coolant level CHRYSLER VOYAGER 2003 Owner's Guide

(20) Connect solenoid/pressure switch assembly
(Fig. 166).
(21) Connect transmission range sensor connector
(Fig. 166).
(22) Connect input and output speed sensor con-
nectors (Fig. 166).
(23) Remove plugs and install transaxle oil cooler
line service splice kit. Refer to instructions included
with kit.
(24) Remove plug and Install fluid level indicator/
tube assembly.(25) Install coolant recovery bottle (Fig. 167).
(26) Install battery shield.
(27) Connect battery cables.
(28) Fill transaxle with suitable amount of ATF+4
(Automatic Transmission FluidÐType 9602). (Refer
to 21 - TRANSMISSION/TRANSAXLE/AUTOMATIC
- 41TE/FLUID - STANDARD PROCEDURE)
Fig. 166 Component Connector Location - Typical
1 - SOLENOID/PRESSURE SWITCH ASSY. CONNECTOR
2 - INPUT SPEED SENSOR CONNECTOR
3 - OUTPUT SPEED SENSOR CONNECTOR
4 - TRANSMISSION RANGE SENSOR CONNECTOR
Fig. 167 Coolant Recovery Bottle
1 - UPPER BOLT ATTACHING TO BATTERY TRAY
2 - COOLANT RECOVERY CONTAINER
3 - UPPER BOLT
4 - HOSE
5 - LOWER BOLT (QTY. 2)
6 - LEFT SIDE FRAME RAIL
21 - 168 41TE AUTOMATIC TRANSAXLERS
41TE AUTOMATIC TRANSAXLE (Continued)
ProCarManuals.com

²air recirculation button. The Recirculate button
contains an LED that illuminates to show when the
function is in operation.
²an air conditioning button that allows the com-
pressor to be turned on/off. The Snowflake button
contains an LED that illuminates to shown when the
function is in operation.
²rotary knobs for front and rear fan speed selec-
tion.
²a rotary knob for mode control.
REAR CONTROL PANEL
A rear control panel centrally mounted on the
headliner has a rotary adjustment for temperature
and fan speed control of the rear unit by intermedi-
ate seat passengers when the front control rear knob
is set to the rear position.
DESCRIPTION - AUTOMATIC TEMPERATURE
CONTROL
The Automatic Temperature Control (ATC) allows
occupants to select a comfort temperature, which is
the perceived temperature level not the actual pas-
senger compartment air temperature.
The Automatic Temperature Control system
includes a dust and odor air filter. The filter element
is the same size as the air conditioning evaporator to
ensure ample capacity. A door at the base of the
heater and air conditioning housing below the glove
box provides easy access to the filter element.
The ATC computer utilizes integrated circuitry and
information carried on the Programmable Communi-
cations Interface (PCI) data bus network to monitor
many sensors and switch inputs throughout the vehi-
cle. In response to those inputs, the internal circuitry
and programming of the ATC computer allow it to
control electronic functions and features of the ATC
system. The inputs to the ATC computer are:
²Vehicle Speed/Engine RPM± The ATC com-
puter monitors engine RPM, vehicle speed and Man-
ifold Absolute Pressure information from the PCM.
²Coolant Temperature± ATC computer moni-
tors Coolant temperature received from the PCM and
converts it to degrees Fahrenheit.
²Ambient Temperature± ATC computer moni-
tors Ambient temperature from the Compass Mini
Trip Computer (CMTC) and converts it to degrees
Fahrenheit.
²Engine Miscellaneous Sensor Status±ATC
computer monitors A/C disable information from the
PCM.
²Refrigerant Pressure± ATC computer moni-
tors Barometric Pressure, Intake Air Temperature,
High Side Pressure and Methanol Content as broad-
cast by the PCM.²Door Ajar Status± The ATC computer moni-
tors Driver Front Door, Passenger Front Door, Left
Rear Door, Right Rear Door and Liftgate ajar infor-
mation, as identified by the Body Control Module
(BCM), to determine if all in-car temperatures should
be maintained.
²Dimming± The ATC computer monitors dim-
ming status from the BCM to determine the required
level of brightness and will dim accordingly.
²Vehicle Odometer± The ATC computer moni-
tors the vehicle odometer information from the BCM
to prevent flashing the VF tube icons if the manual
motor calibration or manual cool down tests have
failed. Flashing of the display icons will cease when
the vehicle odometer is greater than 3 miles.
²English/Metric± The ATC computer monitors
the English/Metric information broadcast by the
CMTC. The set temp displays for both the front and
rear control heads will be set accordingly.
²Vehicle Identification Number± The ATC
computer monitors the last eight characters of the
VIN broadcast by the PCM and compares it to the
information stored in EEPROM. If it is different, the
new number will be stored over the old one and a
motor calibration shall be initiated.
²A/C System Information± The ATC computer
will send a message for Evaporator Temperature too
Low, Fan Blower Relay status, Evaporator Sensor
Failure, Rear Window Defogger Relay and A/C Select.
FRONT CONTROL PANEL
The front control panel and integral computer is
mounted in the instrument panel.
The instrument panel mounted control and inte-
gral computer contains:
²A power button which allows the system to be
completely turned off. The display is blank when the
system is off.
²Three rocker switches that select comfort tem-
peratures from 15É to 30É C (59É to 85É F), which are
shown in the vacuum-fluorescent digital control dis-
play. If the set temp is 59 and the down button is
pressed, the set temp value will become 55 but the
display will show LO. If the set temp is 85 and the
up button is pressed, the set temp value will become
90 but the display will show HIGH. Temperatures
can be displayed in either metric or Fahrenheit,
which is controlled from the overhead console.
²A rocker switch that selects a cool-down rate.
LO-AUTO or HI-AUTO are displayed when the sys-
tem is in automatic operation.
²A defroster button which turns on the defroster
independently during full automatic control. A
defroster symbol illuminates in the display when the
button is pressed.
24 - 2 HEATING & AIR CONDITIONINGRS
HEATING & AIR CONDITIONING (Continued)
ProCarManuals.com

Performance Temperature and Pressure
Ambient Temperature 21É C
(70É F)27É C
(80É F)32É C
(90É F)38É C
(100É F)43É C
(110É F)
Left Center Panel
Outlet Discharge Air
Temperature1to8ÉC
(34 to 46É F)3to9ÉC
(37 to 49É F)4 to 10ÉC
(39 to 50É F)6to11ÉC
(43 to 52É F)7 to 18É C
(45 to 65É F)
Discharge Pressure
(High Side Service
Port)1034 to 1724
kPa
(150 to 250
psi)1517 to 2275
kPa
(220 to 330
psi)1999 to 2620
kPa
(290 to 380
psi)2068 to 2965
kPa
(300 to 430
psi)2275 to 3421
kPa
(330 to 450 psi)
Suction Pressure (Low
Side Service Port)103 to 207 kPa
(15 to 30 psi)117 to 221 kPa
(17 to 32 psi)138 to 241 kPa
(20 to 35 psi)172 to 269 kPa
(25 to 39 psi)207 to 345 kPa
(30 to 50 psi)
DIAGNOSIS AND TESTING - HEATER
PERFORMANCE TEST
PRE-DIAGNOSTIC PREPARATIONS
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 - HEATER PLUMB-
ING).
