motor DODGE NEON 2000 Service Service Manual

Fig. 8 Windshield Wiper Module
1 ± CAPS
2 ± MOUNTING NUTS
3 ± WIPER ARM4 ± COWL SCREEN
5 ± WIPER MOTOR MODULE
6 ± INTEGRAL MOTOR CONNECTOR
Fig. 9 Windshield Wiper Blade/Arm Park Lines
1 ± PARK LINES
2 ± BLACK OUT AREA
PLWINDSHIELD WIPER and WASHER SYSTEMS 8K - 7
ADJUSTMENTS (Continued)

WINDSHIELD WASHER SYSTEM
TABLE OF CONTENTS
page page
DESCRIPTION AND OPERATION
WINDSHIELD WASHER NOZZLE(S)............8
WINDSHIELD WASHER SYSTEM.............8
DIAGNOSIS AND TESTING
WINDSHIELD WASHER SYSTEM.............9REMOVAL AND INSTALLATION
WINDSHIELD WASHER HOSE................9
WINDSHIELD WASHER NOZZLES.............9
WINDSHIELD WASHER RESERVOIR..........10
WINDSHIELD WASHER PUMP...............10
DESCRIPTION AND OPERATION
WINDSHIELD WASHER NOZZLE(S)
This model is equipped with two hood mounted
washer nozzles. Each nozzle emits two streams into the
wiper pattern (Fig. 1). If the nozzle performance is
unsatisfactory they can be adjusted. To adjust insert a
pin into the nozzle ball and move to proper pattern (Fig.
2). The right and left nozzles are identical.
WINDSHIELD WASHER SYSTEM
All models are equipped with electrically operated
windshield washer pumps. The wash function can be
accessed in the OFF position of the wiper control
switch. Holding the wash button depressed when the
switch is in the OFF position will operate the wipers
and washer motor pump continuously until the
washer button is released. Releasing the button will
stop the washer pump but the wipers will complete
the current wipe cycle. Followed by an average of two
more wipe cycles (61) before the wipers park and the
module turns off.
The electric pump assembly is mounted directly to
the reservoir. A permanently lubricated motor is cou-
pled to a rotor type pump. Fluid, gravity fed from the
reservoir, is forced by the pump through rubber hoses
to the hood mounted nozzles which direct the fluid
streams to the windshield.
The pump and reservoir are serviced as separate
assemblies (Fig. 3).
Fig. 1 Windshield Washer Nozzle - Typical
1 ± HOOD
2 ± ADJUST WITH A PIN
3 ± NOZZLE
4 ± FWD
Fig. 2 Windshield Washer Pattern - Typical
1 ± NOZZLE AIR TARGET
Fig. 3 Windshield Washer Reservoir
1 ± WINDSHIELD WASHER PUMP
2 ± SPEED CONTROL VACUUM RESERVOIR
3 ± WINDSHIELD WASHER HOSE
8K - 8 WINDSHIELD WIPER and WASHER SYSTEMSPL

DIAGNOSIS AND TESTING
WINDSHIELD WASHER SYSTEM
Whenever a windshield washer malfunction occurs,
first verify that the windshield washer wire harnessis properly connected to all connectors before starting
normal diagnosis and repair procedures. Refer to
Windshield Washer System Test table.
WINDSHIELD WASHER SYSTEM TEST
CONDITION POSSIBLE CAUSE CORRECTION
PUMP RUNS NO FLUID
FLOWING.1. NO FLUID IN THE
RESERVOIR.
2. NOZZLE PLUGGED
OR FROZEN.
3. BROKEN, LOOSE OR
PINCHED HOSE.
4. FAULTY PUMP.1. FILL RESERVOIR.
2. THAW AND CHECK FLOW IF BLOCKED
3. CHECK FLOW THROUGH HOSE CONNECTIONS.
4. APPLY BATTERY VOLTAGE TO MOTOR
TERMINALS, REPLACE IF PUMP DOES NOT RUN.
SYSTEM OPERATES
INTERMITTENTLY.1. LOOSE WIRE
CONNECTION.
