refueling. An added benefit
to this is that it will also allow the tank to9breathe9
during increasing temperatures, thus limiting the
pressure in the tank to this low level. This is benefi-
cial because the induced vacuum during a subse-
quent declining temperature will achieve the switch
closed (pass threshold) sooner than if the tank had to
decay from a built up pressure.
The device itself has 3 wires: Switch sense, sole-
noid driver and ground. It also includes a resistor to
protect the switch from a short to battery or a short
to ground. The NGC utilizes a high-side driver to
energize and duty-cycle the solenoid.
DESCRIPTION - HIGH AND LOW LIMITS
The PCM compares input signal voltages from each
input device with established high and low limits for
the device. If the input voltage is not within limits
and other criteria are met, the PCM stores a diagnos-
tic trouble code in memory. Other diagnostic trouble
code criteria might include engine RPM limits or
input voltages from other sensors or switches that
must be present before verifying a diagnostic trouble
code condition.
25 - 8 EMISSIONS CONTROLRS
EMISSIONS CONTROL (Continued)
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VAPOR CANISTER
DESCRIPTION
There are 2 EVAP canisters on the vehicle. The
vacuum and vapor tubes connect to the top of the
canister. It is a charcoal canister (Fig. 15) or (Fig.
16).
OPERATION
All vehicles use a maintenance free, evaporative
(EVAP) canister. Fuel tank vapors vent into the can-
ister. The canister temporarily holds the fuel vapors
until intake manifold vacuum draws them into the
combustion chamber. The Powertrain Control Module
(PCM) purges the canister through the proportional
purge solenoid. The PCM purges the canister at pre-
determined intervals and engine conditions.
Purge Free Cells
Purge-free memory cells are used to identify the
fuel vapor content of the evaporative canister. Since
the evaporative canister is not purged 100% of the
time, the PCM stores information about the evapora-
tive canister's vapor content in a memory cell.
The purge-free cells are constructed similar to cer-
tain purge-normal cells. The purge-free cells can be
monitored by the DRB IIItScan Tool. The only dif-
ference between the purge-free cells and normal
adaptive cells is that in purge-free, the purge is com-
pletely turned off. This gives the PCM the ability to
compare purge and purge-free operation.
REMOVAL
REMOVAL
(1) Raise and support the vehicle.
(2) Remove the 2 hoses (Fig. 15).
(3) Remove bolt.
(4) Pull canister rearward to remove.
Fig. 15 FRONT EVAP CANISTER
1 - Front EVAP Canister
2 - Vent Valve
Fig. 16 REAR EVAP CANISTER
1 - Rear EVAP Canister
2 - Front EVAP Canister
3 - Vent Valve
25 - 18 EVAPORATIVE EMISSIONSRS
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The Task Manager Screen shows both a Requested
MIL state and an Actual MIL state. When the MIL is
illuminated upon completion of a test for a good trip,
the Requested MIL state changes to OFF. However,
the MIL remains illuminated until the next key
cycle. (On some vehicles, the MIL will actually turn
OFF during the thirdgood trip) During the key cycle
for the third good trip, the Requested MIL state is
OFF, while the Actual MIL state is ON. After the
next key cycle, the MIL is not illuminated and both
MIL states read OFF.
Diagnostic Trouble Codes (DTCs)
With OBD II, different DTC faults have different
priorities according to regulations. As a result, the
priorities determine MIL illumination and DTC era-
sure. DTCs are entered according to individual prior-
ity. DTCs with a higher priority overwrite lower
priority DTCs.
Priorities
²Priority 0 ÐNon-emissions related trouble codes.
²Priority 1 Ð One trip failure of a two trip fault
for non-fuel system and non-misfire. (MIL Off)
²Priority 2 Ð One trip failure of a two trip fault
for fuel system (rich/lean) or misfire. (MIL Off)
²Priority3ÐTwotrip failure for a non-fuel sys-
tem and non-misfire or matured one trip comprehen-
sive component fault. (MIL On)
²Priority4ÐTwotrip failure or matured fault
for fuel system (rich/lean) and misfire or one trip cat-
alyst damaging misfire. Catalyst damage misfire is a
2 trip MIL. The MIL flashes on the first trip when
catalyst damage misfire levels are present. (MIL On)
Non-emissions related failures have no priority.
One trip failures of two trip faults have low priority.
Two trip failures or matured faults have higher pri-
ority. One and two trip failures of fuel system and
misfire monitor take precedence over non-fuel system
and non-misfire failures.