Check the coolant level, drive belt tension, radiator
air flow, and cooling fan operation. Start the engine
and allow it to warm up to normal temperature.
MAXIMUM HEATER OUTPUT: TEST AND ACTION
Engine coolant is provided to the heater system by
two 16 mm (5/8 inch inside diameter) heater hoses.
With the engine idling at normal running tempera-
ture, set the heater-A/C controls as follows. Temper-
ature control to full Heat, Mode control to Floor,
Blower control to the highest speed setting. Using a
test thermometer, check the air temperature coming
from the center floor outlets and compare this read-
ing to the Temperature Reference table.
TEMPERATURE REFERENCE
AMBIENT
TEMPERATUREMINIMUM FLOOR
OUTLET
TEMPERATURE
CELSIUS FAHRENHEIT CELSIUS FAHRENHEIT
15.5É 60É 62.2É 144É
21.1É 70É 63.8É 147É
26.6É 80É 65.5É 150É
32.2É 90É 67.2É 153ÉIf the floor outlet air temperature is insufficient,
check that the cooling system is operating to specifi-
cations. (Refer to 7 - COOLING/ENGINE - DIAGNO-
SIS AND TESTING). Both heater hoses should be
HOT to the touch (the coolant return hose should be
slightly cooler than the supply hose). If the coolant
return hose is much cooler than the supply hose,
locate and repair the engine coolant flow obstruction
in heater system.
POSSIBLE LOCATIONS OR CAUSE OF OBSTRUCTED
COOLANT FLOW
²Pinched or kinked heater hoses.
²Improper heater hose routing.
²Plugged heater hoses or supply and return ports
at cooling system connections.
²Plugged heater core.
²Air locked heater core.
²Restrictor in backwards.
If coolant flow is verified and the heater floor out-
let temperature is insufficient, a mechanical problem
may exist.
POSSIBLE LOCATION OR CAUSE OF INSUFFICIENT HEAT
²Obstructed cowl air intake.
²Obstructed heater system outlets.
²Blend-air door not functioning properly.
TEMPERATURE CONTROL
If heater floor outlet temperature cannot be
adjusted with the heater-A/C control temperature
control lever, one of the following could require ser-
vice:
²Blend-air door binding.
²Faulty blend-air door motor.
²Improper engine coolant temperature.
²Faulty heater-A/C control.
24 - 6 HEATING & AIR CONDITIONINGRS
HEATING & AIR CONDITIONING (Continued)
ProCarManuals.com

INSTALLATION
(1) Remove the tape or plugs from the evaporator
tube fittings and both expansion valve ports.
(2) Lubricate new rubber O-ring seals with clean
refrigerant oil and install them on the evaporator
tube fittings.
(3) Position the expansion valve onto the evapora-
tor tubes.
(4) Install and tighten the two screws that secure
the expansion valve to the evaporator tube sealing
plate. Tighten the screws to 11 N´m (97 in. lbs.).
(5) Reinstall the rear evaporator line extension
onto the expansion valve. (Refer to 24 - HEATING &
AIR CONDITIONING/PLUMBING - REAR/EVAPO-
RATOR - INSTALLATION - EVAPORATOR LINE
EXTENSION).
(6) Install the foam insulator wrap over the rear
expansion valve.
(7) Reinstall the rear heater-A/C unit housing into
the vehicle. (Refer to 24 - HEATING & AIR CONDI-
TIONING/DISTRIBUTION - REAR/REAR HEATER-
A/C HOUSING - INSTALLATION).
(8) Run the HVAC Cooldown Test to verify proper
operation.
HEATER CORE
DESCRIPTION
The rear heater core is located near the front of
the rear heater-A/C unit housing, behind the right
rear wheel house. It is a heat exchanger made of
rows of tubes and fins. One end of the core is fitted
with a molded plastic tank that includes integral
heater core inlet and outlet nipples. The heater core
can be serviced without removing the rear heater-A/C
unit housing from the vehicle. The heater core cannot
be repaired and, if faulty or damaged, it must be
replaced.
OPERATION
Engine coolant is circulated through heater hoses
to the heater core at all times. As the coolant flows
through the heater core, heat removed from the
engine is transferred to the heater core fins and
tubes. Air directed through the heater core picks up
the heat from the heater core fins. The blend air door
allows control of the heater output air temperature
by controlling how much of the air flowing through
the rear heater-A/C unit housing is directed through
the heater core.
STANDARD PROCEDURE - HEATER CORE
FILLING
In its final installed position, the rear heater core
is positioned higher than the radiator fill cap. There-fore, when the cooling system is drained and refilled,
gravity will not refill the heater core with coolant to
the proper level. This may result in two problems:1.
Insufficient coolant level in the engine cooling sys-
tem, which may result in engine overheating.2.Air
entrapped within the rear heater core, which may
result in insufficient rear heater performance. There
are two methods that may be employed to prevent
these problems:1.Pre-filling of the rear heater core.
2.Thermal cycling of the engine cooling system. Fol-
lowing are descriptions of both prevention methods,
as well as a method to verify rear heater perfor-
mance.
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 - HEATER PLUMB-
ING).
PRE-FILLING
If the rear heater core or the rear heater-A/C hous-
ing have been removed from the vehicle for service,
the rear heater core may be pre-filled with the proper
engine coolant mixture prior to reconnecting the
heater hoses to the heater core hose fittings.
(1) The heater core should be installed in the rear
heater-A/C unit housing, and the rear heater-A/C
unit housing should be installed in the vehicle.
(2) Take the proper precautions to protect the car-
peting below the rear heater core from spilled engine
coolant and have absorbent toweling readily avail-
able to mop up any spills.
(3) Insert the small end of an appropriate funnel
into the upper hose fitting of the heater core (Fig. 4).
