1987 NISSAN PULSAR ECU

Engine 65
(4) Hold the nut and remove the mounting
through bolt. (5) Remove the bolts retaining the mounting to
the transaxle and maneuver the mounting from the
engine compartment. (6) If necessary remove the bolts retaining the
support bracket to the inner mudguard and withdraw
the support bracket. Installation is a reversal of the removal procedure
ensuring that the weight of the engine is bearing on
the engine mounting before tightening the through
bolt securely.

TO RENEW RIGHT HAND SIDE MOUNTING
(1) Disconnect the negative battery terminal.
(2) On 1.8 liter models, remove the air cleaner
assembly. Refer to the Fuel and Engine Management
section if necessary. (3) Support the engine under the sump using a
jack. Interpose a block of wood between the head of
the jack and the sump to prevent damage.
(4) Hold the nut and remove the mounting
through bolt and rubber. (5) Remove the bolts retain ing the mounting to
the inner mudguard and maneuver the mounting
from the engine compartment. (6) If necessary, remove the nuts and bolts
retaining the support brackets to the engine assembly
and withdraw the support brackets.

Installation is a reversal of the removal procedure
ensuring that the weight of the engine is bearing on
the engine mounting before tightening the through
bolt securely.

TO RENEW FRONT TORQUE DAMPER
(1) Raise the front of the vehicle, remove the
splash guard fasteners and remove the splash guard(s)
from the front of the vehicle.
(2) Remove the through bolts and nuts from the
torque damper.
NOTE: It may be necessary to unclip the
wiring harness from the lower radiator sup-
port panel to gain access to the front through
bolt.


Dismantled view of the front torque damper. The arrow of the engine bracket must face upwards.
(3) Withdraw the torque damper from the
engine.
(4) If necessary the support brackets can be
removed. Installation is a reversal of the removal procedure
ensuring that the arrow on the engine bracket faces
upwards.

TO RENEW REAR ENGINE MOUNTING AND
TORQUE DAMPER

Automatic and manual transaxle models both use
a similar rear engine moun ting with different support
brackets. Manual transaxle models use a rear torque
damper.

(1) Raise the front of the vehicle and support it
on chassis stands. (2) Remove the stabilizer bar mounting bracket
bolts and allow the rear of the stabilizer bar to hang
down slightly. (3) Remove the nuts and bolts retaining the
engine crossmember to the vehicle underbody and
withdraw the crossmember from the vehicle.
Dismantled view of the right hand side engine mount-
ing assembly.

66 Engine

View of the rear engine mounting. Automatic transaxle models.
(4) Remove the bolt retaining the exhaust
mounting to the engine mounting bracket. (5) Remove the engine mounting through bolt.
(6) Remove the bolts and nuts retaining the
engine mounting to the floor panel and remove the
mounting from the vehicle.
(7) On manual transaxle models, the torque
damper can be removed after removal of the through
bolts and nuts. (8) If necessary, remove the bolts retaining the
support bracket to the engine and withdraw the
support bracket.
Installation is a reversal of the removal procedure.

14. EXHAUST SYSTEM
TO REMOVE AND INSTAL

Engine Pipe
(1) Raise the front of the vehicle and support it
on chassis stands. (2) Remove the nuts retaining the engine pipe to
the exhaust manifold flange.

NOTE: It is advisable to soak all exhaust
system nuts and bolts wi th penetrating oil to
prevent breakage when removing.

(3) Remove the bolts from the flexible joint and
withdraw the engine pipe from the vehicle. Discard
the gasket.

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

(1) Clean any carbon build up from the exhaust
flange and pipe joints. (2) Inspect the condition of the flexible joint
spring. Renew the engine pipe assembly if necessary. (3) Use a new exhaust manifold flange gasket
and coat the manifold studs with anti-seize com-
pound. (4) Ensure that all nuts and bolts are tightened
securely.
Rear System

(1) Raise the front and rear of the vehicle and
support it on chassis stands. (2) Loosen the clamp securing the tailpipe and
muffler assembly to the rear pipe. (3) Remove the mounting bolts and slide the
tailpipe and muffler assembly from the rear pipe.
NOTE; Should difficulty be experienced
when separating the exhaust pipes, they
may be cut with a hacksaw or pipe cutter if
a replacement system is to be installed.

If heat is used to loosen frozen joints take
extreme care near floor panels, fuel and
brake lines or electrical wiring.

(4) Remove the bolts from the intermediate pipe
and rear pipe mountings and lower the exhaust
system. Use care not to drop the catalytic converter.
(5) If necessary the cataly tic converter can be
removed from the intermediate pipe and the rear pipe
assembly by removing the retaining bolts.

Underbody view of the exhaust system. Underbody view of the tailpipe and muffler.