2. FAULTY SWITCH.1. CHECK WIRE CONNECTIONS.
2. DISCONNECT WIRE HARNESS USE
VOLTMETER TO CHECK SWITCH.
SYSTEM OUTPUT IS
LOW.1. PINCHED HOSE.
2. HOSE BLOCKED.1. CHECK FLOW THROUGH HOSE CONNECTION.
2. DISCONNECT HOSE AT NOZZLE AND Y
CONNECTOR CHECK FOR FLOW. REPLACE ASS
NECESSARY.
REMOVAL AND INSTALLATION
WINDSHIELD WASHER HOSE
REMOVAL
For damaged or plugged windshield washer hose,
remove the effected piece of hose and replace routing
hose the same way as removed (Fig. 4).
INSTALLATION
For installation, reverse the above procedures.
WINDSHIELD WASHER NOZZLES
REMOVAL
(1) Open hood.
(2) Disconnect the windshield washer hose from
the underside of the washer nozzle.
(3) Using a plastic body filler spreader or equiva-
lent (credit card), gently place it underneath the
front of the washer nozzle. Be careful not to damage
the hood seal underneath the nozzle.
(4) Rock the nozzle back and forth slightly to
release it from the hood panel.
INSTALLATION
(1) For installation, reverse the above procedures.
(2) After connecting hose, check for proper system
function and to assure leak free connections by actu-
ating the washer system switch from inside of vehi-
cle.
Fig. 4 Windshield Washer Hose
PLWINDSHIELD WIPER and WASHER SYSTEMS 8K - 9

LAMPS
TABLE OF CONTENTS
page page
LAMP DIAGNOSIS......................... 1
HEADLAMP ALIGNMENT.................... 2
LAMP BULB SERVICE...................... 4LAMP SERVICE........................... 12
BULB APPLICATION....................... 19
LAMP DIAGNOSIS
TABLE OF CONTENTS
page
GENERAL INFORMATION
HEADLAMP LEVELING MOTOR...............1
GENERAL INFORMATION
HEADLAMP LEVELING MOTOR
This vehicle is equipped with a remote headlamp
leveling system. This system allows the driver to
adjust the vertical headlamp aim from the interior of
the vehicle to compensate for passenger or cargo
load. A headlamp leveling switch is located in the
instrument panel (Fig. 1) and controls the headlamp
leveling motor which is mounted to the rear of the
headlamp assembly.
Fig. 1 Headlamp Leveling Switch Position &
Orientation
1 ± HEAD LAMP LEVELING SWITCH
2 ± CENTER INSTRUMENT BEZEL
PLLAMPS 8L - 1

HEADLAMP ALIGNMENT
TABLE OF CONTENTS
page page
DESCRIPTION AND OPERATION
HEADLAMP ALIGNMENT....................2
SERVICE PROCEDURES
HEADLAMP ALIGNMENT PREPARATION........2ADJUSTMENTS
HEADLAMP ADJUSTMENT USING
ALIGNMENT SCREEN....................2
DESCRIPTION AND OPERATION
HEADLAMP ALIGNMENT
Headlamps can be aligned using the screen method
provided in this section. This method will require the
vehicle to be parked on a flat, level surface with a
minimum of 15 meters of working room in front of a
flat, level perpendicular wall or aiming.
Each headlamp has a focal point circle molded on
the lens directly in front of each headlamp bulb.
These focal point circles are used to set up lines on a
wall, or aiming board for visually aiming the head-
lamps.
The driving (high) beam location does not require
adjustment. It will be correct when the passing (low)
beam headlamps are aimed correctly.
SERVICE PROCEDURES
HEADLAMP ALIGNMENT PREPARATION
(1) Verify headlamp dimmer switch and high beam
indicator operation.
(2) Inspect and correct damaged or defective com-
ponents that could interfere with proper headlamp
alignment.
(3) Verify that the headlamp leveling switch is in
the ª0º position.
(4) Verify proper tire inflation.
