Fuel system DODGE RAM 2003 Service Repair Manual

²Specific Good Trip
²Fuel System Good Trip
²Misfire Good Trip
²Alternate Good Trip (appears as a Global Good
Trip on DRB III)
²Comprehensive Components
²Major Monitor
²Warm-Up Cycles
Specific Good Trip
The term Good Trip has different meanings
depending on the circumstances:
²If the MIL is OFF, a trip is defined as when the
Oxygen Sensor Monitor and the Catalyst Monitor
have been completed in the same drive cycle.
²If the MIL is ON and a DTC was set by the Fuel
Monitor or Misfire Monitor (both continuous moni-
tors), the vehicle must be operated in the Similar
Condition Window for a specified amount of time.
²If the MIL is ON and a DTC was set by a Task
Manager commanded once-per-trip monitor (such as
the Oxygen Sensor Monitor, Catalyst Monitor, Purge
Flow Monitor, Leak Detection Pump Monitor, EGR
Monitor or Oxygen Sensor Heater Monitor), a good
trip is when the monitor is passed on the next start-
up.
²If the MIL is ON and any other emissions DTC
was set (not an OBD II monitor), a good trip occurs
when the Oxygen Sensor Monitor and Catalyst Mon-
itor have been completed, or two minutes of engine
run time if the Oxygen Sensor Monitor and Catalyst
Monitor have been stopped from running.
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
Warm-Up Cycles
Once the MIL has been extinguished by the Good
Trip Counter, the PCM automatically switches to a
Warm-Up Cycle Counter that can be viewed on the
DRB III. Warm-Up Cycles are used to erase DTCs
and Freeze Frames. Forty Warm-Up cycles must
occur in order for the PCM to self-erase a DTC andFreeze Frame. A Warm-Up Cycle is defined as fol-
lows:
²Engine coolant temperature must start below
and rise above 160É F
²Engine coolant temperature must rise by 40É F
²No further faults occur
Freeze Frame Data Storage
Once a failure occurs, the Task Manager records
several engine operating conditions and stores it in a
Freeze Frame. The Freeze Frame is considered one
frame of information taken by an on-board data
recorder. When a fault occurs, the PCM stores the
input data from various sensors so that technicians
can determine under what vehicle operating condi-
tions the failure occurred.
The data stored in Freeze Frame is usually
recorded when a system fails the first time for two
trip faults. Freeze Frame data will only be overwrit-
ten by a different fault with a higher priority.
CAUTION: Erasing DTCs, either with the DRB III or
by disconnecting the battery, also clears all Freeze
Frame data.
Similar Conditions Window
The Similar Conditions Window displays informa-
tion about engine operation during a monitor. Abso-
lute MAP (engine load) and Engine RPM are stored
in this window when a failure occurs. There are two
different Similar conditions Windows: Fuel System
and Misfire.
FUEL SYSTEM
²Fuel System Similar Conditions WindowÐ
An indicator that 'Absolute MAP When Fuel Sys Fail'
and 'RPM When Fuel Sys Failed' are all in the same
range when the failure occurred. Indicated by switch-
ing from 'NO' to 'YES'.
²Absolute MAP When Fuel Sys FailÐ The
stored MAP reading at the time of failure. Informs
the user at what engine load the failure occurred.
²Absolute MAPÐ A live reading of engine load
to aid the user in accessing the Similar Conditions
Window.
²RPM When Fuel Sys FailÐ 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.
DREMISSIONS CONTROL 25 - 7
EMISSIONS CONTROL (Continued)

²Upstream O2S VoltsÐ A live reading of the
Oxygen Sensor to indicate its performance. For
example, stuck lean, stuck rich, etc.
²SCW Time in Window (Similar Conditions
Window Time in Window)Ð A timer used by the
PCM that indicates that, after all Similar Conditions
have been met, if there has been enough good engine
running time in the SCW without failure detected.
This timer is used to increment a Good Trip.
²Fuel System Good Trip CounterÐATrip
Counter used to turn OFF the MIL for Fuel System
DTCs. To increment a Fuel System Good Trip, the
engine must be in the Similar Conditions Window,
Adaptive Memory Factor must be less than cali-
brated threshold and the Adaptive Memory Factor
must stay below that threshold for a calibrated
amount of time.
²Test Done This TripÐ Indicates that the
monitor has already been run and completed during
the current trip.
MISFIRE
²Same Misfire Warm-Up StateÐ Indicates if
the misfire occurred when the engine was warmed up
(above 160É F).
²In Similar Misfire WindowÐ An indicator
that 'Absolute MAP When Misfire Occurred' and
'RPM When Misfire Occurred' are all in the same
range when the failure occurred. Indicated by switch-
ing from 'NO' to 'YES'.
²Absolute MAP When Misfire OccurredÐ
The stored MAP reading at the time of failure.
Informs the user at what engine load the failure
occurred.
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.
²Misfire DataÐ Data collected during test.²Test Done This TripÐ Indicates YES when the
test is done.
OPERATION - NON-MONITORED CIRCUITS
The PCM does not monitor the following circuits,
systems and conditions that could have malfunctions
causing driveability problems. The PCM might not
store diagnostic trouble codes for these conditions.
However, problems with these systems may cause the
PCM to store diagnostic trouble codes for other sys-
tems or components.EXAMPLE:a fuel pressure
problem will not register a fault directly, but could
cause a rich/lean condition or misfire. This could
cause the PCM to store an oxygen sensor or misfire
diagnostic trouble code
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 or fuel system diag-
nostic 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.
CYLINDER COMPRESSION
The PCM cannot detect uneven, low, or high engine
cylinder compression.
EXHAUST SYSTEM
The PCM cannot detect a plugged, restricted or
leaking exhaust system, although it may set a fuel
system fault.
FUEL INJECTOR MECHANICAL MALFUNCTIONS
The PCM cannot determine if a fuel injector is
clogged, the needle is sticking or if the wrong injector
is installed. However, these could result in a rich or
lean condition causing the PCM to store a diagnostic
trouble code for either misfire, an oxygen sensor, or
the fuel system.