DTC Self Erasure
With one trip components or systems, the MIL is
illuminated upon test failure and DTCs are stored.
Two trip monitors are components requiring failure
in two consecutive trips for MIL illumination. Upon
failure of the first test, the Task Manager enters a
maturing code. If the component fails the test for a
second time the code matures and a DTC is set.
After three good trips the MIL is extinguished and
the Task Manager automatically switches the trip
counter to a warm-up cycle counter. DTCs are auto-
matically erased following 40 warm-up cycles if the
component does not fail again.
For misfire and fuel system monitors, the compo-
nent must pass the test under a Similar Conditions
Window in order to record a good trip. A Similar Con-ditions Window is when engine RPM is within  375
RPM and load is within  20% of when the fault
occurred.
NOTE: It is important to understand that a compo-
nent does not have to fail under a similar window of
operation to mature. It must pass the test under a
Similar Conditions Window when it failed to record
a Good Trip for DTC erasure for misfire and fuel
system monitors.
DTCs can be erased anytime with a DRBIIIt.
Erasing the DTC with the DRBIIIterases all OBD II
information. The DRBIIItautomatically displays a
warning that erasing the DTC will also erase all
OBD II monitor data. This includes all counter infor-
mation for warm-up cycles, trips and Freeze Frame.
Trip Indicator
TheTripis essential for running monitors and
extinguishing the MIL. In OBD II terms, a trip is a
set of vehicle operating conditions that must be met
for a specific monitor to run. All trips begin with a
key cycle.
Good Trip
The Good Trip counters are as follows:
²Global Good Trip
²Fuel System Good Trip
²Misfire Good Trip
²Alternate Good Trip (appears as a Global Good
Trip on DRBIIIt)
²Comprehensive Components
²Major Monitor
²Warm-Up Cycles
Global Good Trip
To increment a Global Good Trip, the Oxygen sen-
sor and Catalyst efficiency monitors must have run
and passed, and 2 minutes of engine run time.
Fuel System Good Trip
To count a good trip (three required) and turn off
the MIL, the following conditions must occur:
²Engine in closed loop
²Operating in Similar Conditions Window
²Short Term multiplied by Long Term less than
threshold
²Less than threshold for a predetermined time
If all of the previous criteria are met, the PCM will
count a good trip (three required) and turn off the
MIL.
Misfire Good Trip
If the following conditions are met the PCM will
count one good trip (three required) in order to turn
off the MIL:
²Operating in Similar Condition Window
²1000 engine revolutions with no misfire
RSON-BOARD DIAGNOSTICS25-25
TASK MANAGER (Continued)
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²Absolute MAPÐ A live reading of engine load
to aid the user in accessing the Similar Conditions
Window.
²RPM When Misfire OccurredÐ The stored
RPM reading at the time of failure. Informs the user
at what engine RPM the failure occurred.
²Engine RPMÐ A live reading of engine RPM
to aid the user in accessing the Similar Conditions
Window.
²Adaptive Memory FactorÐ The PCM utilizes
both Short Term Compensation and Long Term Adap-tive to calculate the Adaptive Memory Factor for
total fuel correction.
²200 Rev CounterÐ Counts 0±100 720 degree
cycles.
²SCW Cat 200 Rev CounterÐ Counts when in
similar conditions.
²SCW FTP 1000 Rev CounterÐ Counts 0±4
when in similar conditions.
²Misfire Good Trip CounterÐ Counts up to
three to turn OFF the MIL.