(5) Clean the headlamp lenses.
(6) Verify that the luggage area is not heavily
loaded.
(7) Fuel tank should be FULL. Add 2.94 kg (6.5
lbs.) of weight over the fuel tank for each estimated
gallon of missing fuel.
ADJUSTMENTS
HEADLAMP ADJUSTMENT USING ALIGNMENT
SCREEN
ALIGNMENT SCREEN PREPARATION
(1) Position the vehicle on a level surface 10
meters in front of a level, flat wall or aiming board.
(2) Tape a vertical line on the wall extending 1
meter up from the floor, making sure this line is even
with the centerline of the vehicle (Fig. 1).
(3) Measure the cross-car distance between the
two headlamp focal point circles (1174mm). Transfer
half of this distance (587mm) to the left of the vehicle
centerline and tape another vertical line up from the
floor 1 meter (Fig. 1). Repeat for the right side of the
centerline.
(4) Measure the distance from the floor to the focal
point circle on the headlamp lens (635mm, but may
vary due to variations in tire size and vehicle suspen-
sion height). Transfer this measurement to the wall
and tape a horizontal line extending approximately 1
meter beyond each vertical focal point line (Fig. 1).
(5) Use these lines for left and right adjustment
reference.
HEADLAMP ADJUSTMENT
Horizontal Adjustment
The horizontal position of the passing (low) beam
pattern is adjusted by turning the T-15 Torx screw.
Located through the slot in the upper-crossmember
between the two attaching straps of the headlamp.
Vertical Adjustment
The vertical position of the passing (low) beam pat-
tern is adjusted by turning the Phillips screw on top
of the headlamp leveling motor. Located between the
headlamp housing and the upper-crossmember, just
inboard of the fender.
Adjust the passing (low) beam headlamp pat-
terns to the locations shown in the chart pro-
vided (Fig. 1).
8L - 2 LAMPSPL

LAMP SERVICE
TABLE OF CONTENTS
page page
GENERAL INFORMATION
HEADLAMP SWITCH......................12
HEADLAMP LEVELING SWITCH.............12
HEADLAMP DIMMER SWITCH...............12
REMOVAL AND INSTALLATION
CENTER HIGH MOUNTED STOP LAMP
(CHMSL)..............................12HEADLAMP MODULE.....................12
HEADLAMP LEVELING MOTOR..............14
FRONT FOG LAMP.......................15
REAR LICENSE PLATE LAMPS..............15
REAR FOG LAMP........................15
SIDE REPEATER LAMP....................17
TAIL, STOP AND TURN SIGNAL LAMP........18
GENERAL INFORMATION
HEADLAMP SWITCH
Service procedures for the headlamp switch can be
found in Group 8E, Instrument Panel and Gauges.
More information can be found in Group 8W, Wiring
Diagrams.
HEADLAMP LEVELING SWITCH
Service procedures for the headlamp leveling
switch can be found in Group 8E, Instrument Panel
Systems. More information can be found in Group
8W, Wiring Diagrams.
HEADLAMP DIMMER SWITCH
The headlamp dimmer switch is incorporated into
the multi-function (turn signal) switch. Proper proce-
dures can be found in Group 8J, Turn Signal and
Flashers. More information can be found in Group
8W, Wiring Diagrams.
REMOVAL AND INSTALLATION
CENTER HIGH MOUNTED STOP LAMP
(CHMSL)
REMOVAL
(1) Open the trunklid
(2) Remove the CHMSL lamp socket from the
lamp assembly (Fig. 1). Rotate and pull the socket
straight from the CHMSL lamp.
(3) Remove the (2) CHMSL lamp retaining nuts
(Fig. 1) and remove the lamp from the trunklid.
INSTALLATION
(1) Position the CHMSL lamp on the mounting
studs and install the (2) retaining nuts (Fig. 2).
Torque the nuts to 12 N´m (106 in. lbs.).(2) Install the CHMSL lamp socket in the lamp
assembly (Fig. 2).
(3) Close the trunklid and verify lamp operation.