Fig. 4 Pre-Filling Heater Core - Typical
1 - REAR HEATER CORE
24 - 98 PLUMBING - REARRS
EXPANSION VALVE (Continued)
ProCarManuals.com

(4) Carefully pour the proper pre-mixed engine
coolant solution into the rear heater core through a
funnel until coolant begins to appear at the lower
hose fitting of the heater core.
(5) Use absorbent toweling to clean up any engine
coolant spills from the preceding operation.
(6) Reconnect the heater hoses to the rear heater
core. (Refer to 24 - HEATING & AIR CONDITION-
ING/PLUMBING - REAR/HEATER HOSE - INSTAL-
LATION).
(7) Refill the engine cooling system. (Refer to 7 -
COOLING - STANDARD PROCEDURE - COOLING
SYSTEM REFILL).
THERMAL CYCLING
If the rear heater core was emptied and was not
pre-filled, it will be necessary to thermal cycle the
vehicle at least two times to ensure that the rear
heater core is properly filled.
(1) Refill the engine cooling system. (Refer to 7 -
COOLING - STANDARD PROCEDURE - COOLING
SYSTEM REFILL).
(2) Start the engine and allow it to operate until
the thermostat opens.
(3) Turn the engine off and allow it to cool.
(4) With the engine cold and not running, check
and top off the engine coolant level as necessary.
(Refer to 7 - COOLING - STANDARD PROCEDURE
- COOLANT LEVEL CHECK) and (Refer to 7 -
COOLING - STANDARD PROCEDURE - COOLANT
- ADDING).
(5) Start the engine and allow it to operate until
the thermostat opens again.
(6) Turn the engine off and allow it to cool down
again.
(7) With the engine cold and not running, check
and top off the engine coolant level as necessary.
(Refer to 7 - COOLING - STANDARD PROCEDURE
- COOLANT LEVEL CHECK) and (Refer to 7 -
COOLING - STANDARD PROCEDURE - COOLANT
- ADDING).
(8) Check the performance of the rear heater.
Refer to REAR HEATER PERFORMANCE CHECK .
REAR HEATER PERFORMANCE CHECK
Successful completion of the rear heater perfor-
mance check will confirm that the rear heater core is
properly filled with engine coolant. If the check is not
successful, either there is still air trapped in the rear
heater core or the rear heater plumbing is restricted.
This check should be performed with the vehicle in a
shop where the ambient temperature is about 21É C
(70É F).
(1) Start the engine and allow it to idle until it
warms up to normal operating temperature.(2) Adjust the heater-A/C controls so that the front
heater is turned Off, the rear heater is set for full
Heat, and the rear blower motor is at its highest
speed setting.
(3) Use an accurate test thermometer to measure
the temperature of the air being discharged from the
rear heater outlet located at the base of the right
C-pillar.
(4) Proper discharge air temperature readings
should be from 57É to 63É C (135É to 145É F).
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 - HEATER PLUMB-
ING).
(1) Drain the engine cooling system. (Refer to 7 -
COOLING - STANDARD PROCEDURE - COOLING
SYSTEM DRAIN).
(2) 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 - REMOVAL).
(3) Remove the rear heater distribution duct from
the right quarter inner panel. (Refer to 24 - HEAT-
ING & AIR CONDITIONING/DISTRIBUTION -
REAR/REAR HEATER DISTRIBUTION DUCT -
REMOVAL).
(4) Remove the screw that secures the back of the
rear heater-A/C unit housing to the right D-pillar.
(5) Remove the screw that secures the front of the
rear heater-A/C unit housing to the right quarter
inner panel.
(6) Take the proper precautions to protect the car-
peting below the rear heater core from spilled engine
coolant and have absorbent toweling readily avail-
able to mop up any spills.
(7) Disconnect the heater hoses at the rear heater
core. (Refer to 24 - HEATING & AIR CONDITION-
ING/PLUMBING - REAR/HEATER HOSE - REMOV-
AL).
(8) Install plugs in, or tape over the opened heater
core fittings and both heater hoses (Fig. 5).
(9) Use absorbent toweling to clean up any engine
coolant spills from the preceding operation.
(10) Release the four latch tabs that secure the
heater core in the rear heater-A/C unit housing.
(11) Carefully pull the heater core straight out of
the rear heater-A/C unit housing.
(12) Use absorbent toweling to clean up any
engine coolant spills from the preceding operation.
RSPLUMBING - REAR24-99
HEATER CORE (Continued)
ProCarManuals.com

The following is a list of the monitored compo-
nents:
²Comprehensive Components
²Oxygen Sensor Monitor
²Oxygen Sensor Heater Monitor
²Catalyst Monitor
COMPREHENSIVE COMPONENTS
Along with the major monitors, OBD II requires
that the diagnostic system monitor any component
that could affect emissions levels. In many cases,
these components were being tested under OBD I.
The OBD I requirements focused mainly on testing
emissions-related components for electrical opens and
shorts.
However, OBD II also requires that inputs from
powertrain components to the PCM be tested for
rationality, and that outputs to powertrain compo-
nents from the PCM be tested forfunctionality.
Methods for monitoring the various Comprehensive
Component monitoring include:
(1) Circuit Continuity
²Open
²Shorted high
²Shorted to ground
(2) Rationality or Proper Functioning
²Inputs tested for rationality
²Outputs tested for functionality
NOTE: Comprehensive component monitors are
continuous. Therefore, enabling conditions do not
apply.
Input RationalityÐWhile input signals to the
PCM are constantly being monitored for electrical
opens and shorts, they are also tested for rationality.
This means that the input signal is compared against
other inputs and information to see if it makes sense
under the current conditions.
PCM sensor inputs that are checked for rationality
include:
²Manifold Absolute Pressure (MAP) Sensor
²Oxygen Sensor (O2S)
²Engine Coolant Temperature (ECT) Sensor
²Camshaft Position (CMP) Sensor
²Vehicle Speed Sensor
²Crankshaft Position (CKP) Sensor
²Intake/inlet Air Temperature (IAT) Sensor
²Throttle Position (TPS) Sensor
²Ambient Temperature Sensors
²Power Steering Switch
²Oxygen Sensor Heater
²Brake Switch
²Leak Detection Pump Switch or NVLD switch (if
equipped)
²P/N SwitchOutput FunctionalityÐPCM outputs are tested
for functionality in addition to testing for opens and
shorts. When the PCM provides a voltage to an out-
put component, it can verify that the command was
carried out by monitoring specific input signals for
expected changes. For example, when the PCM com-
mands the Idle Air Control (IAC) Motor to a specific
position under certain operating conditions, it expects
to see a specific (target) idle speed (RPM). If it does
not, it stores a DTC.
