torque CHRYSLER VOYAGER 2003 Service Manual
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damaged, the clutch electromagnetic coil unit must
be replaced.
OPERATION
The compressor clutch components provide the
means to engage and disengage the compressor from
the engine serpentine accessory drive belt. When the
clutch coil is energized, it magnetically draws the
clutch plate into contact with the clutch pulley and
drives the compressor shaft. When the coil is not
energized, the pulley freewheels on the clutch hub
bearing, which is part of the pulley.
A zener diode is connected in parallel with the
clutch electromagnetic coil. This diode controls the
dissipation of voltage induced into the coil windings
by the collapsing of the electromagnetic fields that
occurs when the compressor clutch is disengaged.
The zener diode dissipates this induced voltage by
regulating a current path to ground. This arrange-
ment serves to protect other circuits and components
from potentially damaging voltage spikes in the vehi-
cle electrical system that might occur if the voltage
induced in the clutch coil windings could not be dis-
sipated.
The compressor clutch engagement is controlled by
several components: the heater-A/C controls in the
passenger compartment, the A/C pressure transducer
on the liquid line, the evaporator temperature sensor
on the expansion valve, the Powertrain Control Mod-
ule (PCM) in the engine compartment, and the com-
pressor clutch relay in the Intelligent Power Module
(IPM). The PCM may delay compressor clutch
engagement for up to thirty seconds. (Refer to 8 -
ELECTRICAL/ELECTRONIC CONTROL MOD-ULES/POWERTRAIN CONTROL MODULE -
DESCRIPTION - PCM OPERATION).
STANDARD PROCEDURE
STANDARD PROCEDURE - COMPRESSOR
CLUTCH AIR GAP
If a new clutch plate and/or clutch pulley are being
used, the air gap between the clutch plate and clutch
pulley must be checked using the following proce-
dure:
(1) Using feeler gauges, measure the air gap
between the clutch plate and the clutch pulley fric-
tion surfaces.
(2) If the air gap is not between 0.5 and 0.9 mm
(0.020 and 0.035 in.), add or subtract shims until the
desired air gap is obtained.
NOTE: The shims may compress after tightening
the compressor shaft bolt. Check the air gap in four
or more places on the clutch plate to verify that the
air gap is still correct. Spin the clutch pulley before
making the final air gap check.
STANDARD PROCEDURE - COMPRESSOR
CLUTCH BREAK-IN
After a new compressor clutch has been installed,
check that the compressor clutch coil is performing to
specifications. (Refer to 24 - HEATING & AIR CON-
DITIONING/CONTROLS - FRONT/COMPRESSOR
CLUTCH COIL - DIAGNOSIS AND TESTING). If
the clutch coil is performing to specifications, per-
form the compressor clutch break-in procedure. This
procedure (burnishing) will seat the opposing friction
surfaces and provide a higher compressor clutch
torque capability.
(1) Set the heater-A/C controls to the A/C mode,
with the blower switch in the highest speed position.
(2) Start the engine and hold the engine speed at
1500 to 2000 rpm.
(3) Cycle the compressor clutch On and Off about
twenty times (seven seconds On, then seven seconds
Off).
REMOVAL
The refrigerant system can remain fully charged
during compressor clutch, pulley, or coil replacement.
Although the compressor assembly must be removed
from its mounting, the compressor clutch can be ser-
vice with the compressor in the vehicle.
(1) Disconnect and isolate the battery negative
cable.
(2) Raise and support the vehicle.
Fig. 11 Compressor Clutch - Typical
1 - CLUTCH PLATE
2 - SHAFT KEY (SOME MODELS)
3 - PULLEY AND BEARING
4 - CLUTCH COIL
5 - CLUTCH SHIMS
6 - SNAP RING
7 - SNAP RING
RSCONTROLS - FRONT24-17
COMPRESSOR CLUTCH (Continued)
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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) Gently flex the recirculation air door far
enough to position the blower motor and blower
wheel into the blower housing in the lower half of the
evaporator housing.
(2) Install and tighten the three screws that secure
the blower motor to the blower housing in the lower
half of the evaporator housing. Tighten the screws to
2 N´m (18 in. lbs.).
(3) Feed the blower motor pigtail wires and electri-
cal connector through the grommet hole in the lower
intake air housing and seat the rubber grommet.
(4) Position the recirculation door in the lower air
inlet housing and place in position.
(5) Install and tighten the four screws (from the
bottom) that secure the lower air intake housing to
the lower half of the evaporator housing. Tighten the
screws to 2 N´m (18 in. lbs.).
(6) Install and tighten the one screw that secures
the upper intake air housing to the lower intake air
housing. Tighten the screws to 2 N´m (18 in. lbs.).(7) Install the recirculation actuator making cer-
tain that the splines are aligned and secure the
actuator with two screws and torque the to 2 N´m (18
in. lbs.). Route the wiring into the molded inn rout-
ing clips.
