1987 NISSAN PULSAR ABS

Fuel and Engine Management 83
the fuel pump will not operate until the oil
pressure is sufficient to extinguish the oil
pressure warning lamp. Therefore it will be
necessary to operate the starter motor for a
longer period than usual to start the engine.

(3) Faulty EFI component wiring connections:
Check that all component wiring connections are
clean and secure.
(4) Manifold absolute pressure (MAP) sensor
vacuum hose blocked or disconnected: Clear or recon-
nect the vacuum hose. (5) Fault in the ignition system: Check the
primary and secondary ignition circuits.
(6) Engine flooded: Fully depress the throttle
pedal until the engine starts. Check the coolant
temperature sensor. Check th e injector(s) for leakage.
ENGINE STARTS THEN STALLS

(1) Water in the fuel: Dr ain the fuel from the
system and renew the fuel filter.
(2) Air leakage at the inlet manifold: Check all
joints and hoses for air leaks. (3) Faulty EFI wiring connections: Check that
all component wiring connections are clean and
secure.
(4) Ignition timing incorrectly set: Check and
adjust the timing. (5) MAP sensor faulty or supply hose discon-
nected or blocked: Check the vacuum supply hose.
Check the operation of the MAP sensor.
ENGINE MISFIRES

(1) Faulty, dirty or incorrectly adjusted spark
plugs: Renew or clean and adjust the spark plugs.
(2) Condensation in the distributor cap: Dry and
examine the cap for cracks. (3) Faulty high tension leads: Check and renew
the high tension leads.

Testing the fuel system pressure using a pressure
gauge.
(4) Faulty ignition coil: Check and renew the
ignition coil.
(5) Fuel blockage: Check for blockage in the fuel
filter, lines and injector(s). (6) Low fuel pressure: Check the fuel pump and
fuel pressure regulator. (7) Water in the fuel: Dr ain the fuel from the
system and renew the fuel filter. (8) Loose fuel supply wiring connectors: Check
all connectors for tightness. (9) Faulty fuel injector: Check the connections
and test the condition of the fuel injectors.
ENGINE LACKS POWER

(1) Ignition timing incorrectly set: Check and
adjust the timing.
(2) Water in the fuel: Dr ain the fuel from the
system and renew the fuel filter.
(3) Incorrectly adjusted throttle cable: Adjust the
throttle cable.



Check the distributor cap for cracks or tracking be- tween the terminals. The air filter element should be renewed at 40 000 km
intervals. 1.8 liter engine.

\(V2 Fuel and Engine Management


View of the IAC valve removed from the engine. Dimension A must not exceed 28 mm.
(3) Lubricate the IAC valve O ring with engine
oil and install the IAC valve. Tighten the retaining
screws securely.

(4). Install the IAC valve wiring connector and
the negative battery terminal.

(5) On 1.6 liter engines, install the air cleaner
assembly as previously described. (6) Run the engine until normal operating tem-
perature and idle speed are attained.
NOTE: Several minutes may elapse before
the normal idle speed is attained.

(7) Hold the throttle open at approximately
3 000 rpm for 10 seconds to reset the IAC valve.

MANIFOLD ABSOLUTE PRESSURE (MAP)
SENSOR

To Test - Codes 33 and 34
NOTE: The following test procedure
assumes that fault codes 33 or 34 have
been
displayed during the self diagnosis test
pro-
cedure. If no codes have been displayed
but
the operation of the MAP sensor is suspect,
begin the test procedure at operation (15).
(1) Erase the self diagnosis code memory as
previously described.
(2) Start and run the engine at idle speed for 60
seconds or until the ECM warning lamp lights.
(3) Stop the engine, switch the ignition On and
connect a jumper lead between terminals A and B on
the diagnostic link connector. Note any fault codes
displayed. If code 34 is displayed, remove the jumper lead
from the diagnostic link connector, erase the self
diagnosis codes and proceed to operation (7).

If code 33 is displayed, remove the jumper lead
from the diagnostic link connector, erase the self
diagnosis code memory and proceed to operation (4).