EXCESSIVE OIL CONSUMPTION
Although the PCM monitors engine exhaust oxygen
content when the system is in closed loop, it cannot
determine excessive oil consumption.
THROTTLE BODY AIR FLOW
The PCM cannot detect a clogged or restricted air
cleaner inlet or filter element.
25 - 8 EMISSIONS CONTROLDR
EMISSIONS CONTROL (Continued)

EVAPORATIVE EMISSIONS
TABLE OF CONTENTS
page page
EVAPORATIVE EMISSIONS
DESCRIPTION - EVAP SYSTEM............10
SPECIFICATIONS
TORQUE - EVAP SYSTEM..............12
CCV HOSE
DESCRIPTION - 8.0L V-10................12
OPERATION - 8.0L V-10..................12
EVAP/PURGE SOLENOID
DESCRIPTION.........................12
OPERATION...........................12
REMOVAL.............................13
INSTALLATION.........................13
FUEL FILLER CAP
DESCRIPTION.........................13
OPERATION...........................13
REMOVAL
REMOVAL/INSTALLATION...............13
LEAK DETECTION PUMP
DESCRIPTION.........................13
OPERATION...........................14
REMOVAL.............................16
INSTALLATION.........................16P C V VA LV E
DESCRIPTION.........................16
OPERATION...........................17
DIAGNOSIS AND TESTING
DIAGNOSIS AND TESTING - PCV VALVE -
3.7L V-6/ 4.7L V-8......................19
DIAGNOSIS AND TESTING - PCV VALVE -
5.9L V-8.............................19
REMOVAL.............................21
INSTALLATION.........................22
VACUUM LINES
DESCRIPTION.........................22
VAPOR CANISTER
DESCRIPTION.........................22
OPERATION...........................22
REMOVAL.............................22
INSTALLATION.........................23
NATURAL VAC LEAK DETECTION ASSY
DESCRIPTION.........................23
OPERATION...........................23
REMOVAL.............................24
INSTALLATION.........................24
EVAPORATIVE EMISSIONS
DESCRIPTION - EVAP 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 into the two charcoal
filled evaporative canisters. The canisters tempo-
rarily hold the vapors. The Powertrain Control Mod-
ule (PCM) allows intake manifold vacuum to draw
vapors into the combustion chambers during certain
operating conditions.
All gasoline powered engines use a duty cycle
purge system. The PCM controls vapor flow by oper-
ating the duty cycle EVAP purge solenoid. Refer to
Duty Cycle EVAP Canister Purge Solenoid for addi-
tional information.When equipped with certain emissions packages, a
Leak Detection Pump (LDP) will be used as part of
the evaporative system. This pump is used as a part
of OBD II requirements. Refer to Leak Detection
Pump for additional information. Other emissions
packages will use a Natural Vacuum Leak Detection
(NVLD) system in place of the LDP. Refer to NVLD
for additional information.
NOTE: The hoses used in this system are specially
manufactured. If replacement becomes necessary, it
is important to use only fuel resistant hose.
25 - 10 EVAPORATIVE EMISSIONSDR

Certain EVAP system components can be found in
(Fig. 1).
Fig. 1 FUEL DELIVERY COMPONENTS
1 - FUEL TANK 8 - LDP FRESH AIR FILTER
2 - CHECK VALVE 9 - LEAK DETECTION PUMP
3 - LIQUID EXPANSION CHAMBER 10 - EVAP CANISTERS (2)
4 - FUEL FILTER / FUEL PRESSURE REGULATOR 11 - FUEL TANK STRAPS (2)
5 - QUICK-CONNECT FITTING AND FUEL LINE (TO ENGINE) 12 - CHECK VALVE
6 - EVAP LINE CONNECTION 13 - FUEL PUMP MODULE LOCK RING
7 - LEAK DETECTION PUMP FRESH AIR LINE 14 - FUEL PUMP MODULE
DREVAPORATIVE EMISSIONS 25 - 11
EVAPORATIVE EMISSIONS (Continued)

REMOVAL
The duty cycle EVAP canister purge solenoid is
located in the engine compartment. It is attached to
the side of the Power Distribution Center (PDC) (Fig.
3).
(1) Disconnect electrical wiring connector at sole-
noid.
(2) Disconnect vacuum harness at solenoid (Fig. 3).
(3) Remove solenoid from mounting bracket.
INSTALLATION
(1) Install solenoid assembly to mounting bracket.
(2) Connect vacuum harness.
(3) Connect electrical connector.
FUEL FILLER CAP
DESCRIPTION
The plastic fuel tank filler tube cap is threaded
onto the end of the fuel fill tube. Certain models are
equipped with a 1/4 turn cap.
OPERATION
The loss of any fuel or vapor out of fuel filler tube
is prevented by the use of a pressure-vacuum fuel fill
cap. Relief valves inside the cap will release fuel tank
pressure at predetermined pressures. Fuel tank vac-
uum will also be released at predetermined values.This cap must be replaced by a similar unit if
replacement is necessary. This is in order for the sys-
tem to remain effective.
CAUTION: Remove fill cap before servicing any fuel
system component to relieve tank pressure. If
equipped with a Leak Detection Pump (LDP), or
NVLD system, the cap must be tightened securely.
If cap is left loose, a Diagnostic Trouble Code (DTC)
may be set.
REMOVAL
REMOVAL/INSTALLATION
If replacement of the 1/4 turn fuel tank filler tube
cap is necessary, it must be replaced with an identi-
cal cap to be sure of correct system operation.
CAUTION: Remove the fuel tank filler tube cap to
relieve fuel tank pressure. The cap must be
removed prior to disconnecting any fuel system
component or before draining the fuel tank.
LEAK DETECTION PUMP
DESCRIPTION
Vehicles equipped with JTEC engine control mod-
ules use a leak detection pump. Vehicles equipped
with NGC engine control modules use an NVLD
pump. Refer to Natural Vacuum - Leak Detection
(NVLD) for additional information.