(8) Install the HVAC unit in the vehicle(Refer to
24 - HEATING & AIR CONDITIONING/DISTRIBU-
TION/HVAC HOUSING - INSTALLATION).
(9) Connect the blower motor pigtail wire harness
electrical connector back into either the power mod-
ule or resistor receptacle.
(10) Run the Heater-A/C Calibration procedure(Re-
fer to 24 - HEATING & AIR CONDITIONING/CON-
TROLS/A/C HEATER CONTROL - STANDARD
PROCEDURE).
(11) Run the HVAC Control Cool down test(Refer
to 24 - HEATING & AIR CONDITIONING - DIAG-
NOSIS AND TESTING).
DEFROSTER DUCT
REMOVAL
WARNING: ON VEHICLES EQUIPPED WITH AIR-
BAGS, DISABLE THE AIRBAG SYSTEM BEFORE
ATTEMPTING ANY STEERING WHEEL, STEERING
COLUMN, OR INSTRUMENT PANEL COMPONENT
DIAGNOSIS OR SERVICE. DISCONNECT AND ISO-
LATE THE BATTERY NEGATIVE (GROUND) CABLE,
THEN WAIT TWO MINUTES FOR THE AIRBAG SYS-
TEM CAPACITOR TO DISCHARGE BEFORE PER-
FORMING FURTHER DIAGNOSIS OR SERVICE. THIS
IS THE ONLY SURE WAY TO DISABLE THE AIRBAG
SYSTEM. FAILURE TO TAKE THE PROPER PRE-
CAUTIONS COULD RESULT IN ACCIDENTAL AIR-
BAG DEPLOYMENT AND POSSIBLE PERSONAL
INJURY.
(1) Disconnect and isolate the battery negative
cable.
(2) Remove the instrument panel from the vehicle.
(Refer to 23 - BODY/INSTRUMENT PANEL/IN-
STRUMENT PANEL ASSEMBLY - REMOVAL).
(3) Place the instrument panel face down on a
suitable work surface. Be certain to take the proper
precautions to protect the face of the instrument
panel from cosmetic damage.
(4) Remove the fasteners that secure the defroster
duct to the instrument panel armature.
(5) Remove the defroster duct from the instrument
panel.
Fig. 11 Blower Motor Mounting Tabs
1 - BLOWER MOTOR
2 - RUBBER GROMMET
3 - BLOWER MOTOR CONNECTOR
4 - MOUNTING TABS
RSDISTRIBUTION - FRONT24-47
BLOWER MOTOR (Continued)
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CAUTION: Do not use R-12 equipment or parts on
the R-134a system. Damage to the system will
result. All parts, tools, and equipment must be
designed for R-134a refrigerant.
CAUTION: Do not discharge refrigerant into the
atmosphere. Use an R-134a refrigerant recovery/re-
cycling device that meets SAE Standard J2210.
CAUTION: The refrigerant must be recovered com-
pletely from the system before opening any fitting
or connection. Open the fittings with caution, even
after the system has been discharged. If any pres-
sure is noticed as a fitting is loosened, tighten the
fitting and recover the refrigerant from the system
again.
CAUTION: The refrigerant system must always be
evacuated before charging.
CAUTION: Do not overcharge the refrigerant sys-
tem. This will cause excessive compressor head
pressure and can cause noise and system failure.
CAUTION: Do not open the refrigerant system or
remove the sealing caps from a replacement com-
ponent until it is to be installed. This will prevent
contamination in the system.
CAUTION: Before disconnecting a component,
clean the outside of the fittings thoroughly to pre-
vent contamination from entering the refrigerant
system.
CAUTION: When it is necessary to open the refrig-
erant system, have everything needed to service
the system ready. Immediately after disconnecting a
component from the refrigerant system, seal the
open fittings with a cap or plug to prevent the
entrance of dirt and moisture. The refrigerant sys-
tem should not be left open to the atmosphere any
longer than necessary.
CAUTION: Before connecting an open refrigerant
fitting, always install a new seal and or gasket. All
fittings with O-rings need to be coated with refrig-
erant oil before installation. Use only O-rings that
are the correct size and approved for use with
R-134a refrigerant. Failure to do so may result in a
leak. Coat the fitting and seal with clean refrigerant
oil before connecting. Unified plumbing connec-tions with gaskets cannot be serviced with O-rings.
The gaskets are not reusable and new gaskets do
not require lubrication before installing.
CAUTION: When installing a refrigerant line, avoid
sharp bends that may restrict refrigerant flow. A
good rule for the flexible hose refrigerant lines is to
keep the radius of all bends at least ten times the
diameter of the hose. Sharp bends will reduce the
flow of refrigerant.