HEADLAMP MODULE
REMOVAL
(1) Open the hood and disconnect the negative bat-
tery cable.
(2) Remove the (2) headlamp module retaining
screws (Fig. 3).
(3) Remove the upper front fascia retaining screw
(Fig. 3).
Fig. 1 Center High Mounted Stop Lamp
1 ± C. H. M. S. L. LAMP RETAINING NUTS
2 ± C. H. M. S. L. LAMP ELECTRICAL CONNECTOR
3 ± TRUNK LID
4 ± C. H. M. S. L. LAMP
8L - 12 LAMPSPL

HEADLAMP LEVELING MOTOR
REMOVAL
(1) Remove the appropriate headlamp module from
the vehicle. Refer to the HEADLAMP MODULE
removal and installation procedure in this group.(2) Disconnect the headlamp leveling motor electri-
cal connector (Fig. 6). Depress the steel retaining clip
while pulling the connector from the motor.
(3) Rotate the headlamp leveling motor and pull it
straight out of the headlamp module (Fig. 6). Signif-
icant force will be required to unsnap the ball and
socket connection between the headlamp leveling
motor and the headlamp assembly.
INSTALLATION
(1) Install the headlamp leveling motor in the
headlamp module. Push the headlamp leveling motor
pushrod straight into its mating socket while holding
the headlamp in the fully retracted position. This
will prevent the headlamp assembly from moving
while the ball and socket connection is restored.
Assistance from another person may simplify this
procedure.
(2) Once the ball and socket connection is secured,
push and rotate the headlamp leveling motor into the
headlamp module to lock in place (Fig. 7).
(3) Connect the headlamp leveling motor electrical
connector by pushing it straight on (Fig. 7).
(4) Install the headlamp module in the vehicle.
Refer to the HEADLAMP MODULE removal and
installation procedure in this group.
Fig. 5 Headlamp Module Retaining Bolts
1 ± HEADLAMP MODULE RETAINING SCREWS
2 ± FASCIA RETAINING SCREW
Fig. 6 Headlamp Leveling Motor
1 ± HEADLAMP LEVELING MOTOR ELECTRICAL CONNECTOR
2 ± RETAINING CLIP
3 ± HEADLAMP LEVELING MOTOR
4 ± HEADLAMP MODULE
Fig. 7 Headlamp Leveling Motor
1 ± HEADLAMP LEVELING MOTOR ELECTRICAL CONNECTOR
2 ± RETAINING CLIP
3 ± HEADLAMP LEVELING MOTOR
4 ± HEADLAMP MODULE
8L - 14 LAMPSPL
REMOVAL AND INSTALLATION (Continued)

DIAGNOSIS AND TESTING
AIRBAG SYSTEM
(1) Disconnect and isolate the battery negative
cable (Fig. 4).
(2) Connect the DRB llltscan tool to the Data
Link Connector (DLC), located at left side of the
steering column and at the lower edge of the lower
instrument panel (Fig. 5). Ensure that the latest ver-
sion is being used.
(3) Turn the ignition key to ON position. Exit vehi-
cle with the DRB llltscan tool.
(4) After checking that no one is inside the vehicle,
connect the battery negative cable.
(5) Using the DRB llltscan tool, read and record
active Diagnostic Trouble Code (DTC) data.
(6) Read and record any stored DTC's.
(7) Refer to the proper Body Diagnostic Procedures
Manual if any DTC's are found in Step 5 or Step 6.
(8) Erase stored DTC's if there are no active
DTC's. If problems remain, DTC's will not erase.
Refer to the proper Body Diagnostic Procedures Man-
ual to diagnose the problem.If airbag warning
lamp either fails to light, or goes on and stays
on, there is a system malfunction. Refer to the
proper Body Diagnostic Procedures Manual to
diagnose the problem.
SERVICE PROCEDURES
CLEAN UP PROCEDURE
Roll of fold the driver side airbag towards the
steering wheel and tape the airbag module cover over
deployed bag.