The evaporative emission system is designed to
prevent the escape of fuel vapors from the fuel sys-
tem (Fig. 4). Leaks in the system, even small ones,
can allow fuel vapors to escape into the atmosphere.
Government regulations require onboard testing to
make sure that the evaporative (EVAP) system is
functioning properly. The leak detection system tests
for EVAP system leaks and blockage. It also performs
self-diagnostics. During self-diagnostics, the Power-
train Control Module (PCM) first checks the Leak
Detection Pump (LDP) for electrical and mechanical
faults. If the first checks pass, the PCM then uses
the LDP to seal the vent valve and pump air into the
system to pressurize it. If a leak is present, the PCM
will continue pumping the LDP to replace the air
that leaks out. The PCM determines the size of the
leak based on how fast/long it must pump the LDP
as it tries to maintain pressure in the system.
Fig. 3 EVAP / DUTY CYCLE PURGE SOLENOID
1 - MOUNTING BRACKET
2 - VACUUM HARNESS
3 - DUTY CYCLE SOLENOID
4 - TEST PORT CAP AND TEST PORT
DREVAPORATIVE EMISSIONS 25 - 13
EVAP/PURGE SOLENOID (Continued)

EVAP LEAK DETECTION SYSTEM COMPONENTS
Service Port: Used with special tools like the Miller
Evaporative Emissions Leak Detector (EELD) to test
for leaks in the system.
EVAP Purge Solenoid: The PCM uses the EVAP
purge solenoid to control purging of excess fuel
vapors stored in the EVAP canister. It remains closed
during leak testing to prevent loss of pressure.
EVAP Canister: The EVAP canister stores fuel
vapors from the fuel tank for purging.
EVAP Purge Orifice: Limits purge volume.
EVAP System Air Filter: Provides air to the LDP
for pressurizing the system. It filters out dirt while
allowing a vent to atmosphere for the EVAP system.
OPERATION
The main purpose of the LDP is to pressurize the
fuel system for leak checking. It closes the EVAP sys-
tem vent to atmospheric pressure so the system can
be pressurized for leak testing. The diaphragm ispowered by engine vacuum. It pumps air into the
EVAP system to develop a pressure of about 7.59
H2O (1/4) psi. A reed switch in the LDP allows the
PCM to monitor the position of the LDP diaphragm.
The PCM uses the reed switch input to monitor how
fast the LDP is pumping air into the EVAP system.
This allows detection of leaks and blockage. The LDP
assembly consists of several parts (Fig. 5). The sole-
noid is controlled by the PCM, and it connects the
upper pump cavity to either engine vacuum or atmo-
spheric pressure. A vent valve closes the EVAP sys-
tem to atmosphere, sealing the system during leak
testing. The pump section of the LDP consists of a
diaphragm that moves up and down to bring air in
through the air filter and inlet check valve, and
pump it out through an outlet check valve into the
EVAP system. The diaphragm is pulled up by engine
vacuum, and pushed down by spring pressure, as the
LDP solenoid turns on and off. The LDP also has a
magnetic reed switch to signal diaphragm position to
the PCM. When the diaphragm is down, the switch is
closed, which sends a 12 V (system voltage) signal to
the PCM. When the diaphragm is up, the switch is
open, and there is no voltage sent to the PCM. This
allows the PCM to monitor LDP pumping action as it
turns the LDP solenoid on and off.
LDP AT REST (NOT POWERED)
When the LDP is at rest (no electrical/vacuum) the
diaphragm is allowed to drop down if the internal
(EVAP system) pressure is not greater than the
return spring. The LDP solenoid blocks the engine
vacuum port and opens the atmospheric pressure
port connected through the EVAP system air filter.
The vent valve is held open by the diaphragm. This
allows the canister to see atmospheric pressure (Fig.
6).
DIAPHRAGM UPWARD MOVEMENT
When the PCM energizes the LDP solenoid, the
solenoid blocks the atmospheric port leading through
the EVAP air filter and at the same time opens the
engine vacuum port to the pump cavity above the
diaphragm. The diaphragm moves upward when vac-
uum above the diaphragm exceeds spring force. This
upward movement closes the vent valve. It also
causes low pressure below the diaphragm, unseating
the inlet check valve and allowing air in from the
EVAP air filter. When the diaphragm completes its
upward movement, the LDP reed switch turns from
closed to open (Fig. 7).
DIAPHRAGM DOWNWARD MOVEMENT
Based on reed switch input, the PCM de-energizes
the LDP solenoid, causing it to block the vacuum
port, and open the atmospheric port. This connects
Fig. 4 TYPICAL SYSTEM COMPONENTS
1 - Throttle Body
2 - Service Vacuum Supply Tee (SVST)
3 - LDP Solenoid
4 - EVAP System Air Filter
5 - LDP Vent Valve
6 - EVAP Purge Orifice
7 - EVAP Purge Solenoid
8 - Service Port
9 - To Fuel Tank
10 - EVAP Canister
11 - LDP
12 - Intake Air Plenum
25 - 14 EVAPORATIVE EMISSIONSDR
LEAK DETECTION PUMP (Continued)

REMOVAL
The Leak Detection Pump (LDP) and LDP filter
are attached to the front of the EVAP canister
mounting bracket (Fig. 9). This is located near the
front of the fuel tank. The LDP and LDP filter are
replaced (serviced) as one unit.
(1) Raise and support vehicle.
(2) Carefully remove hose at LDP filter.
(3) Remove LDP filter mounting bolt and remove
from vehicle.
(4) Carefully remove vapor/vacuum lines at LDP.
(5) Disconnect electrical connector at LDP.
(6) Remove LDP mounting bolt and remove LDP
from vehicle.
INSTALLATION
The LDP and LDP filter are attached to the front
of the EVAP canister mounting bracket. The LDP
and LDP filter are replaced (serviced) as one unit.
(1) Install LDP to mounting bracket. Refer to
Torque Specifications.
(2) Install LDP filter to mounting bracket. Refer to
Torque Specifications.