CAUTION: Position the refrigerant lines away from
exhaust system components or any sharp edges,
which may damage the line. The flexible hose lines
should be routed so they are at least 80 millimeters
(3 inches) from the exhaust manifold. Inspect all
flexible refrigerant system hose lines at least once
a year to make sure they are in good condition and
properly routed.
CAUTION: High pressures are produced in the
refrigerant system when it is operating. Extreme
care must be exercised to make sure that all refrig-
erant system connections are pressure tight.
CAUTION: Tighten refrigerant fittings only to the
specified torque. The aluminum fittings used in the
refrigerant system will not tolerate overtightening.
CAUTION: When disconnecting a refrigerant fitting,
use a wrench on both halves of the fitting. This will
prevent twisting of the refrigerant lines or tubes.
CAUTION: Refrigerant oil will absorb moisture from
the atmosphere if left uncapped. Do not open a
container of refrigerant oil until you are ready to
use it. Replace the cap on the oil container immedi-
ately after using. Store refrigerant oil only in a
clean, airtight, and moisture-free container.
CAUTION: All tools, including the refrigerant recy-
cling equipment, the manifold gauge set, and test
hoses should be kept clean and dry. Keep the work
area clean. Contamination of the refrigerant system
through careless work habits must be avoided. The
refrigerant system will remain chemically stable as
long as pure, moisture-free R-134a refrigerant and
refrigerant oil is used. Dirt, moisture, or air can
upset this chemical stability. Operational troubles
or serious damage can occur if foreign material is
introduced to the refrigerant system.
24 - 62 PLUMBING - FRONTRS
PLUMBING - FRONT (Continued)
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Effective 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 oper-
ating temperatures of 300É to 350ÉC (572 É to 662ÉF),
the sensor generates a voltage that is inversely pro-
portional to the amount of oxygen in the exhaust.
The information obtained by the sensor is used to
calculate the fuel injector pulse width. This main-
tains a 14.7 to 1 Air Fuel (A/F) ratio. At this mixture
ratio, the catalyst works best to remove hydrocarbons
(HC), carbon monoxide (CO) and nitrogen oxide
(NOx) from the exhaust.
The voltage readings taken from the O2S are very
temperature sensitive. The readings are not accurate
below 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 O2S circuit is monitored for a drop in voltage.
The sensor output is used to test the heater by iso-
lating the effect of the heater element on the O2S
output voltage from the other effects.
EGR MONITOR (if equipped)
The Powertrain Control Module (PCM) performs
an on-board diagnostic check of the EGR system.
The EGR monitor is used to test whether the EGR
system is operating within specifications. The diag-
nostic check activates only during selected engine/
driving conditions. When the conditions are met, the
EGR is turned off (solenoid energized) and the O2S
compensation control is monitored. Turning off the
EGR shifts the air fuel (A/F) ratio in the lean direc-
tion. The O2S data should indicate an increase in the
O2 concentration in the combustion chamber when
the exhaust gases are no longer recirculated. While
this test does not directly measure the operation of
the EGR system, it can be inferred from the shift in
the O2S data whether the EGR system is operating
correctly. Because the O2S is being used, the O2S
test must pass its test before the EGR test. Also
looks at EGR linear potentiometer for feedback.
MISFIRE MONITOR
Excessive engine misfire results in increased cata-
lyst temperature and causes an increase in HC emis-
sions. Severe misfires could cause catalyst damage.
To prevent catalytic convertor damage, the PCM
monitors engine misfire.
The Powertrain Control Module (PCM) monitors
for misfire during most engine operating conditions
(positive torque) by looking at changes in the crank-
shaft speed. If a misfire occurs the speed of the
crankshaft will vary more than normal.FUEL SYSTEM MONITOR
To comply with clean air regulations, vehicles are
equipped with catalytic converters. These converters
reduce the emission of hydrocarbons, oxides of nitro-
gen and carbon monoxide. The catalyst works best
when the air fuel (A/F) ratio is at or near the opti-
mum of 14.7 to 1.
The PCM is programmed to maintain the optimum
air/fuel ratio. This is done by making short term cor-
rections in the fuel injector pulse width based on the
O2S output. The programmed memory acts as a self
calibration tool that the engine controller uses to
compensate for variations in engine specifications,
sensor tolerances and engine fatigue over the life
span of the engine. By monitoring the actual air-fuel
ratio with the O2S (short term) and multiplying that
with the program long-term (adaptive) memory and
comparing that to the limit, it can be determined
whether it will pass an emissions test. If a malfunc-
tion occurs such that the PCM cannot maintain the
optimum A/F ratio, then the MIL will be illuminated.
CATALYST MONITOR
To comply with clean air regulations, vehicles are
equipped with catalytic converters. These converters
reduce the emission of hydrocarbons, oxides of nitro-
gen and carbon monoxide.