If no codes are displayed, but codes 33 or 34
were
displayed when the self diagnosis test procedure was
originally performed, an intermittent fault is indi-
cated. Proceed as follows:

(a) Check for faulty wiring connections. Check
that all wiring connectors are clean and secure. (b) Check that all earth wires are secure.
(c) Check the vacuum hose to the MAP sensor
for deterioration or restriction.
(4) Disconnect the wiring connector from the
MAP sensor. (5) Start and run the engine at idle speed for 60
seconds or until the ECM warning lamp lights. (6) Stop the engine, switch the ignition On and
connect a jumper lead between terminals A and B on
the diagnostic link connector. Note any fault codes
displayed.
If code 33 is displayed, measure the voltage at
the
MAP sensor wiring connector terminal B with a
voltmeter to earth. Renew the control unit if the
voltage is less than 1 volt.

If the voltage is more than 1 volt, check the
wiring
harness for a short to voltage between terminal B and
the control unit wiring connector terminal Cll.
Repair or renew the wiring harness as necessary.

If code 34 is displayed, proceed as follows:
(a) Check for a restricted or leaking MAP sensor
vacuum hose.
(b) Check the wiring harness for continuity and
shorts between terminals A on the MAP sensor
connector and terminal A11 on the control unit wiring
connector. Repair or renew the wiring harness as
necessary.
If no faults are indicated in the above two checks,
proceed to operation (15).

(7) Disconnect the wiring connector from the
MAP sensor and connect a jumper lead between
terminals B and C on the wiring connector. (8) Start and run the engine at idle speed for 60
seconds or until the ECM warning lamp lights. (9) Stop the engine, switch the ignition On and
connect a jumper lead between terminals A and B on
the diagnostic link connector. Note any fault codes
displayed.
If code 33 is displayed, proceed to operation (15).
If code 34 is displayed, proceed as follows.

Location of the MAP sensor. Inset shows the terminal
identification.

117
EMISSION CONTROL
INTRODUCTION
To reduce the output level of the three primary
automotive emissions, carbon monoxide (CO), hydro-
carbons (HC) and oxides of nitrogen (NOx), and thus
comply with legislation on the maintenance of clean
air, several different emissi on control systems are used
in the Pulsar range of vehicles covered by this manual.

The systems will be discussed under the headings
( 1 ) Crankcase Ventilation System, (2) Evaporative
Control System, (3) Air Preheat System — 1.6 Liter
Engine and (4) Exhaust Control System.

1. CRANKCASE VENTILATION SYSTEM
DESCRIPTION
The crankcase ventilation system is of the closed
type and is designed to prevent crankcase vapors
being emitted into the atmosphere. Crankcase
vapors are caused by gases escaping past the piston
rings into the crankcase during the combustion pro-
cess.

The crankcase vapors are collected in the cam-
shaft housing from the cra nkcase via the various oil
drain passages and the pipe from the side of the
crankcase.


The crankcase vapors are then drawn into the
engine via a branched hose connected to the camshaft
housing oil baffle and the throttle body (1.8 liter
engines) or inlet manifold (1.6 liter engines).

At idle speed, vapors are drawn through the
small branch of the hose and into the engine.

As the engine speed increases, vapors are also
drawn into the engine via the main hose.

TO SERVICE THE SYSTEM
(1) At intervals of 40 000 km, disconnect the
small engine ventilation hose from the throttle body
or inlet manifold and check that the metering orifice
is not blocked.

If necessary, clean the orifice using compressed air
and solvent.

(2) Disconnect all the engine ventilation hoses
and check for blocking, collapsing and deterioration.
Renew the hoses as necessary.

2. EVAPORATIVE CONTROL SYSTEM
Special Equipment Required:
To Test Purge Valve — Hand vacuum pump
DESCRIPTION
The evaporative control system reduces the
amount of hydrocarbons emitted to the atmosphere
through fuel evaporation.

The vehicles covered by this manual use an
absorption regeneration system to reduce vapor loss.
The system utilizes a canister of activated charcoal to
trap and hold the fuel vapors until they can be fed
into the induction system for burning in the combus-
tion chambers.