(3) Carefully install vapor/vacuum lines to LDP,
and install hose to LDP filter.The vapor/vacuum
lines and hoses must be firmly connected.
Check the vapor/vacuum lines at the LDP, LDPfilter and EVAP canister purge solenoid for
damage or leaks. If a leak is present, a Diagnos-
tic Trouble Code (DTC) may be set.
(4) Connect electrical connector to LDP.
PCV VALVE
DESCRIPTION
3.7L V-6 / 4.7L V-8
The 3.7L V-6 and 4.7L V-8 engines are equipped
with a closed crankcase ventilation system and a
Positive Crankcase Ventilation (PCV) valve.
This system consists of:
²a PCV valve mounted to the oil filler housing
(Fig. 10). The PCV valve is sealed to the oil filler
housing with an o-ring.
²the air cleaner housing
²two interconnected breathers threaded into the
rear of each cylinder head (Fig. 11).
²tubes and hoses to connect the system compo-
nents.
Fig. 7 DIAPHRAGM UPWARD MOVEMENT
1 - Diaphragm
2 - Inlet Check Valve (Open)
3 - Vent Valve (Closed)
4 - From Air Filter
5 - To Canister
6 - Outlet Check Valve (Closed)
7 - Engine Vacuum (Open)
Fig. 8 DIAPHRAGM DOWNWARD MOVEMENT
1 - Diaphragm
2 - Inlet Check Valve (Closed)
3 - Vent Valve (Closed)
4 - From Air Filter
5 - To Canister
6 - Outlet Check Valve (Open)
7 - Engine Vacuum (Closed)
25 - 16 EVAPORATIVE EMISSIONSDR
LEAK DETECTION PUMP (Continued)

detection of very small leaks, this system has the
capability of detecting medium as well as large evap-
orative system leaks.
A vent valve seals the canister vent during engine
off conditions. If the vapor 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
temperature cycling. The diurnal effect is considered
one of the primary contributors to the leak determi-
nation 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,
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 atmospheric
vent 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.
REMOVAL
The NVLD pump and filter are attached to the
front of the EVAP canister mounting bracket (Fig.
28). This is located near the front of the fuel tank.
The pump and filter are replaced (serviced) as one
unit.
(1) Raise and support vehicle.
(2) Carefully remove pump hose clamp and hose at
filter.
(3) Carefully remove other vapor/vacuum hose at
pump.
(4) Disconnect 3±way electrical connector at pump.
(5) The NVLD pump snaps onto the EVAP canister
mounting bracket. Press on release tab (Fig. 29)
while sliding pump from bracket.
INSTALLATION
(1) Install NVLD pump to EVAP canister mount-
ing bracket (snaps on).
Fig. 28 NVLD PUMP LOCATION
1 - EVAP CANISTER MOUNTING BRACKET
2 - NVLD PUMP
3 - FILTER
25 - 24 EVAPORATIVE EMISSIONSDR
NATURAL VAC LEAK DETECTION ASSY (Continued)

ABS - DESCRIPTION, BRAKES...........5-39
ABS - OPERATION, BRAKES.............5-39
ABS BRAKE BLEEDING - STANDARD
PROCEDURE.........................5-40
ABS INDICATOR - DESCRIPTION.........8J-17
ABS INDICATOR - OPERATION..........8J-17
A/C APPLICATION TABLE,
SPECIFICATIONS......................24-7
A/C COMPRESSOR CLUTCH -
DESCRIPTION........................24-9
A/C COMPRESSOR CLUTCH -
INSPECTION........................24-12
A/C COMPRESSOR CLUTCH -
INSTALLATION.......................24-12
A/C COMPRESSOR CLUTCH -
OPERATION..........................24-9
A/C COMPRESSOR CLUTCH - REMOVAL . . 24-10
A/C COMPRESSOR CLUTCH BREAK-IN -
STANDARD PROCEDURE...............24-10
A/C COMPRESSOR CLUTCH COIL -
DIAGNOSIS AND TESTING.............24-10
A/C COMPRESSOR CLUTCH RELAY -
DESCRIPTION.......................24-13
A/C COMPRESSOR CLUTCH RELAY -
INSTALLATION.......................24-14
A/C COMPRESSOR CLUTCH RELAY -
OPERATION.........................24-13
A/C COMPRESSOR CLUTCH RELAY -
REMOVAL..........................24-14
A/C COMPRESSOR NOISE - DIAGNOSIS
AND TESTING.......................24-36
A/C CONDENSER - DESCRIPTION.........24-39
A/C CONDENSER - OPERATION..........24-39
A/C EVAPORATOR - DESCRIPTION.......24-47
A/C EVAPORATOR - INSTALLATION......24-47
A/C EVAPORATOR - OPERATION.........24-47
A/C EVAPORATOR - REMOVAL..........24-47
A/C HEATER CONTROL - DESCRIPTION . . . 24-14
A/C HEATER CONTROL - INSTALLATION . . . 24-15
A/C HEATER CONTROL - REMOVAL......24-14
A/C ORIFICE TUBE - DESCRIPTION.......24-48
A/C ORIFICE TUBE - INSTALLATION......24-49
A/C ORIFICE TUBE - OPERATION........24-48
A/C ORIFICE TUBE - REMOVAL..........24-49
A/C PERFORMANCE - DIAGNOSIS AND
