engine DODGE NEON 1999 Service Repair Manual

(5) Install throttle body. Refer to Throttle Body in
this section.
(6) Connect the EVAP purge hose to the throttle
body nipple.
(7) Connect negative cable to battery.
MAP/IAT SENSORÐSOHC
The MAP/IAT sensor attaches to the intake mani-
fold plenum (Fig. 96).
REMOVAL
(1) Disconnect the electrical connector from the
MAP/IAT sensor.
(2) Remove sensor mounting screws.
(3) Remove sensor.
INSTALLATION
(1) Insert sensor into intake manifold while mak-
ing sure not to damage O-ring seal.
(2) Tighten mounting screws to 2 N´m (20 in. lbs)
torque for plastic manifold and 3 N´m (30 in. lbs.) for
aluminum manifold.
(3) Attach electrical connector to sensor.
MAP/IAT SENSORÐDOHC
The MAP/IAT sensor attaches to the intake mani-
fold plenum (Fig. 98).
REMOVAL
(1) Remove air inlet duct wing nut and duct from
intake manifold (Fig. 97).
(2) Disconnect the electrical connector from the
MAP/IAT sensor.
(3) Remove sensor mounting screws.
(4) Remove sensor.
INSTALLATION
(1) Insert sensor into intake manifold while mak-
ing sure not to damage O-ring seals.(2) Tighten mounting screws to 2 N´m (20 in. lbs)
torque foe a plastic manifold and 3 N´m (30 in. lbs)
for a aluminum manifold.
(3) Attach electrical connector to sensor.
(4) Install air inlet duct wing nut and duct from
intake manifold, insure that the duct does not inter-
fer with ignition cables.
DUTY CYCLE EVAP PURGE SOLENOID VALVE
The solenoid attaches to a bracket near the front
engine mount (Fig. 99). The solenoid will not operate
unless it is installed correctly.
REMOVAL
(1) Disconnect electrical connector from solenoid.
(2) Disconnect vacuum tubes from solenoid.
Fig. 95 Servicing Idle Air Control MotorFig. 96 MAP/IAT SensorÐSOHC
Fig. 97 Air Inlet DuctÐDOHC
PLFUEL SYSTEM 14 - 53
REMOVAL AND INSTALLATION (Continued)

with an anti-seize compound such as Loctitet771-64 or
equivalent.
INSTALLATION
New sensors have compound on the threads and do
not require an additional coating.
(1) Install sensor using an oxygen sensor crow foot
wrench such as Snap-On tool YA8875 or equivalent
(Fig. 101). Tighten the sensor to 28 N´m (20 ft. lbs.)
torque.
(2) Plug sensor connector.
(3) Lower vehicle.
DOWNSTREAM HEATED OXYGEN SENSOR
The downstream heated oxygen sensor threads into
the exhaust outlet pipe behind the catalytic convertor
(Fig. 102).
REMOVAL
(1) Raise vehicle.
(2) Disconnect electrical connector from sensor.
(3) Disconnect sensor electrical harness from clips
along body.
(4) Remove sensor using an oxygen sensor crow
foot wrench such as Snap-On tool YA8875 or equiva-
lent (Fig. 103).
(5) After removing the sensor, the exhaust mani-
fold threads must be cleaned with an 18 mm X 1.5 +
6E tap. If reusing the original sensor, coat the sensor
threads with an anti-seize compound such as Loctitet
771-64 or equivalent.
INSTALLATION
New sensors have compound on the threads and do
not require an additional coating.
(1) Install sensor using an oxygen sensor crow foot
wrench such as Snap-On tool YA8875 or equivalent
(Fig. 103). Tighten the sensor to 28 N´m (20 ft. lbs.)
torque.(2) Connect sensor electrical harness from clips
along body.
(3) Connect electrical connector from sensor.
(4) Lower vehicle.
AIR CLEANER ELEMENT
Neon vehicles do not use a heated air inlet system.
The PCM adjusts fuel injector pulse width and igni-
tion timing to compensate for different ambient tem-
peratures.