Roll or fold the passenger airbag towards the
instrument panel surface and close the door over the
folded bag. Then tape the door shut.
Use a vacuum cleaner to remove any residual pow-
der from the vehicle interior. Work from the outside
in to avoid kneeling or sitting in a contaminated
area. Vacuum the heater and A/C outlets as well. If
the heater or air conditioner was in RECIRC mode at
time of airbag deployment, operate blower motor on
low speed and vacuum powder residue expelled from
the heater and A/C outlets. Multiple vacuum cleaning
may to necessary to decontaminate the interior of the
vehicle.
NOTE: Dispose deployed airbag properly, contact
dealer or government agency for disposal recom-
mendations.
SERVICE OF DEPLOYED AIRBAG MODULE
DRIVER AIRBAG
After a Driver Airbag Module has been deployed
the following components must be replaced because
they cannot be reused. Other driver airbag system
components are replaced if damaged.
²Driver Airbag Module
Fig. 4 Battery Negative Cable Remove/Install
1 ± NEGATIVE CABLE
2 ± NEGATIVE BATTERY POST
Fig. 5 Data Link Connector (DLC) Location
1 ± DATA LINK CONNECTOR (DLC)
2 ± BRAKE PEDAL
PLPASSIVE RESTRAINT SYSTEMS 8M - 3

POWER LOCK SYSTEMS
TABLE OF CONTENTS
page page
POWER DOOR LOCKS...................... 1REMOTE KEYLESS ENTRY (RKE).............. 4
POWER DOOR LOCKS
TABLE OF CONTENTS
page page
DESCRIPTION AND OPERATION
INTRODUCTION..........................1
POWER DOOR LOCKS.....................2
CHILD PROTECTION LOCKS................2
DOOR LOCK INHIBIT.......................2
DIAGNOSIS AND TESTING
DOOR LOCK MOTOR......................2
DOOR LOCK SWITCH......................2SERVICE PROCEDURES
DOUBLE ACTIVATION UNLOCK...............3
ROLLING DOOR LOCKS....................3
REMOVAL AND INSTALLATION
DOOR LOCK MOTOR/LATCH.................3
DOOR LOCK SWITCH......................3
REMOTE KEYLESS ENTRY (RKE) MODULE.....3
DESCRIPTION AND OPERATION
INTRODUCTION
All doors can be locked or unlocked electrically by
operating the switch on either front door panel.
When the door lock switch is activated the Remote
Keyless Entry Module provides power to the door
lock motors through relays internal to the module.
The Remote Keyless Entry (RKE) Module also con-
trols the Vehicle Theft Security System (VTSS).
All doors can be locked or unlocked mechanically
and independently with their respective locking
knobs. The front doors can also be unlocked by actu-
ation of the inside remote door handle.
The RKE Module has three modes of operation
including customer usage mode, dealer lot storage
mode, and shipping mode. The customer usage mode
provides full functionality of the module and is the
mode in which the RKE module should be operating
when used by the customer. Dealer lot storage mode
and shipping modes are reduced power modes meant
to extend vehicle battery life during shipping and
storage in the dealer lot. Dealer lot storage mode pro-
vides limited VTSS and power door lock functions,
but disables the Remote Keyless Entry (RKE) func-
tions. This mode is intended to be used when the
vehicle is on the dealer lot to provide VTSS coverageof the vehicle while minimizing battery drain. Ship-
ping mode disables all normal functions (i.e. power
door locks, RKE, and VTSS) of the module, and is
intended to be used when the vehicle is shipped from
the assembly plant.
NOTE: The dealer must remove the module from
ªShip Modeº and place the RKE Module into either
the ªDealer Lotº storage or ªCustomer Usageº
modes of operation after receiving the vehicle from
the assembly plant. Refer to Group 8Q-Vehicle
Theft/Security Systems, Switching Operating
Modes/Configuring a New Module under Service
Procedures.