TESTING............................24-2
A/C PRESSURE TRANSDUCER -
DESCRIPTION.......................24-15
A/C PRESSURE TRANSDUCER -
DIAGNOSIS AND TESTING.............24-15
A/C PRESSURE TRANSDUCER -
INSTALLATION.......................24-16
A/C PRESSURE TRANSDUCER -
OPERATION.........................24-15
A/C PRESSURE TRANSDUCER -
REMOVAL..........................24-16
ACCELERATOR PEDAL - INSTALLATION . . . 14-24
ACCELERATOR PEDAL - REMOVAL.......14-24
ACCELERATOR PEDAL POSITION
SENSOR - DESCRIPTION...............14-25
ACCELERATOR PEDAL POSITION
SENSOR - INSTALLATION..............14-25
ACCELERATOR PEDAL POSITION
SENSOR - OPERATION................14-25
ACCELERATOR PEDAL POSITION
SENSOR - REMOVAL..................14-25
ACCESSORY DRIVE BELT - DIAGNOSIS
AND TESTING................7-25,7-28,7-31
ACCUMULATOR - DESCRIPTION.........24-49
ACCUMULATOR - DESCRIPTION
. . 21-191,21-372
ACCUMULATOR - INSPECTION
. . . 21-192,21-373
ACCUMULATOR - INSTALLATION
........24-50
ACCUMULATOR - OPERATION
..........24-49
ACCUMULATOR - OPERATION
....21-192,21-373
ACCUMULATOR - REMOVAL
............24-49
ACM COVER - INSTALLATION
............8O-9
ACM COVER - REMOVAL
...............8O-9
ACTUATION TEST MODE - DESCRIPTION,
CIRCUIT
.............................25-1
ACTUATOR - DESCRIPTION, BLEND
DOOR
.............................24-16
ACTUATOR - DESCRIPTION, FUEL
CONTROL
..........................14-85
ACTUATOR - DESCRIPTION, MODE
DOOR
.............................24-20
ACTUATOR - DESCRIPTION,
RECIRCULATION DOOR
................24-22ACTUATOR - INSTALLATION, BLEND
DOOR.............................24-17
ACTUATOR - INSTALLATION, FLOOR -
DEFROST DOOR.....................24-20
ACTUATOR - INSTALLATION, FUEL
CONTROL..........................14-85
ACTUATOR - INSTALLATION, INSIDE
HANDLE.......................23-22,23-32
ACTUATOR - INSTALLATION, MODE
DOOR.............................24-22
ACTUATOR - INSTALLATION,
RECIRCULATION DOOR................24-23
ACTUATOR - OPERATION, BLEND DOOR . . 24-16
ACTUATOR - OPERATION, FUEL
CONTROL..........................14-85
ACTUATOR - OPERATION, MODE DOOR . . . 24-21
ACTUATOR - OPERATION,
RECIRCULATION DOOR................24-22
ACTUATOR - REMOVAL, BLEND DOOR....24-17
ACTUATOR - REMOVAL, FLOOR -
DEFROST DOOR.....................24-19
ACTUATOR - REMOVAL, FUEL CONTROL . . 14-85
ACTUATOR - REMOVAL, INSIDE HANDLE . 23-22,
23-31
ACTUATOR - REMOVAL, MODE DOOR....24-21
ACTUATOR - REMOVAL, RECIRCULATION
DOOR.............................24-22
ADAPTER HOUSING SEAL -
INSTALLATION...........21-127,21-539,21-83
ADAPTER HOUSING SEAL - REMOVAL . . 21-127,
21-539,21-83
ADAPTER MOUNT - INSTALLATION, DISC
BRAKE CALIPER......................5-17
ADDING ADDITIONAL COOLANT -
STANDARD PROCEDURE................7-19
ADDITIONAL COOLANT - STANDARD
PROCEDURE, ADDING..................7-19
ADHESIVE LOCATIONS -
SPECIFICATIONS, STRUCTURAL........23-113
ADJUSTABLE PEDAL MOTOR -
DESCRIPTION........................5-24
ADJUSTABLE PEDAL MOTOR -
INSTALLATION........................5-24
ADJUSTABLE PEDAL MOTOR - REMOVAL . . 5-24
ADJUSTABLE PEDAL SWITCH -
INSTALLATION.........................5-6
ADJUSTABLE PEDAL SWITCH -
REMOVAL............................5-6
ADJUSTER - DIAGNOSIS AND TESTING,
HYDRAULIC LASH................9-124,9-31
ADJUSTER - INSTALLATION, SEAT BELT
TURNING LOOP.....................8O-50
ADJUSTER - REMOVAL, SEAT BELT
TURNING LOOP.....................8O-50
ADJUSTER ASSEMBLY - DESCRIPTION,
ROCKER ARM.......................9-124
ADJUSTER ASSEMBLY - INSTALLATION,
ROCKER ARM..................9-124,9-249
ADJUSTER ASSEMBLY - REMOVAL,
ROCKER ARM..................9-124,9-249
ADJUSTER ASSY - CLEANING, ROCKER
ARM
..............................9-310
ADJUSTER ASSY - DESCRIPTION,
ROCKER ARM
.......................9-310
ADJUSTER ASSY - INSPECTION,
ROCKER ARM
.......................9-311
ADJUSTER ASSY - INSTALLATION,
ROCKER ARM
.............9-198,9-312,9-379
ADJUSTER ASSY - REMOVAL, ROCKER
ARM
....................9-198,9-310,9-379
ADJUSTING TOOL - ADJUSTMENT, WITH
. . . 5-36
AFTER A SUPPLEMENTAL RESTRAINT
DEPLOYMENT - STANDARD
PROCEDURE, SERVICE
.................8O-7
AIR CHECKING TRANSMISSION CLUTCH
OPERATION - DIAGNOSIS AND
TESTING
..........................21-494
AIR CLEANER ELEMENT - INSTALLATION
. 9-105,
9-20,9-242,9-298,9-370
AIR CLEANER ELEMENT - REMOVAL
. 9-105,9-20,
9-242,9-297,9-370