Normal vehicle miles or engine misfire can cause a
catalyst to decay. A meltdown of the ceramic core can
cause a reduction of the exhaust passage. This can
increase vehicle emissions and deteriorate engine
performance, driveability and fuel economy.
The catalyst monitor uses dual oxygen sensors
(O2S's) to monitor the efficiency of the converter. The
dual O2S's strategy is based on the fact that as a cat-
alyst deteriorates, its oxygen storage capacity and its
efficiency are both reduced. By monitoring the oxy-
gen storage capacity of a catalyst, its efficiency can
be indirectly calculated. The upstream O2S is used to
detect the amount of oxygen in the exhaust gas
before the gas enters the catalytic converter. The
PCM calculates the A/F mixture from the output of
the O2S. A low voltage indicates high oxygen content
(lean mixture). A high voltage indicates a low content
of oxygen (rich mixture).
When the upstream O2S detects a lean condition,
there is an abundance of oxygen in the exhaust gas.
A functioning converter would store this oxygen so it
can use it for the oxidation of HC and CO. As the
converter absorbs the oxygen, there will be a lack of
oxygen downstream of the converter. The output of
the downstream O2S will indicate limited activity in
this condition.
As the converter loses the ability to store oxygen,
the condition can be detected from the behavior of
the downstream O2S. When the efficiency drops, no
RSEMISSIONS CONTROL25-7
EMISSIONS CONTROL (Continued)
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EVAPORATIVE EMISSIONS
TABLE OF CONTENTS
page page
EVAPORATIVE EMISSIONS
OPERATION - EVAPORATION CONTROL
SYSTEM............................10
SPECIFICATIONS
TORQUE............................11
EVAP/PURGE SOLENOID
DESCRIPTION.........................12
OPERATION...........................12
REMOVAL.............................12
INSTALLATION.........................12
FUEL FILLER CAP
DESCRIPTION.........................12
OPERATION...........................12
NATURAL VAC LEAK DETECTION ASSY
REMOVAL.............................13
INSTALLATION.........................13
LEAK DETECTION PUMP
REMOVAL.............................13
INSTALLATION.........................13ORVR
OPERATION...........................14
DIAGNOSIS AND TESTING - VEHICLE DOES
NOT FILL............................16
P C V VA LV E
DESCRIPTION.........................16
OPERATION...........................16
DIAGNOSIS AND TESTING - PCV SYSTEM . . . 17
VAPOR CANISTER
DESCRIPTION.........................18
OPERATION...........................18
REMOVAL
REMOVAL...........................18
REMOVAL - WITH NVLD................19
REMOVAL - REAR EVAP CANISTER.......19
INSTALLATION
INSTALLATION.......................19
INSTALLATION - WITH NVLD............20
INSTALLATION - REAR EVAP CANISTER . . . 20
EVAPORATIVE EMISSIONS
OPERATION - EVAPORATION CONTROL
SYSTEM
The evaporation control system prevents the emis-
sion of fuel tank vapors into the atmosphere. When
fuel evaporates in the fuel tank, the vapors pass
through vent hoses or tubes to an activated carbon
filled evaporative canister. The canister temporarily
holds the vapors. The Powertrain Control Module
(PCM) allows intake manifold vacuum to draw
vapors into the combustion chambers during certain
operating conditions (Fig. 1).All engines use a proportional purge solenoid sys-
tem. The PCM controls vapor flow by operating the
purge solenoid. Refer to Proportional Purge Solenoid
in this section.
NOTE: The evaporative system uses specially man-
ufactured hoses. If they need replacement, only use
fuel resistant hose. Also the hoses must be able to
pass an Ozone compliance test.
NOTE: For more information on Onboard Refueling
Vapor Recovery (ORVR), refer to the Fuel Delivery
section.
25 - 10 EVAPORATIVE EMISSIONSRS
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SPECIFICATIONS
TORQUE
DESCRIPTION N´m Ft. Lbs. In. Lbs.
PCV VAlve 3.3/3.8L 6.3 55
Fig. 1 ORVR System Schematic
1 - FUEL TANK (PLASTIC)
2 - FUEL FILLER TUBE
3 - FUEL CAP (PRESSURE/RELIEF)
4 - FILL TUBE TO FUEL TANK CONNECTOR (ELASTOMERIC)
5 - TANK VENT/ROLLOVER VALVE(S)
6 - VAPOR RECIRCULATION LINE
7 - TANK VAPOR LINE
8 - VAPOR LINE TO CANISTER
9 - CHECK VALVE (N/C)
10 - CONTROL VALVE
11 - NATURAL VACUUM LEAD DETECTION (NVLD)12 - LIQUID SEPARATOR (IF EQUIPPED)
13 - ENGINE WIRING HARNESS TO NVLD
14 - VAPOR CANISTER
15 - PURGE LINE
16 - PURGE DEVICE
17 - WITHOUT NVLD
18 - BREATHER ELEMENT
19 - FLOW CONTROL ORIFICE
20 - SERVICE PORT
21 - WITH NVLD
RSEVAPORATIVE EMISSIONS25-11
EVAPORATIVE EMISSIONS (Continued)
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DIAGNOSIS AND TESTING - PCV SYSTEM
WARNING: APPLY PARKING BRAKE AND/OR
BLOCK WHEELS BEFORE PERFORMING ANY TEST
OR ADJUSTMENT WITH THE ENGINE OPERATING.