The air cleaner attaches to a bracket on the rear of
the cylinder head. An ambient air duct supplies
underhood air for the engine.
REMOVAL
(1) Remove air intake tube (Fig. 104) from air
cleaner and intake manifold (Fig. 105).
(2) Unfasten clasps on top of air cleaner housing.
Rotate front of housing forward then lift front away
from air cleaner housing (Fig. 106).
Fig. 101 Upstream Heated Oxygen Sensor Removal/
Installation
Fig. 102 Downstream Heated Oxygen Sensor
Fig. 103 Downstream Heated Oxygen Sensor
Removal/Installation
PLFUEL SYSTEM 14 - 55
REMOVAL AND INSTALLATION (Continued)

(3) Remove air cleaner element from front housing
(Fig. 106).
INSTALLATION
(1) Install air cleaner element into front housing.
(2) Rotate front of housing forward then lower into
place and locate tabs in slots. Fasten clasps on top of
air cleaner housing.
(3) Install air intake duct at air cleaner and intake
manifold.
ENGINE COOLANT TEMPERATURE SENSOR
The engine coolant temperature sensor threads
into the rear of the cylinder head (Fig. 107) or (Fig.
108).
REMOVAL
(1) With the engine cold, drain coolant until level
drops below cylinder head. Refer to Group 7, Cooling
System.
(2) Disconnect coolant sensor electrical connector.
(3) Remove coolant sensor.
INSTALLATION
(1) Install coolant sensor. Tighten sensor to 18
N´m (165 in. lbs.) torque.
(2) Attach electrical connector to sensor.
(3) Fill cooling system. Refer to Group 7, Cooling
System.
VEHICLE SPEED SENSOR
The vehicle speed sensor is located in the transmis-
sion extension housing (Fig. 109).
REMOVAL
(1) Disconnect electrical connector from sensor.
(2) Remove the sensor mounting bolt.
(3) Lift the sensor out of the transaxle extension
housing. Ensure the O-ring was removed with the
sensor.
Fig. 104 Air Intake Duct
Fig. 105 Removal/Installation of Air Inlet Duct
Fig. 106 Removal/Installation Air Cleaner Front
Housing and Element
Fig. 107 Engine Coolant Temperature SensorÐ
SOHC
14 - 56 FUEL SYSTEMPL
REMOVAL AND INSTALLATION (Continued)

INSTALLATION
The speed sensor gear meshes with a gear on the
output shaft.
(1) With O-ring in place, install sensor.
(2) Install mounting bolt.
(3) Connect electrical connector to sensor.
KNOCK SENSOR
For removal/installation procedures refer to Group
8D- Ignition System, Service Procedures.
SPECIFICATIONS
VECI LABEL
If anything differs between the specifications found
on the Vehicle Emission Control Information (VECI)
label and the following specifications, use specifica-
tions on VECI label. The VECI label is located in the
engine compartment.
TORQUE
DESCRIPTION TORQUE
Air Cleaner Wingnut..........1.5 N´m (15 in. lbs.)
Air Cleaner Mount. Stud-To-Thrott. Body .10 N´m (90
in. lbs.)
Crankshaft Position Sensor Mounting Bolts.8 N´m (70
in. lbs.)
Engine Coolant Temperature Sensor .18 N´m (165 in.
lbs.)
IAC Motor-To-Throttle Body Bolts .7 N´m (60 in. lbs.)
MAP/IAT Sensor..............2N´m(20in.lbs.)
MAP/IAT Sensor..............3N´m(30in.lbs.)
Oxygen Sensor...............28N´m(20ft.lbs.)
Powertrain Control Module (PCM) Mounting Screws.4
N´m (35 in. lbs.)
Throttle Cable Cover.........4.5 N´m (40 in. lbs.).
Throttle Body Mounting Bolts . .23 N´m (200 in. lbs.)
Throttle Position Sensor Mounting Screws .2 N´m (20
in. lbs.)
Vehicle Speed Sensor Mounting Bolt .2.2 N´m (20 in.
lbs.)