RSON-BOARD DIAGNOSTICS25-27
TASK MANAGER (Continued)
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ANTILOCK BRAKE SYSTEM -
DESCRIPTION........................5-75
ANTILOCK BRAKE SYSTEM - OPERATION . . 5-76
ANTILOCK BRAKE SYSTEM BLEEDING -
STANDARD PROCEDURE................5-78
ANTILOCK BRAKE SYSTEM (EXPORT) -
DESCRIPTION........................5-75
A-PILLAR LOWER EXTENSION TRIM -
INSTALLATION.......................23-73
A-PILLAR LOWER EXTENSION TRIM -
REMOVAL..........................23-73
A-PILLAR TRIM - INSTALLATION........23-73
A-PILLAR TRIM - REMOVAL............23-73
A-PILLAR-HEADER, OR B-PILLAR -
INSTALLATION.......................23-17
A-PILLAR-HEADER, OR B-PILLAR -
REMOVAL..........................23-17
APPLIQUE - INSTALLATION.............23-14
APPLIQUE - REMOVAL................23-14
ARM - DESCRIPTION, LOWER CONTROL . . . 2-12
ARM - INSPECTION, LOWER CONTROL....2-14
ARM - INSTALLATION, LOWER CONTROL . . 2-15
ARM - INSTALLATION, REAR WIPER.....8R-14
ARM - INSTALLATION, TORQUE..........3-44
ARM - OPERATION, LOWER CONTROL.....2-12
ARM - REMOVAL, LOWER CONTROL......2-12
ARM - REMOVAL, REAR WIPER.........8R-14
ARM - REMOVAL, TORQUE..............3-44
ARM ALIGNMENT - STANDARD
PROCEDURE, FRONT WIPER............8R-8
ARM (REAR BUSHING - HYDRO) -
ASSEMBLY, LOWER CONTROL...........2-14
ARM (REAR BUSHING - HYDRO) -
DISASSEMBLY, LOWER CONTROL........2-14
ARM (REAR BUSHING - STANDARD) -
ASSEMBLY, LOWER CONTROL...........2-14
ARM (REAR BUSHING - STANDARD) -
DISASSEMBLY, LOWER CONTROL........2-13
ARMREST - INSTALLATION.............23-90
ARMREST - REMOVAL................23-90
ARMS - DESCRIPTION, ROCKER........9-109
ARMS - INSPECTION, ROCKER...........9-35
ARMS - INSTALLATION, FRONT WIPER....8R-9
ARMS - INSTALLATION, ROCKER.........9-35
ARMS - OPERATION, ROCKER..........9-109
ARMS - REMOVAL, FRONT WIPER........8R-9
ARMS - REMOVAL, ROCKER.............9-34
ARMS AND SHAFT - ASSEMBLY,
ROCKER............................9-109
ARMS AND SHAFT - DISASSEMBLY,
ROCKER............................9-109
ARMS AND SHAFT - INSTALLATION,
ROCKER............................9-110
ARMS AND SHAFT - REMOVAL, ROCKER . . 9-109
ASSIST HANDLE - INSTALLATION........23-73
ASSIST HANDLE - REMOVAL...........23-73
ASSIST STRAP - INSTALLATION, FRONT
SEATBACK..........................23-91
ASSIST STRAP - REMOVAL, FRONT
SEATBACK..........................23-91
ATC - OPERATION, THREE ZONE.........24-3
ATC - OPERATION, TWO ZONE.........24-106
ATTACHED - INSTALLATION, EXTERIOR
NAME PLATES - ADHESIVE.............23-50
ATTACHED - INSTALLATION, EXTERIOR
NAME PLATES - TAPE.................23-50
ATTACHED - REMOVAL, EXTERIOR NAME
PLATES - ADHESIVE..................23-50
ATTACHED - REMOVAL, EXTERIOR NAME
PLATES - TAPE ......................23-50
AUDIO - DIAGNOSIS AND TESTING.......8A-2
AUDIO/VIDEO - DESCRIPTION...........8A-1
AUDIO/VIDEO - OPERATION.............8A-2
AUTO SHUT DOWN RELAY -
DESCRIPTION.........................8I-3
AUTO SHUT DOWN RELAY - OPERATION . . . 8I-3
AUTOMATIC ADJUSTER - DIAGNOSIS
AND TESTING, DRUM BRAKE
............5-13
AUTOMATIC ADJUSTER TENSION
RELEASE - STANDARD PROCEDURE,
PARKING BRAKE
......................5-58
AUTOMATIC ADJUSTER TENSION RESET
- STANDARD PROCEDURE, PARKING
BRAKE
..............................5-59
AUTOMATIC DAY / NIGHT MIRROR -