AIR CONDITIONER - DESCRIPTION,
HEATER
.............................24-1
AIR CONDITIONER - OPERATION,
HEATER
.............................24-1
AIR CONDITIONING - INSTALLATION,
WATER PUMP BYPASS HOSE WITH
.......7-70AIR CONDITIONING - INSTALLATION,
WATER PUMP BYPASS HOSE
WITHOUT............................7-70
AIR CONDITIONING - REMOVAL, WATER
PUMP BYPASS HOSE WITH.............7-68
AIR CONDITIONING - REMOVAL, WATER
PUMP BYPASS HOSE WITHOUT..........7-69
AIR CONTROL MOTOR - DESCRIPTION,
IDLE...............................14-33
AIR CONTROL MOTOR - INSTALLATION,
IDLE...............................14-35
AIR CONTROL MOTOR - OPERATION,
IDLE...............................14-33
AIR CONTROL MOTOR - REMOVAL, IDLE . . 14-34
AIR COOLER AND PLUMBING -
CLEANING, CHARGE..................11-16
AIR COOLER AND PLUMBING -
DESCRIPTION, CHARGE...............11-15
AIR COOLER AND PLUMBING -
INSPECTION, CHARGE.................11-16
AIR COOLER AND PLUMBING -
INSTALLATION, CHARGE...............11-16
AIR COOLER AND PLUMBING -
OPERATION, CHARGE.................11-15
AIR COOLER AND PLUMBING -
REMOVAL, CHARGE..................11-15
AIR COOLER SYSTEM - LEAKS -
DIAGNOSIS AND TESTING, CHARGE......11-15
AIR DAM - INSTALLATION, FRONT........13-2
AIR DAM - REMOVAL, FRONT...........13-2
AIR HEATER - DESCRIPTION, INTAKE.....14-91
AIR HEATER - INSTALLATION, INTAKE....14-91
AIR HEATER - OPERATION, INTAKE......14-91
AIR HEATER - REMOVAL, INTAKE........14-91
AIR HEATER RELAY - DESCRIPTION,
INTAKE ............................14-92
AIR HEATER RELAY - INSTALLATION,
INTAKE ............................14-93
AIR HEATER RELAY - OPERATION,
INTAKE ............................14-92
AIR HEATER RELAY - REMOVAL, INTAKE . . 14-93
AIR INTAKE SYSTEM - INSTALLATION....9-194
AIR INTAKE SYSTEM - REMOVAL........9-194
AIR TEMPERATURE SENSOR -
DESCRIPTION, INTAKE................14-36
AIR TEMPERATURE SENSOR -
INSTALLATION, INTAKE................14-38
AIR TEMPERATURE SENSOR -
OPERATION, INTAKE..................14-36
AIR TEMPERATURE SENSOR -
REMOVAL, INTAKE...................14-36
AIR TEMPERATURE SENSOR/MAP
SENSOR - DESCRIPTION, INTAKE........14-93
AIR TEMPERATURE SENSOR/MAP
SENSOR - INSTALLATION, INTAKE.......14-94
AIR TEMPERATURE SENSOR/MAP
SENSOR - OPERATION, INTAKE.........14-93
AIR TEMPERATURE SENSOR/MAP
SENSOR - REMOVAL, INTAKE...........14-93
AIR TEMPERATURE SENSOR/PRESSURE
SENSOR - DESCRIPTION, INLET.........14-90
AIR TEMPERATURE SENSOR/PRESSURE
SENSOR - INSTALLATION, INLET........14-90
AIR TEMPERATURE SENSOR/PRESSURE
SENSOR - OPERATION, INLET..........14-90
AIR TEMPERATURE SENSOR/PRESSURE
SENSOR - REMOVAL, INLET............14-90
AIR TESTING TRANSMISSION CLUTCH
AND BAND OPERATION - DIAGNOSIS
AND TESTING................21-143,21-324
AIR TO OIL COOLER - INSTALLATION.....7-75
AIR TO OIL COOLER - REMOVAL.........7-74
AIRBAG - DESCRIPTION, DRIVER........8O-22
AIRBAG - DESCRIPTION, PASSENGER....8O-34
AIRBAG - DESCRIPTION, SIDE CURTAIN . . 8O-51
AIRBAG - INSTALLATION, DRIVER.......8O-24
AIRBAG - INSTALLATION, PASSENGER . . . 8O-37
AIRBAG - INSTALLATION, SIDE CURTAIN . . 8O-53
AIRBAG - OPERATION, DRIVER.........8O-23
AIRBAG - OPERATION, PASSENGER......8O-35
AIRBAG - OPERATION, SIDE CURTAIN....8O-51
AIRBAG - REMOVAL, DRIVER
...........8O-23
AIRBAG - REMOVAL, PASSENGER
.......8O-35
AIRBAG - REMOVAL, SIDE CURTAIN
.....8O-52
AIRBAG CONTROL MODULE -
DESCRIPTION
.......................8O-10
AIRBAG CONTROL MODULE -
DESCRIPTION, SIDE IMPACT
...........8O-53
DRINDEX 1
Description Group-Page Description Group-Page Description Group-Page

BRAKE SYSTEM - DIAGNOSIS AND
TESTING, BASE........................5-2
BRAKE TRANSMISSION SHIFT
INTERLOCK - ADJUSTMENTS . . . 21-195,21-376,
21-540
BRAKE TRANSMISSION SHIFT
INTERLOCK - DIAGNOSIS AND
TESTING..............21-195,21-375,21-540
BRAKE TRANSMISSION SHIFT
INTERLOCK SYSTEM - DESCRIPTION . . . 21-194,
21-375,21-540
BRAKE TRANSMISSION SHIFT
INTERLOCK SYSTEM - OPERATION.....21-194,
21-375,21-540
BRAKE/PARK BRAKE INDICATOR -
DESCRIPTION.......................8J-18
BRAKE/PARK BRAKE INDICATOR -
OPERATION.........................8J-19
BRAKES - ABS - DESCRIPTION...........5-39
BRAKES - ABS - OPERATION............5-39
BRAKES, SPECIAL TOOLS - BASE.........5-5
BREAK-IN - STANDARD PROCEDURE,
A/C COMPRESSOR CLUTCH............24-10
BREATHER - INSTALLATION,
CRANKCASE........................9-292