SPECIAL TOOLS
FUEL
Fig. 108 Engine Coolant Temperature SensorÐ
DOHCFig. 109 Vehicle Speed Sensor
Extractor C±4334Pressure Gauge Assembly C±4799±B
PLFUEL SYSTEM 14 - 57
REMOVAL AND INSTALLATION (Continued)

FUEL SYSTEMÐ1.8L ENGINE
CONTENTS
page
GENERAL INFORMATION
FUEL SYSTEMÐ1.8L SOHC ENGINE....... 1
GENERAL INFORMATION
FUEL SYSTEMÐ1.8L SOHC ENGINE
The fuel delivery system used on the 1.8L SOHC
engine operates the same as the fuel system used on
the 2.0L SOHC engine. It also contains the samecomponents as the 2.0L engine, and the service pro-
cedures are the same. Refer to group 14 for the 2.0L
engine in this manual for a complete description of
the fuel system and its service procedures.
PLFUEL SYSTEMÐ1.8L ENGINE 14 - 1

BINDING STICKING SEIZED
SHAKE SHUDDER VIBRATION
CONDITION POSSIBLE CAUSES CORRECTION
CATCHES, STICKS IN CERTAIN
POSITIONS OR IS DIFFICULT TO
TURN.1. Low power steering fluid level. 1. Fill power steering fluid reservoir
to specified level and perform
leakage diagnosis.
2. Tires not inflated to specified
pressure.2. Inflate tires to the specified
pressure.
3. Lack of lubrication in front
suspension control arm ball joints.3. Lubricate ball joints if ball joints
are not a lubricated for life type ball
joint. If ball joint is a lubricated for
life ball joint, replace ball joint or
control arm.
4. Lack of lubrication in front
suspension outer tie rod ends.4. Lubricate tie rod ends if they are
not a lubricated for life type. If tie rod
end is a lubricated for life type,
replace tie rod end.
5. Loose power steering pump drive
belt.5. Tighten the power steering pump
drive belt to the specified tension.
See accessory drive in service
manual.
6. Faulty power steering pump flow
control. (Verify cause using Power
Steering Pump Test Procedure.)6. Replace power steering pump.
7. Excessive friction in steering
column or intermediate shaft.7. Correct condition. (See Steering
Column Service Procedure)
8. Steering column coupler binding. 8. Realign the steering column to
eliminate the binding condition.
9. Binding upper strut bearing. 9. Correct binding condition in strut
bearing.
10 Excessive friction in steering
gear.10 Replace steering gear assembly.
CONDITION POSSIBLE CAUSES CORRECTION
VIBRATION OF THE STEERING
WHEEL AND/OR DASH DURING
DRY PARK OR LOW SPEED
STEERING MANEUVERS.1. Air in the fluid of the power
steering system.1. Steering shudder can be expected
in new vehicles and vehicles with
recent steering system repairs.
Shudder should improve after the
vehicle has been driven several
weeks.
2. Tires not properly inflated. 2. Inflate tires to the specified
pressure.
3. Excessive engine vibration. 3. Ensure that the engine is running
properly.
4. Loose tie rod end. 4. Check that the inner to outer tie
rod jam nut for is tight. If required,
tighten the jam nut to the specified
torque.