(1) With engine idling, remove the hose from the
PCV valve. If the valve is not plugged, a hissing
noise will be heard as air passes through the valve. A
strong vacuum should also be felt when a finger is
placed over the valve inlet.
(2) Install hose on PCV valve. Remove the
make-up air hose from the air plenum at the rear of
the engine. Hold a piece of stiff paper (parts tag)
loosely over the end of the make-up air hose.
(3) After allowing approximately one minute for
crankcase pressure to reduce, the paper should draw
up against the hose with noticeable force. If the
engine does not draw the paper against the grommet
after installing a new valve, replace the PCV valve
hose.
(4) Turn the engine off. Remove the PCV valve
from intake manifold. The valve should rattle when
shaken.
(5) Replace the PCV valve and retest the system if
it does not operate as described in the preceding
tests.Do not attempt to clean the old PCV valve.
If the valve rattles, apply a light coating of Loctitet
Pipe Sealant With Teflon to the threads. Thread the
PCV valve into the manifold plenum and tighten to 7
N´m (60 in. lbs.) torque.
Fig. 10 PCV VALVE 2.4L
1 - PCV Valve
Fig. 11 PCV VALVE 3.3/3.8L
Fig. 12 Engine Off or Engine Backfire No Vapor
Flow
Fig. 13 High Intake Manifold Vacuum Minimal Vapor
Flow
Fig. 14 Moderate Intake Manifold Vacuum Maximum
Vapor Flow
RSEVAPORATIVE EMISSIONS25-17
PCV VALVE (Continued)
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EXHAUST GAS RECIRCULATION
TABLE OF CONTENTS
page page
EXHAUST GAS RECIRCULATION
SPECIFICATIONS
TORQUE............................21
TUBE
REMOVAL - 2.4L........................21
INSTALLATION - 2.4L....................21VA LV E
DESCRIPTION.........................22
OPERATION...........................22
REMOVAL - 2.4L........................23
INSTALLATION - 2.4L....................23
EXHAUST GAS
RECIRCULATION
SPECIFICATIONS
TORQUE
DESCRIPTION N´m Ft. Lbs. In. Lbs.
EGR valve to cyl. head
2.4L22 - 200 25
EGR tube to EGR valve
2.4L11.9 - 105 20
EGR tube to intake
manifold 2.4L11.9 - 105 20
EGR valve to adaptor
3.3/3.8L22 - 200 25
EGR tube to EGR valve
3.3/3.8L11.9 - 105 20
EGR tube to intake
manifold 3.3L5.6 - 50 10
EGR tube to intake
manifold 3.8L11.9 - 105 20
TUBE
REMOVAL - 2.4L
(1) Remove EGR tube attaching bolts at intake
manifold.
(2) Remove EGR tube attaching bolts at EGR
valve.
(3) Check for signs of leakage or cracked surfaces
on either the manifold or tube. Repair or replace as
necessary.
INSTALLATION - 2.4L
(1) Loose install EGR tube and gasket with attach-
ing bolts at intake manifold.
(2) Loose install EGR tube and gasket with attach-
ing bolts at EGR valve.
(3) Tighten bolts to EGR valve to 11.9 N´m (105
20 ins. lbs.).
(4) Tighten bolts to Intake manifold to 11.9 N´m
(105 20 ins. lbs.).
RSEXHAUST GAS RECIRCULATION25-21
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De-energizing the solenoid, but not fully closing the
transducer bleed hole (because of low back-pressure),
varies the strength of vacuum applied to the EGR
valve. Varying the strength of the vacuum changes
the amount of EGR supplied to the engine. This pro-
vides the correct amount of exhaust gas recirculation
for different operating conditions.
This system does not allow EGR at idle.
A failed or malfunctioning EGR system can cause
engine spark knock, sags or hesitation, rough idle,
engine stalling and increased emissions.
REMOVAL - 2.4L
The EGR valve and Electrical EGR Transducer are
serviced as an assembly (Fig. 1).
(1) Disconnect vacuum tube from electric EGR
transducer. Inspect vacuum tube for damage.
(2) Remove electrical connector from solenoid.
(3) Remove EGR tube bolts from EGR valve.
(4) Remove EGR valve from cylinder head adaptor.
(5) Clean gasket surface and discard old gasket.
Check for any signs of leakage or cracked surfaces.