BREATHER - REMOVAL, CRANKCASE.....9-291
BUCKLE - INSTALLATION, FRONT
OUTBOARD SEAT BELT................8O-34
BUCKLE - REMOVAL, FRONT OUTBOARD
SEAT BELT .........................8O-33
BUILT-IN INDICATOR TEST - STANDARD
PROCEDURE........................8F-10
BUMPER - INSTALLATION, FRONT........13-2
BUMPER - INSTALLATION, JOUNCE.......2-40
BUMPER - INSTALLATION, REAR.........13-4
BUMPER - REMOVAL, FRONT............13-2
BUMPER - REMOVAL, JOUNCE...........2-40
BUMPER - REMOVAL, REAR.............13-4
BUMPERS (3500) - INSTALLATION,
AUXILIARY SPRING....................2-40
BUMPERS (3500) - REMOVAL,
AUXILIARY SPRING....................2-40
BURNT FLUID - DIAGNOSIS AND
TESTING, CAUSES OF....21-201,21-381,21-541
BUSHING - INSTALLATION.............19-18
BUSHING - INSTALLATION,
DISTRIBUTOR.......................9-258
BUSHING - INSTALLATION, EXTENSION
HOUSING..........................21-200
BUSHING - INSTALLATION, TORSION
BAR CROSS MEMBER..................2-14
BUSHING - REMOVAL.................19-18
BUSHING - REMOVAL, DISTRIBUTOR.....9-258
BUSHING - REMOVAL, EXTENSION
HOUSING..........................21-200
BUSHING - REMOVAL, TORSION BAR
CROSSMEMBER......................2-12
BUSHING AND SEAL - INSTALLATION,
EXTENSION HOUSING..........21-616,21-682
BUSHING AND SEAL - REMOVAL,
EXTENSION HOUSING..........21-616,21-682
BUSHINGS - 2WD (LD) - INSTALLATION,
LOWER CONTROL ARM................2-14
BUSHINGS - 2WD (LD) - REMOVAL,
LOWER CONTROL ARM................2-12
BUSHINGS - 4WD (LD) - INSTALLATION,
LOWER CONTROL ARM
................2-13
BUSHINGS - 4WD (LD) - REMOVAL,
LOWER CONTROL ARM
................2-12
BUSHINGS - INSTALLATION
.............2-39
BUSHINGS - REMOVAL
.................2-39
BUZZ, SQUEAK & RATTLE - STANDARD
PROCEDURE
........................23-11
BYPASS - DESCRIPTION, WATER PUMP
. . . 7-64
BYPASS - OPERATION, WATER PUMP
.....7-65
BYPASS HOSE WITH AIR CONDITIONING
- INSTALLATION, WATER PUMP
..........7-70
BYPASS HOSE WITH AIR CONDITIONING
- REMOVAL, WATER PUMP
..............7-68
BYPASS HOSE WITHOUT AIR
CONDITIONING - INSTALLATION,
WATER PUMP
........................7-70
BYPASS HOSE WITHOUT AIR
CONDITIONING - REMOVAL, WATER
PUMP
..............................7-69
C205F - ADJUSTMENTS, FRONT AXLE
.....3-21
C205F - DESCRIPTION, FRONT AXLE
......3-18C205F - DIAGNOSIS AND TESTING,
FRONT AXLE.........................3-18
C205F - INSTALLATION, FRONT AXLE.....3-21
C205F - OPERATION, FRONT AXLE........3-18
C205F - REMOVAL, FRONT AXLE.........3-21
C205F - SPECIAL TOOLS, FRONT AXLE....3-30
C205F - SPECIFICATIONS, FRONT AXLE....3-29
CAB - INSTALLATION, QUAD...........8O-32
CAB - INSTALLATION, STANDARD.......8O-31
CAB - REMOVAL, QUAD...............8O-29
CAB - REMOVAL, STANDARD...........8O-28
CAB BACK PANEL TRIM -
INSTALLATION, REAR.................23-70
CAB BACK PANEL TRIM - REMOVAL,
REAR..............................23-70
CAB CLEARANCE LAMP - INSTALLATION . . 8L-10
CAB CLEARANCE LAMP - REMOVAL.....8L-10
CABLE - ADJUSTMENTS, THROTTLE
VALVE ......................21-255,21-432
CABLE - DESCRIPTION.................8P-3
CABLE - DESCRIPTION, ANTENNA BODY . . . 8A-4
CABLE - DESCRIPTION, SPARK PLUG.....8I-33
CABLE - DESCRIPTION, THROTTLE
VALVE ......................21-254,21-432
CABLE - DIAGNOSIS AND TESTING,
ANTENNA BODY......................8A-4
CABLE - DIAGNOSIS AND TESTING,
GEARSHIFT............21-209,21-389,21-544
CABLE - INSTALLATION..................8P-6
CABLE - INSTALLATION, ANTENNA BODY . . 8A-6
CABLE - INSTALLATION, CHECK.........23-15
CABLE - INSTALLATION, FRONT
PARKING BRAKE......................5-32
CABLE - INSTALLATION, GEARSHIFT....21-210,
21-390,21-545
CABLE - INSTALLATION, INSTRUMENT
PANEL ANTENNA......................8A-7
CABLE - INSTALLATION, LEFT REAR......5-33
CABLE - INSTALLATION, REAR PARK
BRAKE..............................5-32
CABLE - INSTALLATION, RIGHT REAR.....5-32
CABLE - INSTALLATION, SPARK PLUG....8I-35
CABLE - INSTALLATION, THROTTLE
CONTROL.....................14-51,14-96
CABLE - OPERATION...................8P-3
CABLE - OPERATION, ANTENNA BODY.....8A-4
CABLE - OPERATION, SPARK PLUG.......8I-33
CABLE - REMOVAL....................8P-3
CABLE - REMOVAL, ANTENNA BODY......8A-6
CABLE - REMOVAL, CHECK.............23-15
CABLE - REMOVAL, FRONT PARKING
BRAKE..............................5-31
CABLE - REMOVAL, GEARSHIFT . 21-209,21-389,
21-544