The basic components of the evaporative control
system are a fuel tank with a sealed filler cap, a
charcoal canister with a pur ge control valve, a fuel
check valve and pipes a nd hoses to connect the
various components.

NOTE: The fuel tank filler cap is not vented
to the atmosphere but is equipped with a one
way relief valve to prevent a vacuum form-
ing in the fuel tank.
View of the engine ventilation hoses and pipe. 1.8 liter
engine.

Manual Transaxle and Drive Shafts 139

SNAP RING
Assembled view of the inner C.V. joint.
(10) Slide the large end of the inner C.V. joint
boot over the inner C.V. joint housing and locate the
boot in the groove in the housing.
(11) Pull the C.V. joint until the boot is the
normal length. Deformation of the boot could occur if
this operation is neglected. (12) With no vacuum or pressure present in the
C.V. joint boot, install the two C.V. joint boot
retaining clips.

Install the C.V. joint retain ing ring into the C.V. joint
housing. Ensure that the retaining ring is correctly
seated.
NOTE: Ensure that the retaining dips are
securely installed preven ting the entry of
damaging dust or water and that the lock
tabs on the retaining clips are correctly bent
over.

(13) Install the remaining snap ring onto the inner
C.V. joint housing shaft and install the drive shaft to
the vehicle as previously described.

147
PART 2. MANUAL STEERING
SPECIFICATIONS
Steering gear type ............................ Rack and pinion
Steering column type ...................... Energy absorbing
collapsible and tilt adjustable
Steering wheel free play

(maximum ) ...................................................... 35 mm
Linkage........................... Direct from rack ends to t i e
rods and steering knuckles
Turns lock to lock ................................................. 3.6
Steering column length .................. 534.7-537.3 mm
Steering gear lubricant.............. Castrol EPL 1 grease
TORQUE WRENCH SETTINGS
Steering wheel retaining nut ............................ 39 Nm
Steering gear to bulkhead
mounting bolts .............................................. 108 Nm
Tie rod to steering knuckle nut...................... 98 Nm
Tie rod to tie rod end locknut ....................... 98 Nm
Tie rod ball housing to rack............................ 88 Nm
Steering column to mounting
bracket bolt ...................................................... 14 Nm
Steering column universal
coupling joint pinch bolts ............................... 29 Nm
2. STEERING WHEEL
Special Equipment Required:
To Remove Steering Wheel - Steering wheel
puller

TO REMOVE AND INSTAL
(1) Disconnect the negative battery terminal.
(2) Using a small screwdriver, carefully prise the
centre ornament from the steering wheel.

View of the steering wheel removed from the vehicle.
Steering wheels may vary between models.

1. DESCRIPTION
The steering gear is a rack and p i n i o n type
which is mounted on the lower section of the engine
compartment bulkhead by rubber mountings and
brackets.

The design of this assembly requires a range of
special tools to dismantle and assemble the steering
gear. If the steering gear is found to have a fault which
requires overhaul of the rack and pinion, it is recom-
mended that this be performed by an authorized work-
shop or steering specialist.

However, the procedures for the removal and
installation of the steering gear and the renewal of the
tie rods, the tie rod ends and the rubber boots are fully
covered in this section.

The rack and pinion assembly requires no lubri-
cation during service.

The steering column is of the energy absorbing
type designed to compress in the event of a severe
front end collision. The energy absorbing units are the
outer steering column, the tilt bracket and the steering
shaft. All these units shoul d be handled with extreme
care if service operations are performed on the
steering column assembly.

(3) Remove the steering wh eel retaining nut and
mark the steering shaft and steering wheel hub in
relation to each other as an aid to assembly.
(4) Remove the steering wheel from the steering
shaft.
NOTE: If the steering wheel will not sepa-
rate from the steering shaft, loosen the horn
pad retaining screws at the rear of the
steering wheel and withdraw the horn pad
after disconnecting the wire. A puller can
now be used to pull the steering wheel from
the steering shaft. Do not strike the end of
the steering shaft as sharp blows can cause
irreparable damage to the collapsible steer-
ing shaft.

(5) If necessary the steering wheel can be dis-
mantled as shown in the illustration.