Repair or replace as necessary.
INSTALLATION - 2.4L
The EGR valve and Electrical EGR Transducer are
serviced as an assembly (Fig. 1).
(1) Assemble EGR valve with new gasket onto the
cylinder head adaptor.
(2) Loose assemble the bolts from EGR valve to
EGR tube.
(3) Loose assemble the bolts from EGR valve to
cylinder head.
(4) Tighten bolts from EGR valve to cylinder head
to 22.8 N´m (200 25 in. lbs.) torque.
(5) Tighten bolts from EGR valve to EGR tube to
11.9 N´m (105 20 in. lbs.) torque.
(6) Reconnect vacuum hose and electrical connec-
tor to electrical EGR transducer.
RSEXHAUST GAS RECIRCULATION25-23
VALVE (Continued)
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ABS FASTENER TORQUE,
SPECIFICATIONS......................5-79
ABSORBER - DESCRIPTION, SHOCK.......2-36
ABSORBER - INSTALLATION, SHOCK......2-38
ABSORBER - OPERATION, SHOCK........2-36
ABSORBER - REMOVAL, SHOCK..........2-36
ABSORBER (UPPER BUSHING) -
ASSEMBLY, SHOCK....................2-37
ABSORBER (UPPER BUSHING) -
DISASSEMBLY, SHOCK.................2-36
A/C COMPRESSOR - DESCRIPTION......24-63
A/C COMPRESSOR - OPERATION........24-63
A/C COOL DOWN TEST - DIAGNOSIS
AND TESTING........................24-4
A/C DISTRIBUTION DUCT -
INSTALLATION.......................24-53
A/C DISTRIBUTION DUCT - REMOVAL....24-53
A/C HEATER CONTROL - INSTALLATION....24-9
A/C HEATER CONTROL - REMOVAL.......24-9
A/C PERFORMANCE TEST - DIAGNOSIS
AND TESTING........................24-5
A/C PLUMBING - CAUTION.............24-61
A/C PLUMBING - WARNING............24-61
A/C PRESSURE TRANSDUCER -
DESCRIPTION.......................24-10
A/C PRESSURE TRANSDUCER -
DIAGNOSIS AND TESTING.............24-10
A/C PRESSURE TRANSDUCER -
INSTALLATION.......................24-11
A/C PRESSURE TRANSDUCER -
OPERATION.........................24-10
A/C PRESSURE TRANSDUCER -
REMOVAL..........................24-10
ACCELERATOR PEDAL - INSTALLATION . . . 14-24
ACCELERATOR PEDAL - REMOVAL.......14-23
ACCESSORY DRIVE BELT - DIAGNOSIS
AND TESTING.........................7-7
ACCESSORY DRIVE BELT TENSION,
SPECIFICATIONS.......................7-5
ACCESSORY RELAY - DESCRIPTION . . . 8W-97-2
ACCESSORY RELAY - DIAGNOSIS &
TESTING.........................8W-97-2
ACCESSORY RELAY - OPERATION.....8W-97-2
ACCUMULATOR - DESCRIPTION........21-188
ACCUMULATOR - OPERATION..........21-189
A/C-HEATER CONTROL - INSTALLATION . . . 24-29
A/C-HEATER CONTROL - REMOVAL......24-29
ACTUATOR - DESCRIPTION, BLEND
DOOR........................24-11,24-30
ACTUATOR - DESCRIPTION, ENGAGE.....8N-10
ACTUATOR - DESCRIPTION, LATCH......8N-14
ACTUATOR - DESCRIPTION, MODE
DOOR.............................24-24
ACTUATOR - DESCRIPTION,
RECIRCULATION DOOR................24-27
ACTUATOR - INSTALLATION, BLEND
DOOR........................24-12,24-31
ACTUATOR - INSTALLATION, ENGAGE....8N-11
ACTUATOR - INSTALLATION, LATCH.....8N-14
ACTUATOR - INSTALLATION, MODE
DOOR........................24-25,24-36
ACTUATOR - INSTALLATION,
RECIRCULATION DOOR................24-28
ACTUATOR - OPERATION, BLEND DOOR . . 24-11,
24-30
ACTUATOR - OPERATION, ENGAGE......8N-11
ACTUATOR - OPERATION, LATCH........8N-14
ACTUATOR - OPERATION, MODE DOOR . . . 24-24
ACTUATOR - OPERATION,
RECIRCULATION DOOR................24-27
ACTUATOR - REMOVAL, BLEND DOOR . . . 24-12,
24-31
ACTUATOR - REMOVAL, ENGAGE........8N-11
ACTUATOR - REMOVAL, LATCH.........8N-14
ACTUATOR - REMOVAL, MODE DOOR....24-25,