Cooling and Heating Systems 71

TO DRAIN AND REFILL
(1) Place a drain tin under the radiator drain
plug.
(2) Switch the heater controls to the maximum
heat position. (3) Remove the radiator cap and open the
radiator drain plug.
(4) Disconnect the reserve tank hose from the
radiator filler neck. (5) Lower the end of the hose and drain the
coolant from the reserve tank. (6) After all the coolant has drained from the
cooling system, install the radiator drain plug
ensuring
that the plug seal is in good condition. (7) Disconnect the wire from the temperature
sender switch and remove the switch using a suitable
spanner.
(8) Using a clean container, mix Nissan long life
coolant with clean soft water to the proportions
stipulated on the coolant container.
(9) Slowly pour the premixed coolant into the
radiator until the radiator is full and all air has
escaped through the temperat ure sender switch hole.
Install the radiator cap. (10) Fill the coolant reserve tank to the Maxi-
mum mark.
(11) Start the engine and allow it to idle.
(12) When coolant starts to flow through the
temperature sender switch hole, install the temperature
sender switch and tighten securely. (13) Continue idling the engine until the cooling
fan is activated.
(14) Switch the engine off and allow it to cool.
(15) Refill the radiator using coolant and install
the radiator cap.

Dismantled view of the radiator and associated components. Automatic transaxle model with
air conditioning.

Cooling and Heating Systems 75
(4) Remove the bolts retaining the fan shroud
assembly to the radiator and carefully move the
shroud assembly upwards and towards the engine to
release it from the lower mountings.

NOTE: On models with air conditioning, it
will be necessary to hold the air conditioning
compressor hoses toward s the engine to
allow clearance for removal of the shroud
assembly.

(5) If necessary, remove the fan from the fan
motor by removing the retaining bolts or on some
models the nut and washers.
(6) If necessary, remove the fan motor from the
shroud assembly by removing the retaining bolts or
nuts. Installation is a reversal of the removal procedure
with attention to the following points:

(1) Ensure all the fan motor and fan retaining
nuts and bolts are tightened securely. (2) Ensure that all the rubber mountings are in
good condition. Installation is a reversal of the removal procedure
with attention to the following points:

(1) Ensure that all sealing surfaces are clean.
(2) Renew the O ring on installation.
(3) Tighten the thermostat cover retaining bolts
securely.
(4) Fill the cooling system as previously de-
scribed ensuring that the heater control lever is in the
maximum heat position. Check for coolant leaks.
TO CHECK

NOTE: A visual examination of the thermo-
stat will often determine its serviceability
and make further testing unnecessary. For
instance, a thermostat with its valve fully-
open when removed from a cold engine is
obviously faulty and should be renewed.

Remove the thermostat from the thermostat
6. THERMOSTAT
Special Equipment Required:
To Check — Thermometer

TO REMOVE AND INSTAL
(1) Drain the cooling system as previously de-
scribed under the Radiator heading.
(2) On 1.6 liter models, remove the air cleaner
assembly. Refer to the Fuel and Engine Management
section if necessary. (3) Disconnect the top radiator hose from the
thermostat cover.
(4) Remove the bolts retaining the thermostat
cover to the thermostat housing. (5) Remove the thermostat cover, thermostat
and O ring from the thermostat housing.
NOTE: The thermostat and cover are ser-
viced as a unit and cannot be renewed
separately.


View of the thermostat removed from the vehicle and dismantled for testing. Line drawing showing the correct method to test the
thermostat.

(4) Progressively heat the mixture noting the
temperature reading on the thermometer as the ther-
mostat valve commences to open and when it is fully
open.

See the Specifications for opening and fully open
temperatures.

A thermostat which is not opening or is not open
at the specified temperatures should be renewed.

Cooling and Heating Systems
11. BLOWER FAN
TO REMOVE AND INSTAL
(1) Disconnect the negative battery terminal.
(2) Working below the glov e compartment, dis-
connect the wiring connector to the blower fan motor.
(3) Remove the bolts retaining the blower fan
motor and carefully lower the motor while disconnect-
ing the drain hose.

Installation is a reversal of the removal procedure
with attention to the following points:
( t ) Tighten all bolts securely.
(2) Check that the blow er fan operates correctly.

Dismantled view of the blower fan and associated
components.
12. AIR CONDITIONING
DESCRIPTION
The air conditioning system, when used in con-
junction with the heater, enables any reasonable tem-
perature to be achieved inside the vehicle. It can also
reduce the humidity of the incoming air, aiding
demisting even when cooling is not required.

The basic components of the air conditioning sys-
tem are an evaporator, co ndenser, compressor, re-
ceiver/dryer, expansion valve and pipes and hoses
carrying the refrigerant through the system. Various
subsidiary controls and sensors are also utilized to
protect the system against low or high pressure and
excessive temperature.