DESCRIPTION
.......................8N-47
AUTOMATIC DAY / NIGHT MIRROR -
DIAGNOSIS AND TESTING
.............8N-47AUTOMATIC DAY / NIGHT MIRROR -
OPERATION.........................8N-47
AUTOMATIC TEMPERATURE CONTROL -
DESCRIPTION........................24-2
AUTOMATIC TRANSAXLE -
DESCRIPTION, 41TE.................21-117
AUTOMATIC TRANSAXLE - OPERATION,
41TE.............................21-119
AUTOMATIC TRANSAXLE, SPECIAL
TOOLS - 41TE......................21-183
AUTOSTICK SWITCH - DESCRIPTION....21-189
AUTOSTICK SWITCH - OPERATION......21-189
AWD - INSTALLATION..............2-39,2-44
AWD - INSTALLATION, REAR WHEEL
SPEED SENSOR.......................5-80
AWD - REMOVAL.................2-38,2-44
AWD - REMOVAL, REAR WHEEL SPEED
SENSOR............................5-80
AWD AND HEAVY DUTY - INSTALLATION . . . 2-35
AWD AND HEAVY DUTY - REMOVAL......2-35
AXLE SEALS - INSTALLATION...........21-61
AXLE SEALS - REMOVAL..............21-61
B OR C-PILLAR - INSTALLATION, SEAT
BELT HEIGHT ADJUSTER..............8O-12
B OR C-PILLAR - REMOVAL, SEAT BELT
HEIGHT ADJUSTER...................8O-12
BACK - INSTALLATION, BENCH SEAT....23-101
BACK - QUAD BUCKET - INSTALLATION,
BUCKET SEAT.......................23-97
BACK - QUAD BUCKET - REMOVAL,
BUCKET SEAT.........................23-97
BACK - REMOVAL, BENCH SEAT........23-101
BACK COVER - INSTALLATION, BENCH
SEAT .............................23-102
BACK COVER - REMOVAL, BENCH SEAT . . 23-102
BACK HINGE - REMOVAL, BENCH SEAT . . 23-100
BACK HINGE COVERS - QUAD BUCKET,
50/50 SPLIT, BENCH - INSTALLATION,
SEAT .............................23-100
BACK HINGE COVERS - QUAD BUCKET,
50/50 SPLIT, BENCH - REMOVAL, SEAT . . 23-100
BACKING PLATE - INSTALLATION,
STEERING COLUMN COVER............23-69
BACKING PLATE - REMOVAL, STEERING
COLUMN COVER.....................23-69
BACK-UP LAMP SWITCH -
INSTALLATION.......................21-62
BACK-UP LAMP SWITCH - REMOVAL.....21-62
BAG RETAINER - INSTALLATION,
PLASTIC GROCERY..................23-103
BAG RETAINER - REMOVAL, PLASTIC
GROCERY.........................23-103
BALANCE - STANDARD PROCEDURE,
TIRE AND WHEEL.....................22-5
BALANCE SHAFTS AND CARRIER
ASSEMBLY - DESCRIPTION.............9-69
BALANCE SHAFTS AND CARRIER
ASSEMBLY - INSTALLATION.............9-72
BALANCE SHAFTS AND CARRIER
ASSEMBLY - OPERATION...............9-69
BALANCE SHAFTS AND CARRIER
ASSEMBLY - REMOVAL.................9-69
BALL BEARING - INSTALLATION, END
COVER.............................21-10
BALL BEARING - REMOVAL, END COVER . . . 21-9
BALL JOINT - DESCRIPTION, LOWER......2-10
BALL JOINT - DIAGNOSIS AND TESTING,
LOWER.............................2-10
BALL JOINT - OPERATION, LOWER.......2-10
BALL JOINT SEAL BOOT - INSTALLATION . . 2-11
BALL JOINT SEAL BOOT - REMOVAL......2-11
BAR - DESCRIPTION, STABILIZER....2-16,2-43
BAR - DESCRIPTION, TRACK............2-44
BAR - INSPECTION, STABILIZER..........2-17
BAR - INSTALLATION, STABILIZER........2-17
BAR - INSTALLATION, TRACK............2-45
BAR - OPERATION, STABILIZER......2-16,2-44
BAR - OPERATION, TRACK..............2-44
BAR - REMOVAL, STABILIZER...........2-17
BAR - REMOVAL, TRACK...............2-44
BAR CUSHION - INSTALLATION,
STABILIZER
...........................2-4
BAR CUSHION - REMOVAL, STABILIZER
....2-4
BASE BRAKE BLEEDING - STANDARD
PROCEDURE