24-36
ACTUATOR - REMOVAL, RECIRCULATION
DOOR.............................24-27
ADAPTER - INSTALLATION, FRONT DISC
BRAKE CALIPER......................5-31
ADAPTER - INSTALLATION, OIL FILTER
. . . 9-139
ADAPTER - REMOVAL, FRONT DISC
BRAKE CALIPER
......................5-31
ADAPTER - REMOVAL, OIL FILTER
.......9-139
ADAPTIVE MEMORIES, OPERATION -
FUEL CORRECTION OR
................14-20
ADDING ADDITIONAL COOLANT -
STANDARD PROCEDURE
.................7-5ADDITIONAL COOLANT - STANDARD
PROCEDURE, ADDING...................7-5
ADHESIVE ATTACHED - INSTALLATION,
EXTERIOR NAME PLATES..............23-50
ADHESIVE ATTACHED - REMOVAL,
EXTERIOR NAME PLATES..............23-50
ADHESIVE LOCATIONS -
SPECIFICATIONS, STRUCTURAL........23-153
ADJUSTER-BORC-PILLAR -
INSTALLATION, SEAT BELT HEIGHT......8O-12
ADJUSTER-BORC-PILLAR -
REMOVAL, SEAT BELT HEIGHT..........8O-12
ADJUSTER - DIAGNOSIS AND TESTING,
DRUM BRAKE AUTOMATIC..............5-13
ADJUSTER - INSTALLATION, FRONT
SEAT TRACK MANUAL................23-94
ADJUSTER - INSTALLATION, FRONT
SEAT TRACK POWER.................23-94
ADJUSTER - REMOVAL, FRONT SEAT
TRACK MANUAL.....................23-94
ADJUSTER - REMOVAL, FRONT SEAT
TRACK POWER......................23-94
ADJUSTER KNOB - INSTALLATION, SEAT
BELT HEIGHT.......................8O-13
ADJUSTER KNOB - REMOVAL, SEAT
BELT HEIGHT.......................8O-13
ADJUSTER NOISE DIAGNOSIS -
DIAGNOSIS AND TESTING, HYDRAULIC
LASH...............................9-34
ADJUSTER TENSION RELEASE -
STANDARD PROCEDURE, PARKING
BRAKE AUTOMATIC....................5-58
ADJUSTER TENSION RESET -
STANDARD PROCEDURE, PARKING
BRAKE AUTOMATIC.....................5-59
ADJUSTERS - INSTALLATION,
HYDRAULIC LASH.....................9-34
ADJUSTERS - REMOVAL, HYDRAULIC
LASH...............................9-34
AERATION - DIAGNOSIS AND TESTING,
COOLING SYSTEM.....................7-3
AFTER AN AIRBAG DEPLOYMENT -
STANDARD PROCEDURE, SERVICE.......8O-3
AIR CLEANER ELEMENT - INSTALLATION . . 9-24,
9-98
AIR CLEANER ELEMENT - REMOVAL . . 9-24,9-98
AIR CLEANER HOUSING - INSTALLATION . . 9-24,
9-99
AIR CLEANER HOUSING - REMOVAL . . 9-24,9-99
AIR CONDITIONING LINES -
INSTALLATION, REAR................24-105
AIR CONDITIONING LINES - REMOVAL,
REAR.............................24-104
AIR CONTROL MOTOR - DESCRIPTION,
IDLE...............................14-28
AIR CONTROL MOTOR - INSTALLATION,
IDLE...............................14-29
AIR CONTROL MOTOR - OPERATION,
IDLE...............................14-28
AIR CONTROL MOTOR - REMOVAL, IDLE . . 14-29
AIR EXHAUSTER - DESCRIPTION, REAR
QUARTER PANEL/FENDER..............23-56
AIR EXHAUSTER - INSTALLATION, REAR
QUARTER PANEL/FENDER..............23-57
AIR EXHAUSTER - REMOVAL, REAR
QUARTER PANEL/FENDER..............23-56
AIR FILTER - DESCRIPTION............24-39
AIR FILTER - INSTALLATION............24-40
AIR FILTER - REMOVAL...............24-39
AIR GAP - STANDARD PROCEDURE,
COMPRESSOR CLUTCH...............24-17
AIR GAP, SPECIFICATIONS - WHEEL
SPEED SENSOR.......................5-79
AIR INTAKE PIPE - INSTALLATION......24-113
AIR INTAKE PIPE - REMOVAL..........24-112
AIR OUTLETS - DESCRIPTION.....24-40,24-52
AIR OUTLETS - INSTALLATION..........24-52
AIR OUTLETS - REMOVAL.............24-52
AIR PRESSURE TESTS - DIAGNOSIS
AND TESTING, CLUTCH...............21-122
AIR TEMPERATURE SENSOR -
DESCRIPTION, INLET.................14-29
AIR TEMPERATURE SENSOR -