5.Overcharged air conditioning
system.5.Check air conditioning pump head
pressure. (See Air Conditioning
Refrigerant System Diagnosis)
19 - 4 STEERINGPL
DIAGNOSIS AND TESTING (Continued)

POWER STEERING PUMP
INDEX
page page
DESCRIPTION AND OPERATION
POWER STEERING PUMP................. 9
DIAGNOSIS AND TESTING
POWER STEERING SYSTEM TEST
PROCEDURE......................... 10
SERVICE PROCEDURES
POWER STEERING PUMP
FLOW CONTROL VALVE SEAL............ 11
POWER STEERING PUMP
INITIAL OPERATION.................... 11
POWER STEERING PUMP
SUCTION PORT SEAL.................. 12
POWER STEERING SYSTEM
FLUID LEVEL CHECK................... 11
REMOVAL AND INSTALLATION
POWER STEERING FLUID PRESSURE HOSE . . 13
POWER STEERING FLUID RESERVOIR...... 21POWER STEERING FLUID RETURN HOSE.... 15
POWER STEERING FLUID SUPPLY HOSE
RESERVOIR TO POWER STEERING PUMP . . 17
POWER STEERING PRESSURE SWITCH..... 12
POWER STEERING PUMP (ALL ENGINES).... 18
DISASSEMBLY AND ASSEMBLY
POWER STEERING PUMP DRIVE PULLEY.... 22
POWER STEERING PUMP MOUNTING
BRACKET............................ 23
SPECIFICATIONS
POWER STEERING PUMP FASTENER
TORQUE SPECIFICATIONS.............. 25
POWER STEERING PUMP FLOW
SPECIFICATIONS...................... 25
SPECIAL TOOLS
POWER STEERING PUMP................. 25
DESCRIPTION AND OPERATION
POWER STEERING PUMP
On all vehicles equipped with power steering, the
hydraulic pressure for operation of the power steer-
ing gear is provided by a belt driven power steering
pump (Fig. 1). The TTA power steering pump is a
constant flow rate and displacement, vane type pump
.
In the event of a power steering pump drive belt
failure, manual steering control of the vehicle can
still be maintained. However, under these conditions,
steering effort will be significantly increased.All vehicles equipped with power steering use a
remote mounted reservoir for the power steering
fluid. The power steering fluid remote reservoir is
mounted to the rear of the cylinder head on the pas-
senger side of the vehicle.
The service procedures for the TTA power steering
pump are limited to the areas and components listed
below.No repair procedures are to be done on
internal components of the TTA power steering
pumps.
²Repair of power steering fluid leaks from areas
of the power steering pump sealed by O-rings is
allowed (See Pump Leak Diagnosis). However power
steering pump shaft seal leakage will require
replacement of the pump.
²Power steering fluid reservoirs, related compo-
nents and attaching hardware.
²Power steering fluid reservoir filler cap/dipstick
assemblies.
Because of unique shaft bearings, flow control lev-
els or pump displacements, power steering pumps
may be used only on specific vehicle applications. Be
sure that all power steering pumps are only replaced
with a pump that is the correct replacement for that
specific application.
Hydraulic pressure is provided for operation of the
power steering gear by the belt driven power steering
pump id (Fig. 1). It is a constant displacement, vane
type pump. The power steering pump is connected to
the steering gear by a power steering fluid pressure
hose and return hose.
Fig. 1 TTA Power Steering Pump Assembly
PLSTEERING 19 - 9

Rectangular pumping vanes in the shaft driven
rotor, move power steering fluid from the intake to
the cam ring pressure cavities of the power steering
pump. As the rotor begins to turn, centrifugal force
throws the vanes against the inside surface of the
cam ring to pickup residual oil. This oil is then forced
into the high pressure area. As more oil is picked up
by the vanes, the additional oil is forced into the cav-
ities of the thrust plate through two crossover holes
in the cam ring and pressure plate. The crossover
holes empty into the high pressure area between the
pressure plate and the housing end cover.
As the high pressure area is filled, oil flows under
the vanes in the rotor slots, forcing the vanes to fol-
low the inside surface of the cam ring. As the vanes
reach the restricted area of the cam ring, oil is forced
out from between the vanes. When excess oil flow is
generated during high-speed operation, a regulated
amount of oil returns to the pump intake side
through a flow control valve. The flow control valve
reduces the power required to drive the pump and
holds down temperature build-up.
When steering conditions exceed maximum pres-
sure requirements, such as when the wheels are
turned against the stops. The pressure built up in
the steering gear exerts pressure on the spring end of
the flow control valve. The high pressure lifts the
relief valve ball from its seat and allows oil to flow
through a trigger orifice located in the outlet fitting.
This reduces pressure on the spring end of the flow
control valve which then opens and allows the oil to
return to the intake side of the pump. This action
limits maximum pressure output of the pump to a
safe level.