PCM outputs monitored for functionality include:
²Fuel Injectors
²Ignition Coils
²Idle Air Control
²Purge Solenoid
²EGR Solenoid (if equipped)
²LDP Solenoid or NVLD solenoid (if equipped)
²Radiator Fan Control
²Trans Controls
OXYGEN SENSOR (O2S) MONITOR
DESCRIPTIONÐEffective control of exhaust
emissions is achieved by an oxygen feedback system.
The most important element of the feedback system
is the O2S. The O2S is located in the exhaust path.
Once it reaches operating temperature 300É to 350ÉC
(572É to 662ÉF), the sensor generates a voltage that
is inversely proportional to the amount of oxygen in
the exhaust. When there is a large amount of oxygen
in the exhaust caused by a lean condition, the sensor
produces a low voltage, below 450 mV. When the oxy-
gen content is lower, caused by a rich condition, the
sensor produces a higher voltage, above 450mV (volt-
ages are offset by 2.5 volts on NGC vehicles).
The information obtained by the sensor is used to
calculate the fuel injector pulse width. The PCM is
programmed to maintain the optimum air/fuel ratio.
At this mixture ratio, the catalyst works best to
remove hydrocarbons (HC), carbon monoxide (CO)
and nitrous oxide (NOx) from the exhaust.
The O2S is also the main sensing element for the
EGR (if equipped), Catalyst and Fuel Monitors.
The O2S may fail in any or all of the following
manners:
²Slow response rate (Big Slope)
²Reduced output voltage (Half Cycle)
²Heater Performance
Slow Response Rate (Big Slope)ÐResponse rate
is the time required for the sensor to switch from
lean to rich signal output once it is exposed to a
richer than optimum A/F mixture or vice versa. As
the PCM adjusts the air/fuel ratio, the sensor must
be able to rapidly detect the change. As the sensor
ages, it could take longer to detect the changes in the
oxygen content of the exhaust gas. The rate of
change that an oxygen sensor experiences is called
25 - 2 EMISSIONS CONTROLRS
EMISSIONS CONTROL (Continued)
ProCarManuals.com

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)
ProCarManuals.com

period the switch ratio reaches a predetermined
value, a counter is incremented by one. The monitor
is enabled to run another test during that trip. When
the test fails 6 times, the counter increments to 3, a
malfunction is entered, and a Freeze Frame is stored,
the code is matured and the MIL is illuminated. If
the first test passes, no further testing is conducted
during that trip.
The MIL is extinguished after three consecutive
good trips. The good trip criteria for the catalyst
monitor is more stringent than the failure criteria. In
order to pass the test and increment one good trip,
the downstream sensor switch rate must be less than
45% of the upstream rate. The failure percentages
are 59% respectively.
Enabling ConditionsÐThe following conditions
must typically be met before the PCM runs the cat-
alyst monitor. Specific times for each parameter may
be different from engine to engine.
²Accumulated drive time
²Enable time
²Ambient air temperature
²Barometric pressure
²Catalyst warm-up counter
²Engine coolant temperature
²Vehicle speed
²MAP
²RPM
²Engine in closed loop
²Fuel level
Pending ConditionsÐ
²Misfire DTC
²Front Oxygen Sensor Response
²Front Oxygen Sensor Heater Monitor
²Front Oxygen Sensor Electrical
²Rear Oxygen Sensor Rationality (middle check)
²Rear Oxygen Sensor Heater Monitor
²Rear Oxygen Sensor Electrical
²Fuel System Monitor
²All TPS faults
²All MAP faults
²All ECT sensor faults
²Purge flow solenoid functionality
²Purge flow solenoid electrical
²All PCM self test faults
²All CMP and CKP sensor faults
²All injector and ignition electrical faults
²Idle Air Control (IAC) motor functionality
²Vehicle Speed Sensor
²Brake switch (auto trans only)
²Intake air temperature
ConflictÐThe catalyst monitor does not run if any
of the following are conditions are present:
²EGR Monitor in progress (if equipped)
²Fuel system rich intrusive test in progress
²EVAP Monitor in progress²Time since start is less than 60 seconds
²Low fuel level-less than 15 %
²Low ambient air temperature
²Ethanol content learn is taking place and the
ethanol used once flag is set
SuspendÐThe Task Manager does not mature a
catalyst fault if any of the following are present:
²Oxygen Sensor Monitor, Priority 1
²Oxygen Sensor Heater, Priority 1
²EGR Monitor, Priority 1 (if equipped)
²EVAP Monitor, Priority 1
²Fuel System Monitor, Priority 2
²Misfire Monitor, Priority 2
OPERATION - NON-MONITORED CIRCUITS
The PCM does not monitor all circuits, systems
and conditions that could have malfunctions causing
driveability problems. However, problems with these
systems may cause the PCM to store diagnostic trou-
ble codes for other systems or components. For exam-
ple, a fuel pressure problem will not register a fault
directly, but could cause a rich/lean condition or mis-
fire. This could cause the PCM to store an oxygen
sensor or misfire diagnostic trouble code.
The major non-monitored circuits are listed below
along with examples of failures modes that do not
directly cause the PCM to set a DTC, but for a sys-
tem that is monitored.
FUEL PRESSURE
The fuel pressure regulator controls fuel system
pressure. The PCM cannot detect a clogged fuel
pump inlet filter, clogged in-line fuel filter, or a
pinched fuel supply or return line. However, these
could result in a rich or lean condition causing the
PCM to store an oxygen sensor, fuel system, or mis-
fire diagnostic trouble code.
SECONDARY IGNITION CIRCUIT
The PCM cannot detect an inoperative ignition coil,
fouled or worn spark plugs, ignition cross firing, or
open spark plug cables. The misfire will however,
increase the oxygen content in the exhaust, deceiving
the PCM in to thinking the fuel system is too lean.
Also see misfire detection.
CYLINDER COMPRESSION
The PCM cannot detect uneven, low, or high engine
cylinder compression. Low compression lowers O2
content in the exhaust. Leading to fuel system, oxy-
gen sensor, or misfire detection fault.
EXHAUST SYSTEM
The PCM cannot detect a plugged, restricted or
leaking exhaust system. It may set a EGR (if
equipped) or Fuel system or O2S fault.