OPERATION, INLET
...................14-29
AIRBAG - DESCRIPTION, DRIVER
........8O-5
AIRBAG - DESCRIPTION, PASSENGER
.....8O-7
AIRBAG - DESCRIPTION, SEAT
..........8O-10
AIRBAG - INSTALLATION, DRIVER
........8O-6AIRBAG - INSTALLATION, PASSENGER....8O-9
AIRBAG - OPERATION, DRIVER..........8O-5
AIRBAG - OPERATION, PASSENGER.......8O-8
AIRBAG - OPERATION, SEAT...........8O-11
AIRBAG - REMOVAL, DRIVER............8O-5
AIRBAG - REMOVAL, PASSENGER........8O-8
AIRBAG CONTROL MODULE -
DESCRIPTION, SIDE IMPACT...........8O-17
AIRBAG CONTROL MODULE -
INSTALLATION, SIDE IMPACT...........8O-17
AIRBAG CONTROL MODULE -
OPERATION, SIDE IMPACT.............8O-17
AIRBAG CONTROL MODULE - REMOVAL,
SIDE IMPACT.......................8O-17
AIRBAG DEPLOYMENT - STANDARD
PROCEDURE, SERVICE AFTER AN........8O-3
AIRBAG SYSTEM - DIAGNOSIS AND
TESTING............................8O-2
AIRBAG TRIM COVER - INSTALLATION,
DRIVER.............................8O-7
AIRBAG TRIM COVER - REMOVAL,
DRIVER.............................8O-6
AIRBAGS - STANDARD PROCEDURE,
HANDLING..........................8O-3
AJAR SWITCH - EXPORT -
INSTALLATION, HOOD.................8Q-3
AJAR SWITCH - EXPORT - REMOVAL,
HOOD..............................8Q-3
ALIGNMENT - DESCRIPTION, WHEEL......2-46
ALIGNMENT - EXPORT - STANDARD
PROCEDURE, FRONT FOG LAMP UNIT.....8L-9
ALIGNMENT - EXPORT - STANDARD
PROCEDURE, HEADLAMP UNIT.........8L-17
ALIGNMENT - STANDARD PROCEDURE,
FRONT FOG LAMP UNIT................8L-9
ALIGNMENT - STANDARD PROCEDURE,
FRONT WIPER ARM...................8R-8
ALIGNMENT - STANDARD PROCEDURE,
HEADLAMP UNIT.....................8L-17
ALIGNMENT - STANDARD PROCEDURE,
WHEEL.............................2-51
ALIGNMENT, SPECIFICATIONS - WHEEL....2-55
ALUMINUM WHEEL CARE - CLEANING . . . 22-18
AMBIENT TEMP SENSOR - DESCRIPTION . 8M-11
AMBIENT TEMP SENSOR - OPERATION . . 8M-11
AMBIENT TEMPERATURE SENSOR -
DIAGNOSIS AND TESTING.............8M-12
AMBIENT TEMPERATURE SENSOR
CIRCUIT - DIAGNOSIS AND TESTING....8M-12
AN AIRBAG DEPLOYMENT - STANDARD
PROCEDURE, SERVICE AFTER...........8O-3
ANTENNA - EXPORT - DESCRIPTION,
QUARTER GLASS INTEGRAL............8A-9
ANTENNA - EXPORT - DIAGNOSIS AND
TESTING, QUARTER GLASS INTEGRAL....8A-9
ANTENNA - EXPORT - OPERATION,
QUARTER GLASS INTEGRAL............8A-9
ANTENNA BODY AND CABLE -
DESCRIPTION........................8A-4
ANTENNA BODY AND CABLE -
DIAGNOSIS AND TESTING..............8A-4
ANTENNA BODY AND CABLE -
INSTALLATION.......................8A-6
ANTENNA BODY AND CABLE -
OPERATION..........................8A-4
ANTENNA BODY AND CABLE - REMOVAL . . 8A-5
ANTENNA CABLE - INSTALLATION,
INSTRUMENT PANEL..................8A-9
ANTENNA CABLE - REMOVAL,
INSTRUMENT PANEL..................8A-8
ANTENNA MODULE - EXPORT -
DESCRIPTION........................8A-6
ANTENNA MODULE - EXPORT -
DIAGNOSIS AND TESTING..............8A-7
ANTENNA MODULE - EXPORT -
INSTALLATION.......................8A-7
ANTENNA MODULE - EXPORT -
OPERATION..........................8A-6
ANTENNA MODULE - EXPORT -
REMOVAL
...........................8A-7
ANTILOCK BRAKE - DESCRIPTION,
CONTROLLER
........................8E-5
ANTILOCK BRAKE - INSTALLATION,
CONTROLLER
........................8E-6
ANTILOCK BRAKE - OPERATION,
CONTROLLER
........................8E-5
ANTILOCK BRAKE - REMOVAL,
CONTROLLER
........................8E-6
RSINDEX1
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