..........................5-7
BASE BRAKE SYSTEM - DIAGNOSIS AND
TESTING
.............................5-4
BASE BRAKE SYSTEM, SPECIAL TOOLS
....5-10BASE BRAKES - DESCRIPTION............5-3
BASE BRAKES - OPERATION..............5-3
BASE BRAKES (EXPORT) - DESCRIPTION . . . 5-3
BASE COAT/CLEARCOAT FINISH -
DESCRIPTION.......................23-84
BATTERY - DESCRIPTION...............8F-7
BATTERY - DIAGNOSIS AND TESTING.....8F-9
BATTERY - OPERATION.................8F-9
BATTERY - REMOVAL.................8F-15
BATTERY CABLE - DIAGNOSIS AND
TESTING...........................8F-16
BATTERY CABLES - DESCRIPTION.......8F-16
BATTERY CABLES - INSTALLATION.......8F-18
BATTERY CABLES - OPERATION.........8F-16
BATTERY CABLES - REMOVAL..........8F-18
BATTERY CHARGING - STANDARD
PROCEDURE, CONVENTIONAL..........8F-11
BATTERY CHARGING - STANDARD
PROCEDURE, SPIRAL PLATE............8F-10
BATTERY ELECTROLYTE LEVEL -
STANDARD PROCEDURE, CHECKING.....8F-14
BATTERY HOLDDOWN - DESCRIPTION....8F-15
BATTERY HOLDDOWN - INSTALLATION . . . 8F-16
BATTERY HOLDDOWN - OPERATION.....8F-15
BATTERY HOLDDOWN - REMOVAL.......8F-16
BATTERY REPLACEMENT - STANDARD
PROCEDURE........................8N-42
BATTERY, SPECIFICATIONS.............8N-43
BATTERY SYSTEM - CLEANING...........8F-5
BATTERY SYSTEM - DESCRIPTION........8F-1
BATTERY SYSTEM - DIAGNOSIS AND
TESTING............................8F-2
BATTERY SYSTEM - INSPECTION.........8F-5
BATTERY SYSTEM - OPERATION.........8F-2
BATTERY SYSTEM - SPECIFICATIONS......8F-6
BATTERY SYSTEM SPECIAL TOOLS,
SPECIAL TOOLS......................8F-7
BATTERY TEMPERATURE SENSOR -
DESCRIPTION.......................8F-23
BATTERY TEMPERATURE SENSOR -
OPERATION.........................8F-23
BATTERY TEMPERATURE SENSOR -
REMOVAL..........................8F-23
BATTERY TEMPERATURE SENSOR -
SPECIFICATIONS.....................8F-22
BATTERY TRAY - DESCRIPTION.........8F-18
BATTERY TRAY - INSTALLATION.........8F-19
BATTERY TRAY - OPERATION...........8F-19
BATTERY TRAY - REMOVAL............8F-19
BEARING - DESCRIPTION, HUB.......2-30,2-5
BEARING - DIAGNOSIS AND TESTING,
HUB.............................2-30,2-5
BEARING - INSTALLATION, CLUTCH
RELEASE LEVER.......................6-7
BEARING - INSTALLATION, END COVER
BALL..............................21-10
BEARING - INSTALLATION, HUB.......2-32,2-5
BEARING - OPERATION, HUB.........2-30,2-5
BEARING - REMOVAL, CLUTCH RELEASE
LEVER...............................6-6
BEARING - REMOVAL, END COVER BALL . . . 21-9
BEARING - REMOVAL, HUB..........2-31,2-5
BEARING CLEARANCE - STANDARD
PROCEDURE, MEASURING
CONNECTING ROD...................9-120
BEARING CLEARANCE USING
PLASTIGAGE - STANDARD
PROCEDURE, MEASURING..........9-12,9-84
BEARING FITTING - STANDARD
PROCEDURE, MAIN...................9-123
BEARING PRELOAD - ADJUSTMENT,
DIFFERENTIAL......................21-199
BEARINGS - INSTALLATION,
CRANKSHAFT MAIN..................9-124
BEARINGS - REMOVAL, CRANKSHAFT
MAIN..............................9-124
BEARINGS (IN BLOCK) - DESCRIPTION,
CAMSHAFT.........................9-115
BEARINGS (IN BLOCK) - INSPECTION,
CAMSHAFT.........................9-115
BEARINGS (IN BLOCK) - INSTALLATION,
CAMSHAFT
.........................9-115
BEARINGS (IN BLOCK) - OPERATION,
CAMSHAFT
.........................9-115
BEARINGS (IN BLOCK) - REMOVAL,
CAMSHAFT