Installation is a reversal of the removal procedure
with attention to the following points:

(1) Apply a light coat of multipurpose grease to
the horn slip ring and the turn signal canceling pins.
(2) Ensure that the marks on the steering wheel
and steering shaf t are aligned.
(3) Tighten the steering wheel retaining nut to
the specified torque.

152
PART 3. POWER STEERING
SPECIFICATIONS
Steering gear type ................Rack and pinion with
integral power cylinder
Steering column type .................... Energy absorbing
collapsible and lilt adjustable
Steering wheel free play ................................. 35 mm
Number of turns lock to lock:
TRW ...............................................................2.82
PR24SA ........................................................... 2.7
Linkage.....................................Direct from rack ends
to ti e rods and steering knuckles
Power steering pump

maximum pr essure.................................... 6 865 kPa
Lubricant ...................................................... Dexron II
TORQUE WRENCH SETTINGS
Steering gear to bulkhead mounting bolts... 108 Nm
Tie rod to steering knuckle nut ...................... 98 Nm
Tie rod to tie rod end locknut....................... 98 Nm
Tie rod ball housing to rack............................ 88 Nm
Power steering pump pulley nut ..................... 68 Nm
1. DESCRIPTION
The vehicles covered by this manual are equipped
with either a TRW power steering system or a
Japanese PR24SA power steering system.

Both types are similar in construction and appear-
ance.

The power steering is a rack and pinion type
which is mounted on the lower section of the engine
compartment bulkhead by rubber mountings and
brackets.

Hydraulic pressure is supplied to the power
steering gear by a pump driven by a drive belt from
the engine.

The power steering pump has a separate fluid
reservoir located on the righ t side of the bulkhead.

No lubrication of the steering gear or steering
pump is required in service and in the event of the
loss of power assistance, the steering will continue to
operate but will require a greatly increased effort.
However, as the steering gear and pump are lubricated
by the power steering fluid, the cause of the loss of
power steering or fluid loss must be determined and
repaired promptly to prevent damage to the steering
pump and to a lesser extent, the steering gear.

The t i e rod ends and rubb er boots can be renewed
without removing the steering gear from the vehicle.
To renew the integral t i e rod and tie rod ball housings,
the steering gear must be removed.

As specialist knowledge and equipment are re-
quired to overhaul the power steering gear and the

hydraulic pump, it is recommended that these op-
erations be carried out by an authorized dealer.
However, procedures for the removal and installa-
tion of the steering gear and pump are fully de-
scribed in this section.

The steering column is of the energy absorbing
type and is designed to collapse in the event of a
severe front end collision. The energy absorbing com-
ponents are the column tu bes, steering shaft and tilt
bracket breakaway capsules. All these components
should be handled with extr eme care if service opera-
tions are to be carried out on the steering column
assembly.

2. IN CAR ADJUSTMENTS, CHECKS AND
MINOR REPAIRS

If the power steering system becomes partially or
fully inoperative it is most important that the follow-
ing preliminary inspection and testing procedure be
performed prior to undertaking any trouble shooting
or repair operations.

PUMP DRIVE BELT
Inspect the pump drive belt for breakage, glazing
or wear. If any of these characteristics are evident,
renew the belt using only a genuine replacement.

If the belt is loose but still serviceable, adjust it
using the procedure outlined in the Engine Tune-up
section.

NOTE: In most cases a loose drive belt can
be heard squealing when a load is placed on
the pump as the steering wheel is turned or
as the engine speed is increased.

Checking the power steering pump drive belt for
deterioration.

Steering — Part 3 155
(4) Support the rack carefully and lever back the
tabs of the ball housing lock washers. To prevent
damage to the steering gear, avoid any impact to the
steering rack.
(5) Holding the rack with an adjustable spanner,
unscrew the ball housings from the rack using a
Stillsons wrench. Remove and discard the lock wash-
ers. Installation is a reversal of the removal procedure
with attention to the following points:

(1) Install the new lock washer to the
rack,
ensuring that the lockwasher tangs are located in the
rack end. (2) Install the ball housing as semblies to the rack.
Tighten the ball housings to the specified torque and
secure by bending the lock washer. (3) Before installing the rubber boots ensure that
the vent holes, located towards each end of the rack
near the ball housings, are clear. If necessary clear the
hole with a suitable probe. (4) Apply sealant to the la rge end of the rubber
boot and grease to the small end. and install the boots,
being careful not to damage or twist them. Secure the boots with the clamps and clip
s ensuring that the clips
are facing downwards.