Under normal power steering pump operating con-
ditions, pressure requirements of the pump are below
maximum, causing the pressure relief valve to
remain closed.
DIAGNOSIS AND TESTING
POWER STEERING SYSTEM TEST PROCEDURE
The following procedure can be used to test the
operation of the power steering system on the vehi-
cle. This test will provide the flow rate of the power
steering pump along with the maximum relief pres-
sure. This test is to be performed any time a power
steering system problem is present to determine if
the power steering pump or power steering gear is
not functioning properly. The following pressure and
flow test is performed using Pressure/Flow Tester,
Special Tool 6815 (Fig. 2).
POWER STEERING PUMP FLOW AND
PRESSURE TEST PROCEDURE
(1) Check power steering pump drive belt tension
and adjust as necessary.
(2) Disconnect power steering fluid pressure hose,
at power steering pump. Use a container for dripping
fluid.
(3) Connect Pressure Gauge, Special Tool from kit
6815 (Fig. 3) to both hoses using adapter fittings.
Connect spare pressure hose, to power steering pump
pressure hose banjo fitting.
(4) Completely open valve on Special Tool 6815
(Fig. 3).
(5) Start engine and let idle long enough to circu-
late power steering fluid through flow/pressure test
and get air out of fluid. Then shut off engine.
(6) Check power steering fluid level, and add fluid
as necessary. Start engine again and let idle.
(7) Pressure gauge should read below 862 kPa
(125 psi), if above, inspect the hoses for restrictions
and repair as necessary. The initial pressure reading
Fig. 2 Power Steering Pump Flow/Pressure Tester
Fig. 3 Power Steering Pump Flow/Pressure Tester
Connected To Power Steering Pump
19 - 10 STEERINGPL
DESCRIPTION AND OPERATION (Continued)

should be in the range of 345-552 kPa (50-80 psi).
The flow meter should read between 1.3 and 1.4
GPM
CAUTION: The following test procedure involves
testing power steering pump maximum pressure
output and flow control valve operation. Do not
leave valve closed for more than 5 seconds as the
pump could be damaged.
(8) Close valve fully three times and record high-
est pressure indicated each time.All three read-
ings must be above specifications and within
345 kPa (50 psi) of each other.
NOTE: Power steering pump maximum relief pres-
sure is 8240 to 8920 kPa (1195 to 1293 psi.).
²If power steering pump pressures above specifi-
cations but not within 345 kPa (50 psi) of each other,
then replace power steering pump.
²If pressures within 345 kPa (50 psi) of each
other but below specifications, then replace power
steering pump.
CAUTION: Do not force the pump to operate
against the stops for more than 5 seconds at a time
because, pump damage will result.
(9) Open test valve. Turn steering wheel to the
extreme left and right positions until against the
stops, recording the highest indicated pressure at
each position. Compare pressure gauge readings to
power steering pump specifications. If highest output
pressures are not the same against either stop, the
steering gear is leaking internally and must be
replaced.
SERVICE PROCEDURES
POWER STEERING SYSTEM FLUID LEVEL CHECK
WARNING: FLUID LEVEL SHOULD BE CHECKED
WITH ENGINE OFF TO PREVENT INJURY FROM
MOVING PARTS. DO NOT USE AUTOMATIC TRANS-
MISSION FLUID IN THE POWER STEERING SYS-
TEM. DO NOT OVERFILL THE POWER STEERING
SYSTEM.
Wipe reservoir filler cap free of dirt. Then check
fluid level. The dipstick should indicate COLD when
fluid is at normal ambient temperature, approxi-
mately 21ÉC to 27ÉC (70ÉF to 80ÉF). In all pumps add
fluid as necessary, use onlyMopar Power Steering
Fluid, or equivalent. DO NOT USE ANY TYPE
OF AUTOMATIC TRANSMISSION FLUID.
POWER STEERING PUMP INITIAL OPERATION
CAUTION: The fluid level should be checked with
engine off to prevent injury from moving compo-
nents. Use only MoparTPower Steering Fluid. Do
not use automatic transmission fluid. Do not over-
fill.