.........................9-115
BELLCRANK - INSTALLATION
...........23-34
BELLCRANK - REMOVAL
...............23-34
2 INDEXRS
Description Group-Page Description Group-Page Description Group-Page
ProCarManuals.com

BELT - DIAGNOSIS AND TESTING,
ACCESSORY DRIVE.....................7-7
BELT - INSTALLATION, TIMING...........9-65
BELT - REMOVAL, TIMING..............9-63
BELT & RETRACTOR - FIRST ROW -
OUTBOARD - INSTALLATION, SEAT......8O-13
BELT & RETRACTOR - FIRST ROW -
OUTBOARD - REMOVAL, SEAT..........8O-13
BELT & RETRACTOR - OUTBOARD -
FRONT - INSTALLATION, SEAT..........8O-13
BELT & RETRACTOR - OUTBOARD -
FRONT - REMOVAL, SEAT..............8O-13
BELT & RETRACTOR - SECOND ROW -
LEFT OUTBOARD - INSTALLATION,
SEAT ..............................8O-16
BELT & RETRACTOR - SECOND ROW -
LEFT OUTBOARD - REMOVAL, SEAT.....8O-16
BELT & RETRACTOR - SECOND ROW -
RIGHT OUTBOARD - INSTALLATION,
SEAT ..............................8O-14
BELT & RETRACTOR - SECOND ROW -
RIGHT OUTBOARD - REMOVAL, SEAT....8O-14
BELT & RETRACTOR - SECOND ROW -
RIGHT OUTBOARD WITH REAR HVAC -
LWB - INSTALLATION, SEAT............8O-15
BELT & RETRACTOR - SECOND ROW -
RIGHT OUTBOARD WITH REAR HVAC -
LWB - REMOVAL, SEAT...............8O-15
BELT BUCKLE - FIRST ROW - BENCH -
INSTALLATION, SEAT.................8O-12
BELT BUCKLE - FIRST ROW - BENCH -
REMOVAL, SEAT.....................8O-12
BELT BUCKLE - FIRST ROW INBOARD -
QUAD BUCKET - INSTALLATION, SEAT....8O-11
BELT BUCKLE - FIRST ROW INBOARD -
QUAD BUCKET - REMOVAL, SEAT.......8O-11
BELT BUCKLE - FRONT INBOARD -
INSTALLATION, SEAT.................8O-11
BELT BUCKLE - FRONT INBOARD -
REMOVAL, SEAT.....................8O-11
BELT BUCKLE - SECOND ROW - THREE
PASSENGER BENCH - INSTALLATION,
SEAT ..............................8O-14
BELT BUCKLE - SECOND ROW - THREE
PASSENGER BENCH - REMOVAL, SEAT . . . 8O-14
BELT BUCKLE - SECOND ROW INBOARD
- 50/50 BENCH - INSTALLATION, SEAT . . . 8O-12
BELT BUCKLE - SECOND ROW INBOARD
- 50/50 BENCH - REMOVAL, SEAT.......8O-12
BELT COVER(S) - INSTALLATION,
TIMING.............................9-62
BELT COVER(S) - REMOVAL, TIMING......9-61
BELT HEIGHT ADJUSTER-BOR
C-PILLAR - INSTALLATION, SEAT........8O-12
BELT HEIGHT ADJUSTER-BOR
C-PILLAR - REMOVAL, SEAT...........8O-12
BELT HEIGHT ADJUSTER KNOB -
INSTALLATION, SEAT.................8O-13
BELT HEIGHT ADJUSTER KNOB -
REMOVAL, SEAT.....................8O-13
BELT MOLDING - INSTALLATION, FRONT
DOOR INNER.......................23-112
BELT MOLDING - INSTALLATION, FRONT
DOOR OUTER......................23-110
BELT MOLDING - REMOVAL, FRONT
DOOR INNER.......................23-112
BELT MOLDING - REMOVAL, FRONT
DOOR OUTER......................23-110
BELT TENSION - STANDARD
PROCEDURE, CHECKING POWER
STEERING............................7-8
BELT TENSION, SPECIFICATIONS -
ACCESSORY DRIVE.....................7-5
BELT TENSIONER - 2.4L - INSTALLATION . . 7-10
BELT TENSIONER - 2.4L - REMOVAL......7-10
BELT TENSIONER - 3.3/3.8L -
INSTALLATION........................7-12
BELT TENSIONER - 3.3/3.8L - REMOVAL . . . 7-12
BELT TENSIONER - DESCRIPTION, SEAT . . 8O-16
BELT TENSIONER - OPERATION, SEAT....8O-16
BELT TENSIONER & PULLEY -
INSTALLATION, TIMING.................9-69
BELT TENSIONER & PULLEY -
REMOVAL, TIMING
....................9-68
BELTS - 2.4L - ADJUSTMENTS, DRIVE