(5) Install the t i e rod end locknuts and tie rod
ends to the t i e rod. Install the t i e rod ends the same
number of turns noted on removal. Tighten the lock-
nuts to the specified torque.

Install the power steerin g gear assembly to the
vehicle as described under the previous heading and
bleed the system as described under the heading In
Car Adjustments, Checks and Minor Repairs.

TO RENEW RUBBER BOOTS
The procedure to renew the rubber boots is fully
covered in the Manual Steering section under the
Steering Gear Assembly heading.

TO RENEW TIE ROD ENDS
The procedure to renew the t i e rod ends is fully
covered in the Manual Steering section under the
Steering Gear Assembly heading.

156
FRONT SUSPENSION
SPECIFICATIONS
Type.................. Independent MacPherson strut with
coil springs and control arms
Shock absorber .................. Hydraulic, non-repairable
Hub bearing end float (maximum) ............. 0.05 mm
Ball joint axial play (maximum) ....................0.7 mm
Ball joint turning torque (used)...............0.5-4.9 Nm
Wheel alignment:
Toe in ..................................................... 0-2 mm
Camber ........................................- 0 ° 1 0 ' ± 4 5 '
Caster ..............................................1 ° 1 0 ' ± 4 5 '
King pin inclination..................... 1 3 ° 5 5 ' ± 4 5 '
TORQUE WRENCH SETTINGS
Hub bearing nut..................................... 196-235 Nm
Suspension unit to steering knuckle nut ...... 118 Nm
Suspension unit to body nuts ......................... 29 Nm
Piston rod nut .................................................. 72 Nm
Brake caliper to steering knuckle bolts ........... 52 Nm
Ball joint to steering knuckle bolt ................... 86 Nm
Control arm bracket bolts ............................... 98 Nm
Control arm pivot bolt ................................ 118 Nm
Stabiliser bar link nuts..................................... 44 Nm
Stabiliser bar bracket bolts .............................. 21 Nm
1. FRONT SUSPENSION TROUBLE
SHOOTING

FRONT END NOISE
(1) Loose upper suspension mounting or piston
rod: Tighten the mounting or piston rod nuts. (2) Loose or worn suspension unit lower ball
joint: Tighten or renew the lower ball joint.
(3) Noise in the suspension unit: Renew the
faulty suspension unit, preferably in pairs.
(4) Worn or loose steering gear: Overhaul the
steering gear assembly. (5) Worn front hub bearings: Renew the hub
bearings:
(6) Loose or defective stab ilizer bar, control arm
or mountings: Check, tighten or renew the mounting
rubbers.

Check the ball joints for wear and deterioration.
(7) Worn stabilizer bar link ball joints: Renew
the stabilizer bar links.
(8) Drive shafts worn or insufficiently lubri-
cated: Check the lubricant and the dust boots and
renew as necessary. (9) Drive shaft splines in the hub or the
differential worn or dama ged: Check and renew as
necessary.

NOTE: To check the front suspension com-
ponents for wear, raise the front of the
vehicle, support it on chassis stands and
allow both front wheel to hang free. With an
assistant pushing and pulling the front
wheels in and out at the top and then at the
bottom, check for excessive looseness at the
front hub bearings and lower control arm
inner pivot bushes. Noise or vibration in the
front end can also be caused by excessive
tire or wheel unbalance. Drive shaft joint
noise is usually more pronounced when
moving slowly with the steering on full lock.

POOR OR ERRATIC ROAD HOLDING
ABILITY

(1) Low or uneven tire pressures: Inflate the
tires to the recommended pressures.

(2) Defective suspension unit: Renew the faulty
unit, preferably in pairs.