Wipe filler cap clean, then check the fluid level.
The dipstick should indicateFULL COLDwhen the
fluid is at normal temperature of approximately 21ÉC
to 27ÉC (70ÉF to 80ÉF).
(1) Fill the pump fluid reservoir to the proper level
and let the fluid settle for at least two (2) minutes.
(2) Start the engine and let run for a few seconds.
Then turn the engine off.
(3) Add fluid if necessary. Repeat the above proce-
dure until the fluid level remains constant after run-
ning the engine.
(4) Raise the front wheels off the ground.
(5) Start the engine. Slowly turn the steering
wheel right and left, lightly contacting the wheel
stops.
(6) Add power steering fluid if necessary.
(7) Lower the vehicle and turn the steering wheel
slowly from lock to lock.
(8) Stop the engine. Check the fluid level and refill
as required.
(9) If the fluid is extremely foamy, allow the vehi-
cle to stand a few minutes and repeat the above pro-
cedure.
POWER STEERING PUMP FLOW CONTROL VALVE
SEAL
The power steering pump does not require removal
from the engine for removal and replacement of the
flow control valve fitting O-Ring.
REMOVE
(1) Remove the power steering fluid pressure hose
from the power steering pump pressure fitting (Fig.
4).
(2) Remove the flow control valve fitting from the
power steering pump housing (Fig. 5).Prevent flow
control valve and spring from sliding out of
housing bore.
(3) Remove and discard O-ring seal from fitting.
INSTALL
(1) If necessary, clean and install flow control
valve and spring in pump housing bore.
(2) Install new O-ring seal on fitting.
(3) Install fitting in pump housing and tighten to
75 N´m (55 ft. lbs.)
(4) Install power steering fluid pressure hose on
flow control valve fitting.
PLSTEERING 19 - 11
DIAGNOSIS AND TESTING (Continued)

(5) Position locating pin on power steering pres-
sure hose banjo fitting so it is against power steering
pump mounting bracket (Fig. 4). While holding locat-
ing pin against power steering pump bracket, torque
banjo bolt to 34 N´m (25 ft. lbs.).
POWER STEERING PUMP SUCTION PORT SEAL
The power steering pump does not require removal
from the engine for removal and replacement of the
suction port O-Ring seal.
REMOVE
(1) Remove power steering fluid supply hose from
power steering pump suction port fitting (Fig. 6).
(2) Remove bolt (Fig. 6) attaching power steering
pump suction port fitting to the power steering
pump.
(3) Remove the suction port fitting (Fig. 6) from
the power steering pump.(4) Remove and discard O-ring seal from suction
port fitting.
INSTALL
(1) Install new O-ring seal on suction fitting.
(2) Install suction port fitting in power steering
pump. Install and securely tighten the suction port
fitting attaching bolt.
(3) Install power steering fluid supply hose on suc-
tion port fitting, being sure hose clamp is installed on
hose past upset bead on suction port fitting.
REMOVAL AND INSTALLATION
POWER STEERING PRESSURE SWITCH
On vehicles equipped with power steering, a power
steering pressure switch is used to improve the vehi-
cle's idle quality. The pressure switch improves vehi-
cle idle quality, by controlling engine idle speed when
required.
The pressure switch functions by signaling the
power train control module, that the power steering
system is putting additional load on the engine. This
type of condition exists when turning the front tires
of the vehicle, when the vehicle is stationary and the
engine is at idle speed. When this condition is sensed
by the power train control module, through a signal
from the power steering pressure switch, engine idle
speed is increased. This increase in engine idle speed
compensates for the additional load, thus maintain-
ing the require engine idle speed and idle quality.
The power steering pressure switch (Fig. 7) is
mounted directly to the power steering gear on vehi-
cle's requiring its usage.
Fig. 4 Pressure Hose Attachment To Power Steering
Pump
Fig. 5 Pump Discharge And Flow Control Valve
Fitting
Fig. 6 Power Steering Pump Suction Port Fitting
19 - 12 STEERINGPL
SERVICE PROCEDURES (Continued)