.....7-10
BELTS - 2.4L - CLEANING, DRIVE
..........7-9
BELTS - 2.4L - INSPECTION, DRIVE
........7-9
BELTS - 2.4L - INSTALLATION, DRIVE
.....7-10BELTS - 2.4L - REMOVAL, DRIVE..........7-8
BELTS - 3.3/3.8L - CLEANING, DRIVE......7-11
BELTS - 3.3/3.8L - INSPECTION, DRIVE....7-11
BELTS - 3.3/3.8L - INSTALLATION, DRIVE . . 7-12
BELTS - 3.3/3.8L - REMOVAL, DRIVE......7-11
BENCH - INSTALLATION, SEAT BACK
HINGE COVERS - QUAD BUCKET, 50/50
SPLIT.............................23-100
BENCH - INSTALLATION, SEAT BELT
BUCKLE - FIRST ROW................8O-12
BENCH - INSTALLATION, SEAT BELT
BUCKLE - SECOND ROW - THREE
PASSENGER........................8O-14
BENCH - INSTALLATION, SEAT BELT
BUCKLE - SECOND ROW INBOARD -
50/50..............................8O-12
BENCH - INSTALLATION, SEAT CUSHION
COVER - QUAD BUCKET, 50/50 SPLIT....23-99
BENCH - REMOVAL, SEAT BACK HINGE
COVERS - QUAD BUCKET, 50/50 SPLIT . . 23-100
BENCH - REMOVAL, SEAT BELT BUCKLE
- FIRST ROW.......................8O-12
BENCH - REMOVAL, SEAT BELT BUCKLE
- SECOND ROW - THREE PASSENGER....8O-14
BENCH - REMOVAL, SEAT BELT BUCKLE
- SECOND ROW INBOARD - 50/50.......8O-12
BENCH - REMOVAL, SEAT CUSHION
COVER - QUAD BUCKET, 50/50 SPLIT....23-98
BENCH SEAT - REMOVAL, CHILD SEAT
MODULE...........................23-86
BENCH SEAT BACK - INSTALLATION.....23-101
BENCH SEAT BACK - REMOVAL........23-101
BENCH SEAT BACK COVER -
INSTALLATION......................23-102
BENCH SEAT BACK COVER - REMOVAL . . 23-102
BENCH SEAT BACK HINGE - REMOVAL . . 23-100
BENCH SEAT RISER - 50/50 SPLIT -
INSTALLATION.......................23-99
BENCH SEAT RISER - 50/50 SPLIT -
REMOVAL..........................23-99
BENCH SEAT RISER - SECOND ROW -
INSTALLATION......................23-100
BENCH SEAT RISER - SECOND ROW -
REMOVAL..........................23-99
BENCH SEAT RISER - THIRD ROW -
INSTALLATION......................23-100
BENCH SEAT RISER - THIRD ROW -
REMOVAL.........................23-100
BENCH SEAT TRACK - INSTALLATION . . . 23-102
BENCH SEAT TRACK - REMOVAL.......23-102
BENCH SEATBACK PANEL -
INSTALLATION.......................23-98
BENCH SEATBACK PANEL - REMOVAL....23-98
BEZEL - INSTALLATION, CLUSTER.......23-62
BEZEL - INSTALLATION, INSTRUMENT
PANEL CENTER......................23-67
BEZEL - INSTALLATION, SLIDING DOOR
STOP BUMPER......................23-25
BEZEL - REMOVAL, CLUSTER...........23-62
BEZEL - REMOVAL, INSTRUMENT PANEL
CENTER............................23-67
BEZEL - REMOVAL, SLIDING DOOR
STOP BUMPER......................23-25
BEZEL OUTLETS - INSTALLATION,
CENTER............................24-42
BEZEL OUTLETS - REMOVAL, CENTER....24-40
BI-DIRECTIONAL OVERRUNNING
CLUTCH - DESCRIPTION................3-34
BI-DIRECTIONAL OVERRUNNING
CLUTCH - OPERATION.................3-36
BIN - INSTALLATION, UNDER SEAT
STORAGE..........................23-103
BIN - REMOVAL, UNDER SEAT STORAGE . 23-103
BIN GUIDE - INSTALLATION, UNDER
SEAT STORAGE.....................23-104
BIN GUIDE - REMOVAL, UNDER SEAT
STORAGE..........................23-104
BIN LOCK/LATCH - INSTALLATION,
UNDER SEAT STORAGE...............23-104
BIN LOCK/LATCH - REMOVAL, UNDER
SEAT STORAGE.....................23-104
BLADES - CLEANING, WIPER
...........8R-17
BLADES - INSTALLATION, WIPER
........8R-17
BLADES - REMOVAL, WIPER
...........8R-17