RSEMISSIONS CONTROL25-5
EMISSIONS CONTROL (Continued)
ProCarManuals.com

CENTER - DESCRIPTION, ELECTRONIC
VEHICLE INFO.......................8M-6
CENTER - DIAGNOSIS AND TESTING,
ELECTRONIC VEHICLE INFORMATION.....8M-7
CENTER - INSTALLATION, ELECTRONIC
VEHICLE INFO.......................8M-9
CENTER - OPERATION, ELECTRONIC
VEHICLE INFO.......................8M-7
CENTER - REMOVAL, ELECTRONIC
VEHICLE INFO.......................8M-9
CENTER BEZEL - INSTALLATION,
INSTRUMENT PANEL..................23-67
CENTER BEZEL - REMOVAL,
INSTRUMENT PANEL..................23-67
CENTER BEZEL OUTLETS -
INSTALLATION.......................24-42
CENTER BEZEL OUTLETS - REMOVAL....24-40
CENTER CONSOLE LAMP SWITCH -
INSTALLATION.......................8L-26
CENTER CONSOLE LAMP SWITCH -
REMOVAL..........................8L-26
CENTER HIGH MOUNTED STOP LAMP -
INSTALLATION........................8L-6
CENTER HIGH MOUNTED STOP LAMP -
REMOVAL...........................8L-6
CENTER HIGH MOUNTED STOP LAMP
UNIT - INSTALLATION..................8L-7
CENTER HIGH MOUNTED STOP LAMP
UNIT - REMOVAL.....................8L-6
CENTER HINGE - INSTALLATION.........23-24
CENTER HINGE - REMOVAL............23-24
CENTER PROGRAMMING - STANDARD
PROCEDURE, ELECTRONIC VEHICLE
INFORMATION.......................8M-7
CENTER STRIKER - INSTALLATION.......23-27
CENTER STRIKER - REMOVAL..........23-27
CENTERING - STANDARD PROCEDURE,
CLOCK SPRING.......................8O-4
CERTIFICATION LABEL - DESCRIPTION,
VEHICLE SAFETY..................Intro.-11
CHAIN AND CAMSHAFT SPROCKET -
INSTALLATION, TIMING................9-157
CHAIN AND CAMSHAFT SPROCKET -
REMOVAL, TIMING...................9-156
CHAIN COVER - INSTALLATION, TIMING . . 9-155
CHAIN COVER - REMOVAL, TIMING......9-153
CHAIN WEAR - STANDARD PROCEDURE,
MEASURING TIMING..................9-153
CHANGE - STANDARD PROCEDURE,
DIFFERENTIAL ASSEMBLY FLUID.........3-40
CHANGE - STANDARD PROCEDURE,
ENGINE OIL AND FILTER...........9-137,9-53
CHANGE - STANDARD PROCEDURE,
OVERRUNNING CLUTCH HOUSING
FLUID..............................3-41
CHANGE - STANDARD PROCEDURE, PTU
FLUID..............................21-5
CHANGER - DESCRIPTION, CD...........8A-7
CHANGER - INSTALLATION, CD..........8A-8
CHANGER - OPERATION, CD.............8A-7
CHANGER - REMOVAL, CD..............8A-8
CHANNEL - INSTALLATION, WATER.....23-118
CHANNEL - REMOVAL, WATER.........23-118
CHARGE - STANDARD PROCEDURE,
REFRIGERANT SYSTEM
...............24-88
CHARGE LEVEL - DIAGNOSIS AND
TESTING, REFRIGERANT SYSTEM
.......24-85
CHARGING - STANDARD PROCEDURE,
CONVENTIONAL BATTERY
..............8F-11
CHARGING - STANDARD PROCEDURE,
SPIRAL PLATE BATTERY
...............8F-10
CHARGING SYSTEM - DESCRIPTION
.....8F-20
CHARGING SYSTEM - OPERATION
.......8F-20
CHARTS - DIAGNOSIS AND TESTING,
STEERING SYSTEM DIAGNOSIS
..........19-3
CHARTS - SPECIFICATIONS, COLOR
CODE
..............................23-83
CHATTER COMPLAINTS - DIAGNOSIS
AND TESTING, CLUTCH
.................6-6
CHECK - DIAGNOSIS AND TESTING,
COOLING SYSTEM FLOW
................7-3
CHECK - DIAGNOSIS AND TESTING,
EXHAUST SYSTEM RESTRICTION
.........11-2
CHECK - STANDARD PROCEDURE,
COOLANT LEVEL
.......................7-5
CHECK - STANDARD PROCEDURE,
ENGINE OIL LEVEL
...................9-137CHECK - STANDARD PROCEDURE, FLUID
LEVEL.............................21-71
CHECK, STANDARD PROCEDURE -
ENGINE OIL LEVEL....................9-53
CHECK, STANDARD PROCEDURE - FLUID
LEVEL AND CONDITION..............21-201
CHECK STRAP - INSTALLATION.........23-15
CHECK STRAP - REMOVAL.............23-15
CHECKING - STANDARD PROCEDURE,
BRAKE FLUID LEVEL...................5-32
CHECKING - STANDARD PROCEDURE,
POWER STEERING FLUID LEVEL........19-44
CHECKING BATTERY ELECTROLYTE
LEVEL - STANDARD PROCEDURE........8F-14
CHECKING ENGINE OIL PRESSURE -
DIAGNOSIS AND TESTING..............9-52
CHECKING POWER STEERING BELT
TENSION - STANDARD PROCEDURE.......7-8
CHILD SEAT - INSTALLATION, QUAD.....23-88
CHILD SEAT - REMOVAL, QUAD.........23-88
CHILD SEAT MODULE, BENCH SEAT -
REMOVAL..........................23-86
CHIME SYSTEM - DIAGNOSIS AND
TESTING............................8B-1
CHIME/BUZZER - DESCRIPTION..........8B-1
CHIME/BUZZER - OPERATION............8B-1
CHIME/BUZZER - WARNING.............8B-1
CHIME/THERMISTOR - DESCRIPTION....8N-10
CHIME/THERMISTOR - INSTALLATION....8N-10
CHIME/THERMISTOR - OPERATION......8N-10
CHIME/THERMISTOR - REMOVAL.......8N-10
CHIRP PREFERENCE - STANDARD
PROCEDURE, HORN..................8N-42
CIRCUIT - DIAGNOSIS AND TESTING,
AMBIENT TEMPERATURE SENSOR......8M-12
CIRCUIT FUNCTIONS - DESCRIPTION . . 8W-01-6
CIRCUIT INFORMATION - DESCRIPTION . 8W-01-5
CIRCUIT RESISTANCE TEST -
DIAGNOSIS AND TESTING, FEED........8F-32
CIRCUIT TEST - DIAGNOSIS AND
TESTING, CONTROL..................8F-30
CIRCUIT TEST - DIAGNOSIS AND
TESTING, FEED......................8F-33