CABLE - REMOVAL, INSTRUMENT PANEL
ANTENNA...........................8A-6
CABLE - REMOVAL, LEFT REAR..........5-32
CABLE - REMOVAL, REAR PARK BRAKE . . . 5-31
CABLE - REMOVAL, RIGHT REAR.........5-31
CABLE - REMOVAL, SPARK PLUG........8I-34
CABLE - REMOVAL, THROTTLE
CONTROL.....................14-49,14-94
CABLE, ADJUSTMENTS - GEARSHIFT . . . 21-211,
21-391,21-546
CABLE ORDER, 8.0L V-10 ENGINE -
SPARK PLUG.........................8I-5
CABLE RESISTANCE, SPECIFICATIONS -
SPARK PLUG.........................8I-5
CABLE ROUTING, 5.7L V-8 ENGINE -
FIRING ORDER........................8I-4
CABLE/HANDLE ASSEMBLY -
INSTALLATION, LATCH RELEASE........23-47
CABLE/HANDLE ASSEMBLY - REMOVAL,
LATCH RELEASE.....................23-47
CABLES - DESCRIPTION, BATTERY.......8F-14
CABLES - DIAGNOSIS AND TESTING,
BATTERY...........................8F-15
CABLES - DIAGNOSIS AND TESTING,
SPARK PLUG........................8I-33
CABLES - INSTALLATION, BATTERY......8F-17
CABLES - OPERATION, BATTERY........8F-14
CABLES - REMOVAL, BATTERY
..........8F-16
CALIBRATION - STANDARD PROCEDURE,
COMPASS
...........................8M-3
CALIPER ADAPTER MOUNT -
INSTALLATION, DISC BRAKE
............5-17
CALIPERS - DESCRIPTION, DISC BRAKE
. . . 5-11
CALIPERS - OPERATION, DISC BRAKE
.....5-12CAM BORE REPAIR - STANDARD
PROCEDURE........................9-315
CAMBER AND CASTER ADJUSTMENT -
STANDARD PROCEDURE.................2-4
CAMBER, CASTER AND TOE
ADJUSTMENT - STANDARD
PROCEDURE..........................2-4
CAM/OVERDRIVE PISTON RETAINER -
ASSEMBLY, OVERRUNNING CLUTCH....21-239,
21-416
CAM/OVERDRIVE PISTON RETAINER -
CLEANING, OVERRUNNING CLUTCH....21-238,
21-416
CAM/OVERDRIVE PISTON RETAINER -
DESCRIPTION, OVERRUNNING CLUTCH . 21-237,
21-415
CAM/OVERDRIVE PISTON RETAINER -
DISASSEMBLY, OVERRUNNING
CLUTCH.....................21-238,21-415
CAM/OVERDRIVE PISTON RETAINER -
INSPECTION, OVERRUNNING CLUTCH . . 21-238,
21-416
CAM/OVERDRIVE PISTON RETAINER -
OPERATION, OVERRUNNING CLUTCH . . . 21-237,
21-415
CAMSHAFT - INSTALLATION . 9-201,9-250,9-320,
9-381
CAMSHAFT - REMOVAL.....9-200,9-250,9-317,
9-380
CAMSHAFT BEARINGS - INSTALLATION . . 9-320,
9-381
CAMSHAFT BEARINGS - REMOVAL . 9-317,9-380
CAMSHAFT CORE HOLE PLUG -
INSTALLATION.......................9-201
CAMSHAFT CORE HOLE PLUG -
REMOVAL............................9-200
CAMSHAFT POSITION SENSOR -
DESCRIPTION.......................14-82
CAMSHAFT POSITION SENSOR -
DESCRIPTION.........................8I-8
CAMSHAFT POSITION SENSOR -
INSTALLATION.......................14-83
CAMSHAFT POSITION SENSOR -
INSTALLATION.......................8I-14
CAMSHAFT POSITION SENSOR -
OPERATION.........................14-82
CAMSHAFT POSITION SENSOR -
OPERATION..........................8I-8
CAMSHAFT POSITION SENSOR -
REMOVAL..........................14-83
CAMSHAFT POSITION SENSOR -
REMOVAL...........................8I-11
CAMSHAFT(S) - DESCRIPTION.......9-24,9-34
CAMSHAFT(S) - INSTALLATION......9-25,9-35
CAMSHAFT(S) - LEFT - DESCRIPTION....9-113
CAMSHAFT(S) - LEFT - INSTALLATION....9-114
CAMSHAFT(S) - LEFT - REMOVAL.......9-113
CAMSHAFT(S) - REMOVAL..........9-24,9-34
CAMSHAFT(S) - RIGHT - DESCRIPTION . . . 9-117
CAMSHAFT(S) - RIGHT - INSTALLATION . . 9-118
CAMSHAFT(S) - RIGHT - REMOVAL......9-117
CANISTER - DESCRIPTION, VAPOR......25-22
CANISTER - INSTALLATION, VAPOR......25-23
CANISTER - OPERATION, VAPOR........25-22
CANISTER - REMOVAL, VAPOR..........25-22
CAP - 5.9L V-8 - DIAGNOSIS AND
TESTING, DISTRIBUTOR...............8I-18
CAP - DESCRIPTION, FUEL FILLER.......25-13
CAP - DESCRIPTION, RADIATOR
PRESSURE..........................7-60
CAP - DIAGNOSIS AND TESTING,
RADIATOR...........................7-61
CAP - OPERATION, FUEL FILLER........25-13
CAP - OPERATION, RADIATOR
PRESSURE..........................7-61
CAPACITIES, SPECIFICATIONS - FLUID......0-5
CAPACITOR - DESCRIPTION, IGNITION
COIL...............................8I-33
CAPACITOR - INSTALLATION, IGNITION
COIL...............................8I-33
CAPACITOR - OPERATION, IGNITION
COIL
...............................8I-33
CAPACITOR - REMOVAL, IGNITION COIL
. . . 8I-33
CAPACITY - SPECIFICATIONS, CHARGE
. . . 24-35
CAP-TO-FILLER NECK SEAL -
DIAGNOSIS AND TESTING, RADIATOR
.....7-61
CARDAN UNIVERSAL JOINTS -
ASSEMBLY, SINGLE
.....................3-9
DRINDEX 5
Description Group-Page Description Group-Page Description Group-Page