BLEEDING - STANDARD PROCEDURE,
ANTILOCK BRAKE SYSTEM
..............5-78
BLEEDING - STANDARD PROCEDURE,
BASE BRAKE
..........................5-7BLEEDING - STANDARD PROCEDURE,
MASTER CYLINDER...................5-35
BLEND DOOR ACTUATOR -
DESCRIPTION..................24-11,24-30
BLEND DOOR ACTUATOR -
INSTALLATION..................24-12,24-31
BLEND DOOR ACTUATOR - OPERATION . . 24-11,
24-30
BLEND DOOR ACTUATOR - REMOVAL....24-12,
24-31
BLOCK - CLEANING, ENGINE.......9-112,9-36
BLOCK - DESCRIPTION, ENGINE.....9-112,9-35
BLOCK - DESCRIPTION, NON-ABS
JUNCTION...........................5-33
BLOCK - INSPECTION, ENGINE......9-112,9-36
BLOCK - INSTALLATION, NON-ABS
JUNCTION...........................5-33
BLOCK - OPERATION, NON-ABS
JUNCTION...........................5-33
BLOCK - REMOVAL, NON-ABS JUNCTION . . 5-33
BLOCK HEATER - DESCRIPTION, ENGINE . . . 7-20
BLOCK HEATER - INSTALLATION,
ENGINE.............................7-20
BLOCK HEATER - OPERATION, ENGINE....7-20
BLOCK HEATER - REMOVAL, ENGINE......7-20
BLOCK HEATER TESTING - DIAGNOSIS
AND TESTING, ENGINE.................7-20
BLOCKER LATCH - INSTALLATION, FUEL
FILL DOOR.........................23-52
BLOCKER LATCH - REMOVAL, FUEL FILL
DOOR.............................23-52
BLOCKER LATCH STRIKER -
INSTALLATION, FUEL FILL DOOR........23-52
BLOCKER LATCH STRIKER - REMOVAL,
FUEL FILL DOOR.....................23-52
BLOCKER LOCKOUT LINK -
INSTALLATION, FUEL FILL DOOR........23-53
BLOCKER LOCKOUT LINK - REMOVAL,
FUEL FILL DOOR.....................23-52
BLOWER MOTOR - DESCRIPTION . . 24-43,24-53
BLOWER MOTOR - DIAGNOSIS AND
TESTING......................24-43,24-54
BLOWER MOTOR - INSTALLATION . . 24-46,24-56
BLOWER MOTOR - OPERATION....24-43,24-54
BLOWER MOTOR - REMOVAL......24-46,24-56
BLOWER MOTOR RELAY - DESCRIPTION . 24-13,
24-32
BLOWER MOTOR RELAY - DIAGNOSIS
AND TESTING..................24-14,24-33
BLOWER MOTOR RELAY -
INSTALLATION..................24-14,24-33
BLOWER MOTOR RELAY - OPERATION . . . 24-13,
24-32
BLOWER MOTOR RELAY - REMOVAL....24-14,
24-33
BLOWER MOTOR RESISTOR -
DESCRIPTION..................24-14,24-34
BLOWER MOTOR RESISTOR -
DIAGNOSIS AND TESTING........24-15,24-34
BLOWER MOTOR RESISTOR -
INSTALLATION..................24-16,24-35
BLOWER MOTOR RESISTOR -
OPERATION....................24-15,24-34
BLOWER MOTOR RESISTOR - REMOVAL . 24-16,
24-35
BODY - ASSEMBLY, VALVE............21-257
BODY - DESCRIPTION, THROTTLE.......14-34
BODY - DESCRIPTION, VALVE..........21-250
BODY - DISASSEMBLY, VALVE.........21-252
BODY - INSTALLATION, THROTTLE.......14-35
BODY - INSTALLATION, VALVE.........21-262
BODY - OPERATION, THROTTLE.........14-34
BODY - OPERATION, VALVE...........21-250
BODY - REMOVAL, THROTTLE..........14-35
BODY - REMOVAL, VALVE.............21-251
BODY AND CABLE - DESCRIPTION,
ANTENNA...........................8A-4
BODY AND CABLE - DIAGNOSIS AND
TESTING, ANTENNA...................8A-4
BODY AND CABLE - INSTALLATION,
ANTENNA
...........................8A-6
BODY AND CABLE - OPERATION,
ANTENNA
...........................8A-4
BODY AND CABLE - REMOVAL,
ANTENNA
...........................8A-5
BODY CODE PLATE - DESCRIPTION
.....Intro.-1
BODY CONTROL MODULE -
DESCRIPTION
........................8E-3
RSINDEX3
Description Group-Page Description Group-Page Description Group-Page
ProCarManuals.com