CIRCUITS - OPERATION, NON-
MONITORED.........................25-5
CIRCUITS AND VALVES - OPERATION,
HYDRAULIC..........................5-83
CLAMP - STANDARD PROCEDURE,
HOSES..............................14-6
CLAMPS - DESCRIPTION, FUEL
LINES/HOSES........................14-6
CLAMPS - DESCRIPTION, HOSE...........7-1
CLAMPS - OPERATION, HOSE.............7-2
CLEAN, CLEANING...................21-114
CLEARANCE - STANDARD PROCEDURE,
MEASURING CONNECTING ROD
BEARING...........................9-120
CLEARANCE USING PLASTIGAGE -
STANDARD PROCEDURE, MEASURING
BEARING........................9-12,9-84
CLOCK SPRING - DESCRIPTION..........8O-4
CLOCK SPRING - INSTALLATION.........8O-5
CLOCK SPRING - OPERATION...........8O-4
CLOCK SPRING - REMOVAL.............8O-4
CLOCK SPRING CENTERING -
STANDARD PROCEDURE...............8O-4
CLUSTER - DESCRIPTION, INSTRUMENT . . . 8J-1
CLUSTER - OPERATION, INSTRUMENT.....8J-1
CLUSTER BEZEL - INSTALLATION
........23-62
CLUSTER BEZEL - REMOVAL
...........23-62
CLUSTER DIAGNOSIS - DIAGNOSIS AND
TESTING
............................8J-2
CLUSTER ILLUMINATION LAMPS -
INSTALLATION
.......................8L-26
CLUSTER ILLUMINATION LAMPS -
REMOVAL
..........................8L-26
CLUSTER LENS - INSTALLATION
........8J-10
CLUSTER LENS - REMOVAL
............8J-10
CLUTCH - DESCRIPTION
.................6-1
CLUTCH - DESCRIPTION, BI-
DIRECTIONAL OVERRUNNING
...........3-34
CLUTCH - DESCRIPTION, COMPRESSOR
. . 24-16
CLUTCH - OPERATION, BI-DIRECTIONAL
OVERRUNNING
.......................3-36
CLUTCH - OPERATION, COMPRESSOR
....24-17
CLUTCH AIR GAP - STANDARD
PROCEDURE, COMPRESSOR
...........24-17CLUTCH AIR PRESSURE TESTS -
DIAGNOSIS AND TESTING............21-122
CLUTCH ASSEMBLY - ASSEMBLY, INPUT . 21-216
CLUTCH ASSEMBLY - DISASSEMBLY,
INPUT............................21-208
CLUTCH ASSY - 2.4L GAS -
INSTALLATION, MODULAR..............6-11
CLUTCH ASSY - 2.4L GAS - REMOVAL,
MODULAR...........................6-11
CLUTCH BREAK-IN - STANDARD
PROCEDURE, COMPRESSOR...........24-17
CLUTCH CHATTER COMPLAINTS -
DIAGNOSIS AND TESTING...............6-6
CLUTCH COIL - DIAGNOSIS AND
TESTING, COMPRESSOR...............24-20
CLUTCH COVER AND DISC RUNOUT -
DIAGNOSIS AND TESTING...............6-6
CLUTCH DISC AND PRESSURE PLATE -
2.5L TD - INSTALLATION...............6-12
CLUTCH DISC AND PRESSURE PLATE -
2.5L TD - REMOVAL...................6-11
CLUTCH HOUSING FLUID CHANGE -
STANDARD PROCEDURE,
OVERRUNNING.......................3-41
CLUTCH PEDAL INTERLOCK SWITCH -
INSTALLATION........................6-14
CLUTCH PEDAL INTERLOCK SWITCH -
REMOVAL...........................6-13
CLUTCH PEDAL UPSTOP SWITCH -
INSTALLATION........................6-16
CLUTCH PEDAL UPSTOP SWITCH -
REMOVAL...........................6-15
CLUTCH RELAY - DESCRIPTION,
COMPRESSOR........................24-21
CLUTCH RELAY - DIAGNOSIS AND
TESTING, COMPRESSOR...............24-22
CLUTCH RELAY - INSTALLATION,
COMPRESSOR.......................24-22
CLUTCH RELAY - OPERATION,
COMPRESSOR.......................24-21
CLUTCH RELAY - REMOVAL,
COMPRESSOR.......................24-22
CLUTCH RELEASE LEVER AND BEARING
- INSTALLATION.......................6-7
CLUTCH RELEASE LEVER AND BEARING
- REMOVAL...........................6-6
CLUTCH SYSTEM - DIAGNOSIS AND
TESTING.............................6-3
CLUTCH/COIL - INSPECTION,
COMPRESSOR.......................24-18
CLUTCHES - DESCRIPTION, DRIVING....21-190
CLUTCHES - DESCRIPTION, HOLDING . . . 21-207
CLUTCHES - OPERATION, DRIVING.....21-190
CLUTCHES - OPERATION, HOLDING.....21-207
COAT/CLEARCOAT FINISH -
DESCRIPTION, BASE..................23-84
CODE - DESCRIPTION, PAINT...........23-84
CODE CHARTS - SPECIFICATIONS,
COLOR.............................23-83
CODE PLATE - DESCRIPTION, BODY....Intro.-1
CODES - STANDARD PROCEDURE,
ERASING TRANSMITTER..............8M-11
CODES - STANDARD PROCEDURE,
OBTAINING DIAGNOSTIC TROUBLE......8E-15
CODES - STANDARD PROCEDURE,
SETTING TRANSMITTER..............8M-11
COIL - DESCRIPTION, IGNITION
..........8I-6
COIL - DIAGNOSIS AND TESTING,
COMPRESSOR CLUTCH
...............24-20
COIL - OPERATION, IGNITION
............8I-6
COLLAR - INSTALLATION, STRUCTURAL
. . . 9-48
COLLAR - REMOVAL, STRUCTURAL
.......9-47
COLOR CODE CHARTS -
SPECIFICATIONS
.....................23-83
COLUMN - DESCRIPTION, STEERING
.....19-10
COLUMN - DIAGNOSIS AND TESTING,
STEERING
..........................19-12
COLUMN COVER - INSTALLATION,
LOWER STEERING
...................23-69
COLUMN COVER - INSTALLATION, OVER
STEERING
..........................23-69
COLUMN COVER - REMOVAL, LOWER
STEERING
..........................23-69
COLUMN COVER - REMOVAL, OVER
STEERING
..........................23-69
COLUMN COVER BACKING PLATE -
INSTALLATION, STEERING
.............23-69
6 INDEXRS
Description Group-Page Description Group-Page Description Group-Page