CENTRAL LOCKING/UNLOCKING
The door locks can be locked or unlocked electri-
cally via the exterior door key cylinders to provide
the central locking/unlocking feature. The central
locking/unlocking feature incorporates a customer
programmable ``Double activation unlockº feature
which operates in the following manner: When
enabled, the first turn of the key cylinder to the
UNLOCK position (toward the front of the vehicle)
will mechanically unlock the door whose key cylinder
is being turned. A second turn of the key cylinder to
the UNLOCK position (within five seconds of the
PLPOWER LOCK SYSTEMS 8P - 1

first turn) will cause all vehicle doors to unlock elec-
trically. When this feature is disabled, all vehicle
doors will be unlocked electrically upon the first turn
of a key cylinder to the UNLOCK position. The vehi-
cle is locked electrically by turning the key cylinder
to the LOCK position once, regardless of the state of
the double activation unlock feature.
POWER DOOR LOCKS
The Remote Keyless Entry (RKE) Module actuates
the power door lock relays when a door lock switch is
activated. If the door lock switch is pressed for longer
than eight consecutive seconds, the RKE module will
de-energize the door lock motors.
The system includes the rolling door locking fea-
ture. The vehicle is shipped with the system enabled.
When the system is disabled the door locks will work
by use of the door lock switches and the Remote Key-
less Entry system only. When the rolling door lock
system is enabled, the RKE module will automati-
cally lock all the vehicle doors when all of the follow-
ing conditions are met:
²All doors are closed
²The vehicle speed exceeds 15 +/- 1 mph.
²The throttle position sensor tip-in is greater
than 10 +/- 2 degrees.
The RKE module will automatically re-lock all
doors if the above conditions are met and if any of
the doors become ajar and then closed again.
The enabling/disabling of the rolling door lock fea-
ture is customer programmable, as well as program-
mable with the DRB IIItscan tool.
The power lock motors are also equipped with a
thermal protection system which prevents the motors
from burning out. The motors may chatter if they are
continuously activated.
CHILD PROTECTION LOCKS
The child protection locks are on the rear doors
only. The lock, when engaged, will disable the inside
door handle from opening the door. The lock is part
of the latch/lock assembly. The lock is engaged by
moving a lever that is located on the rearward inside
edge of the door.
DOOR LOCK INHIBIT
With the key in the ignition switch and the driver
door open, the Remote Keyless Entry (RKE) Modulewill ignore the command to lock the power door locks
via the interior driver door lock switch. Once the key
is removed, or the driver door is closed, the RKE
module will allow the power door locks to lock via the
interior door lock switches.
DIAGNOSIS AND TESTING
DOOR LOCK MOTOR
(1) Make certain battery is in normal condition
and fuses powering the RKE module aren't blown
before circuits are tested.
(2) To determine which motor is faulty, check each
individual door for electrical lock and unlock or dis-
connect the motor connectors one at a time, while
operating the door lock switch.
(3) In the event that none of the motors work, the
problem maybe caused by a shorted motor, a bad
switch or a bad relay internal to the RKE module.
Disconnecting a defective motor will allow the others
to work.
(4) To test an individual door lock motor, discon-
nect the electrical connector from the motor.
(5) To lock the door, connect a 12 volt power source
to one pin of the lock motor and a ground wire to the
other pin.
(6) To unlock the door, reverse the wire connec-
tions at the motor pin terminals.
(7) If these results are NOT obtained, replace the
motor.
DOOR LOCK SWITCH
(1) Remove the switch from its mounting location,
and disconnect from vehicle wiring harness. Refer to
Door Lock Switch Removal and Installation in this
section.
(2) Using an ohmmeter, refer to Door Lock Switch
Resistance Test table to determine if switch resis-
tance is correct in the Lock and Unlock switch posi-
tions. Refer to Group 8W-Wiring Diagrams for
harness connector pin-outs.
DOOR LOCK SWITCH RESISTANCE
SWITCH POSITION CONTINUITY BETWEEN RESISTANCE VALUE
LOCK 2 AND 3 1000V
UNLOCK 2 AND 3 249V
8P - 2 POWER LOCK SYSTEMSPL
DESCRIPTION AND OPERATION (Continued)