ProCarManuals.com

COLUMN COVER BACKING PLATE -
REMOVAL, STEERING.................23-69
COLUMN TORQUE, SPECIFICATIONS.....19-14
COMBUSTION PRESSURE LEAKAGE
TEST - DIAGNOSIS AND TESTING,
CYLINDER........................9-83,9-9
COMMON PROBLEM CAUSES -
DIAGNOSIS AND TESTING.............21-30
COMMUNICATION RECEIVE - PCM INPUT
- OPERATION, DATA BUS..............8E-15
COMMUNICATIONS INTERFACE (PCI)
BUS, OPERATION - PROGRAMMABLE....14-21
COMPASS CALIBRATION - STANDARD
PROCEDURE.........................8M-3
COMPASS DEMAGNETIZING -
STANDARD PROCEDURE...............8M-4
COMPASS MINI-TRIP COMPUTER -
DIAGNOSIS AND TESTING.............8M-10
COMPASS VARIATION ADJUSTMENT -
STANDARD PROCEDURE...............8M-5
COMPASS/MINI-TRIP COMPUTER -
DESCRIPTION........................8M-9
COMPASS/MINI-TRIP COMPUTER -
INSTALLATION......................8M-10
COMPASS/MINI-TRIP COMPUTER -
OPERATION.........................8M-9
COMPASS/MINI-TRIP COMPUTER -
REMOVAL..........................8M-10
COMPLAINTS - DIAGNOSIS AND
TESTING, CLUTCH CHATTER..............6-6
COMPRESSION PRESSURE TEST -
DIAGNOSIS AND TESTING, CYLINDER . . 9-83,9-9
COMPRESSOR - 2.4/3.3/3.8L ENGINES -
REMOVAL............................24-64
COMPRESSOR - DESCRIPTION, A/C......24-63
COMPRESSOR - INSTALLATION.........24-65
COMPRESSOR - OPERATION, A/C........24-63
COMPRESSOR CLUTCH - DESCRIPTION . . 24-16
COMPRESSOR CLUTCH - OPERATION....24-17
COMPRESSOR CLUTCH AIR GAP -
STANDARD PROCEDURE...............24-17
COMPRESSOR CLUTCH BREAK-IN -
STANDARD PROCEDURE...............24-17
COMPRESSOR CLUTCH COIL -
DIAGNOSIS AND TESTING.............24-20
COMPRESSOR CLUTCH RELAY -
DESCRIPTION.......................24-21
COMPRESSOR CLUTCH RELAY -
DIAGNOSIS AND TESTING.............24-22
COMPRESSOR CLUTCH RELAY -
INSTALLATION.......................24-22
COMPRESSOR CLUTCH RELAY -
OPERATION.........................24-21
COMPRESSOR CLUTCH RELAY -
REMOVAL..........................24-22
COMPRESSOR CLUTCH/COIL -
INSPECTION........................24-18
COMPRESSOR MOUNTING BRACKET -
2.4L ENGINE - INSTALLATION...........24-66
COMPRESSOR MOUNTING BRACKET -
2.4L ENGINE - REMOVAL..............24-65
COMPRESSOR NOISE DIAGNOSIS -
DIAGNOSIS AND TESTING.............24-63
COMPUTER - DESCRIPTION, COMPASS/
MINI-TRIP..........................8M-9
COMPUTER - DIAGNOSIS AND TESTING,
COMPASS MINI-TRIP
.................8M-10
COMPUTER - INSTALLATION, COMPASS/
MINI-TRIP
.........................8M-10
COMPUTER - OPERATION, COMPASS/
MINI-TRIP
..........................8M-9
COMPUTER - REMOVAL, COMPASS/
MINI-TRIP
.........................8M-10
CONCENTRATION TESTING - DIAGNOSIS
AND TESTING, COOLANT
...............7-19
CONDENSER - DESCRIPTION
...........24-66
CONDENSER - INSTALLATION
...........24-67
CONDENSER - OPERATION
.............24-66
CONDENSER - REMOVAL
..............24-66
CONDITION CHECK, STANDARD
PROCEDURE - FLUID LEVEL
...........21-201
CONDITIONING LINES - INSTALLATION,
REAR AIR
.........................24-105
CONDITIONING LINES - REMOVAL, REAR
AIR
..............................24-104
CONNECTING ROD - DESCRIPTION,
PISTON
........................9-116,9-42CONNECTING ROD - INSTALLATION,
PISTON.............................9-44
CONNECTING ROD - REMOVAL, PISTON . . . 9-43
CONNECTING ROD BEARING
CLEARANCE - STANDARD
PROCEDURE, MEASURING.............9-120
CONNECTING ROD, FITTING.............9-45
CONNECTING RODS - STANDARD
PROCEDURE, FITTING.................9-116
CONNECTOR - DESCRIPTION, DATA LINK . . 8E-6
CONNECTOR - INSTALLATION.......8W-01-11
CONNECTOR - OPERATION, DATA LINK....8E-7
CONNECTOR - REMOVAL...........8W-01-11
CONNECTOR, GROUND AND SPLICE
INFORMATION - DESCRIPTION........8W-01-7
CONNECTOR/GROUND/SPLICE LOCATION
- DESCRIPTION....................8W-91-1
CONSOLE - DESCRIPTION, OVERHEAD....8M-1
CONSOLE - DIAGNOSIS AND TESTING,
OVERHEAD..........................8M-2
CONSOLE - INSTALLATION, LOWER......23-68
CONSOLE - OPERATION, OVERHEAD......8M-2
CONSOLE - REMOVAL, LOWER..........23-68
CONSOLE - REMOVAL, OVERHEAD.......8M-6
CONSOLE LAMP SWITCH -
INSTALLATION, CENTER...............8L-26
CONSOLE LAMP SWITCH - REMOVAL,
CENTER............................8L-26
CONSOLE, SPECIAL TOOLS - OVERHEAD . . 8M-6
CONSOLE TRAY - BRACKET ASSEMBLY -
INSTALLATION, FLOOR................23-82
CONSOLE TRAY - BRACKET ASSEMBLY -
REMOVAL, FLOOR....................23-82
CONSOLE TRAY - INSTALLATION, FLOOR . . 23-81
CONSOLE TRAY - REMOVAL, FLOOR.....23-81
CONTAINER - DESCRIPTION, COOLANT
RECOVERY..........................7-19
CONTAINER - INSTALLATION, COOLANT
RECOVERY..........................7-20
CONTAINER - OPERATION, COOLANT
RECOVERY..........................7-19
CONTAINER - REMOVAL, COOLANT
RECOVERY..........................7-20
CONTAMINATION - DIAGNOSIS AND
TESTING, BRAKE FLUID................5-32
CONTINUITY - STANDARD PROCEDURE,
TESTING.........................8W-01-9
CONTROL (4 SPEED EATX ONLY) -
OPERATION, INTERACTIVE SPEED........8P-2
CONTROL ARM - DESCRIPTION, LOWER . . . 2-12
CONTROL ARM - INSPECTION, LOWER....2-14
CONTROL ARM - INSTALLATION, LOWER . . 2-15
CONTROL ARM - OPERATION, LOWER.....2-12
CONTROL ARM - REMOVAL, LOWER......2-12
CONTROL ARM (REAR BUSHING -
HYDRO) - ASSEMBLY, LOWER...........2-14
CONTROL ARM (REAR BUSHING -
HYDRO) - DISASSEMBLY, LOWER........2-14
CONTROL ARM (REAR BUSHING -
STANDARD) - ASSEMBLY, LOWER........2-14
CONTROL ARM (REAR BUSHING -
STANDARD) - DISASSEMBLY, LOWER.....2-13
CONTROL CABLE - INSTALLATION,
THROTTLE..........................14-35
CONTROL CABLE - REMOVAL,
THROTTLE..........................14-35
CONTROL CALIBRATION - STANDARD
PROCEDURE, HEATER-A/C..............24-8
CONTROL CIRCUIT TEST - DIAGNOSIS
AND TESTING.......................8F-30
CONTROL INFORMATION LABEL -
DESCRIPTION, VEHICLE EMISSION.......25-1
CONTROL MODULE - DESCRIPTION,
BODY...............................8E-3
CONTROL MODULE - DESCRIPTION,
FRONT..............................8E-7
CONTROL MODULE - DESCRIPTION,
POWER LIFTGATE....................8E-10
CONTROL MODULE - DESCRIPTION,
SIDE IMPACT AIRBAG
.................8O-17
CONTROL MODULE - DESCRIPTION,
SLIDING DOOR
......................8E-19
CONTROL MODULE - DESCRIPTION,
TRANSMISSION
......................8E-20
CONTROL MODULE - DIAGNOSIS AND
TESTING, FRONT
......................8E-7
CONTROL MODULE - INSTALLATION,
BODY
...............................8E-5CONTROL MODULE - INSTALLATION,
FRONT..............................8E-8
CONTROL MODULE - INSTALLATION,
POWER LIFTGATE....................8E-11
CONTROL MODULE - INSTALLATION,
SIDE IMPACT AIRBAG.................8O-17
CONTROL MODULE - INSTALLATION,
SLIDING DOOR......................8E-20
CONTROL MODULE - OPERATION, BODY . . . 8E-3
CONTROL MODULE - OPERATION,
FRONT..............................8E-7
CONTROL MODULE - OPERATION,
POWER LIFTGATE....................8E-11
CONTROL MODULE - OPERATION, SIDE
IMPACT AIRBAG.....................8O-17
CONTROL MODULE - OPERATION,
SLIDING DOOR......................8E-19
CONTROL MODULE - OPERATION,
TRANSMISSION......................8E-20
CONTROL MODULE - REMOVAL, BODY....8E-4
CONTROL MODULE - REMOVAL, FRONT . . . 8E-8
CONTROL MODULE - REMOVAL, POWER
LIFTGATE...........................8E-11
CONTROL MODULE - REMOVAL, SIDE
IMPACT AIRBAG.....................8O-17
CONTROL MODULE - REMOVAL,
SLIDING DOOR......................8E-19
CONTROL MOTOR - DESCRIPTION, IDLE
AIR ...............................14-28
CONTROL MOTOR - INSTALLATION, IDLE
AIR ...............................14-29
CONTROL MOTOR - OPERATION, IDLE
AIR.................................14-28
CONTROL MOTOR - REMOVAL, IDLE AIR . . 14-29
CONTROL RELAY - DESCRIPTION,
TRANSMISSION.....................21-247
CONTROL RELAY - OPERATION,
TRANSMISSION.....................21-248
CONTROL SWITCH - DIAGNOSIS AND
TESTING, TRACTION...................5-82
CONTROL SYSTEM - DESCRIPTION,
TRACTION...........................5-76
CONTROL SYSTEM - OPERATION,
EVAPORATION.......................25-10
CONTROL SYSTEM - OPERATION,
TRACTION...........................5-77
CONTROLLER - DESCRIPTION,
OCCUPANT RESTRAINT................8O-7
CONTROLLER - INSTALLATION,
OCCUPANT RESTRAINT................8O-7
CONTROLLER - INSTALLATION, SBEC....8E-17
CONTROLLER - OPERATION, 8-VOLT
SUPPLY - PCM OUTPUT - SBEC.........8E-15
CONTROLLER - OPERATION, OCCUPANT
RESTRAINT..........................8O-7
CONTROLLER - REMOVAL, NGC.........8E-17
CONTROLLER - REMOVAL, OCCUPANT
RESTRAINT..........................8O-7
CONTROLLER - REMOVAL, SBEC........8E-16
CONTROLLER ANTILOCK BRAKE -
DESCRIPTION........................8E-5
CONTROLLER ANTILOCK BRAKE -
INSTALLATION........................8E-6
CONTROLLER ANTILOCK BRAKE -
OPERATION..........................8E-5
CONTROLLER ANTILOCK BRAKE -
REMOVAL...........................8E-6
CONVENTIONAL BATTERY CHARGING -
STANDARD PROCEDURE...............8F-11
CONVERTER - DESCRIPTION, CATALYTIC . . . 11-4
CONVERTER - DESCRIPTION, TORQUE . . . 21-242
CONVERTER - INSPECTION, CATALYTIC....11-5
CONVERTER - INSTALLATION, CATALYTIC . . 11-6
CONVERTER - INSTALLATION, TORQUE . . 21-247
CONVERTER - OPERATION, CATALYTIC....11-4
CONVERTER - OPERATION, TORQUE....21-245
CONVERTER - REMOVAL, CATALYTIC......11-5
CONVERTER - REMOVAL, TORQUE......21-247
CONVERTER HOUSING FLUID LEAKAGE -
DIAGNOSIS AND TESTING, TORQUE.....21-123
COOL DOWN TEST - DIAGNOSIS AND
TESTING, A/C
........................24-4
COOLANT - DESCRIPTION, ENGINE
.......7-19
COOLANT - DESCRIPTION, ENGINE
........0-3
COOLANT - STANDARD PROCEDURE,
ADDING ADDITIONAL
...................7-5
COOLANT CONCENTRATION TESTING -
DIAGNOSIS AND TESTING
..............7-19
RSINDEX7
Description Group-Page Description Group-Page Description Group-Page
ProCarManuals.com