The refrigerant will boil at a very low tempera-
ture (-33 deg C) and therefore must be contained
under pressure. Escaping refrigerant can cause frost-
bite and eye damage and will produce a poisonous gas
when burnt. Also, if the system suffers a rapid loss of
refrigerant, oil from the compressor may be carried
out with the refrigerant. It is recommended that any
work requiring disconnection of the components be
referred to an au thorized dealer.

In the event of major repair s to the vehicle such as
engine removal, the compress or hoses are of sufficient


Schematic diagram of a typical air conditioning
system.
length to allow the compressor to be removed as the
engine is lowered from the engine compartment with-
out disturbing any refrigerant line connections.

If the operation of the air conditioning system is
in doubt, it is recommended that the vehicle be taken
to an authorized dealer for testing and repair.

TO CHECK REFRIGERANT CHARGE
(1) Start the engine and operate the air condi-
tioner on maximum cooling for a few minutes.
(2) Observe the flow of refrigerant through the
sight glass located at the top of the receiver/dryer. On
some models it may be necessary to use a mirror to
see the sight glass. (3) If the system is operating correctly, the sight
glass will be clear during the operation of the com-
pressor. Occasional bubbles may be seen when the
compressor cycles on and off during operation, but a
NUT j-
Bubbles in the sight glass when the air conditioner is
operating indicates a low refrigerant charge.

82
FUEL AND ENGINE MANAGEMENT
CAUTION: To prevent severe electrical shock, extreme care must be taken when
working on or near the electronic ignition system as dangerous high tension voltages
are produced in both the primary and secondary circuits. See the text fo\
r
precautionary notes.

SPECIFICATIONS
FUEL INJECTION
Type:
1.6 liter engine .................................. Single point
1.8 liter engine................................... Multi point
FUEL PUMP
Type ................................................................ Electric
Pressure at idle:
1.6 liter engine ..................................... 62-90 kPa
1.8 liter engine ................................ 190-230 kPa
FUEL FILTER
Type ................................................ Inline, disposable
AIR FILTER
Type ................................... Disposable paper element
DISTRIBUTOR
Make ........................................................ Delco Remy
Advance contro l .......................................... Electronic
Rotation of rotor .................................. Anti-clockwise
Firing order....................................................1 -3-4-2
ADJUSTMENTS
Base idle speed ..................................... 550-650 rpm
Ignition timing.......................................... 10° BTDC
TORQUE WRENCH SETTINGS
Throttle body nuts.......................................... 10 Nm
*Throttle body bolts ........................................ 12 Nm
*Fuel hose fittings............................................ 35 Nm
Fuel rail bolts ....................................................8 Nm
Fuel tank drain plug ........................................ 24 Nm
Coolant temperature sensor ............................ 12 Nm
Oxygen sensor .................................................. 40 Nm
MAT sensor..................................................... 14 Nm
*1.6 liter engine
l . 8 liter engine

1. FUEL AND ENGINE MANAGEMENT
TROUBLE SHOOTING

NOTE: The following Trouble Shooting pro-
cedures are basic checks only. If these pro-
cedures fail to locate the fault, refer to the
System Diagnosis and Adjustments heading
for more thorough testing.

Prior to performing any of the following
operations, refer to the Service Precautions
and Procedures heading.

ENGINE WILL NOT START OR HARD TO
START
(1) Water in the fuel: Dr ain the fuel from the
system and renew the fuel filter.
(2) Fault in the power supply: Check the battery,
fusible links and fuses. Check for clean, secure con-
nections, particularly the earth connections. Check the
EG1 and fuel pump relays.
NOTE: If the fuel pump relay fails, power
will be supplied to the fuel pump via the oil
pressure switch. When starting the engine,


Check that the MAP sensor hose is not blocked or split
and ensure that all electrical connections are clean and
secure.

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.

Fuel and Engine Management
(4) MAP sensor faulty or supply hose discon-
nected or blocked: Check the vacuum supply hose.
Check the operation of the MAP sensor.

EXCESSIVE FUEL CONSUMPTION
(1) Blocked air cleaner element: Check the ele-
ment and clean or renew as necessary.
(2) Incorrect fuel pressure: Check the fuel pump
and fuel pressure regulator. (3) Faulty coolant temperature sensor: Check
the connections and operation.
(4) Leaks in the fuel supply system: Check the
connections and components for leakage. (5) Leaking fuel injector(s): Clean or renew the
faulty injector(s). (6) Engine operating temperature too low:
Check the thermostat and electric cooling fan as
described in the Cooling an d Heating Systems section.
2. DESCRIPTION
The engine management system on the range of
vehicles covered by this manual controls the opera-
tion of the ignition system and the fuel system.

The central component of the engine management
system is the electronic control unit (ECU). The con-
trol unit is a micro-computer which controls the igni-
tion timing and the amount of fuel injected according
to signals received from various sensors. As changes
are detected in engine load and speed, coolant tem-
perature, barometric pressure, air temperature (1.8
liter engine), throttle position and vehicle speed, the
control unit alters the ignition timing and the fuel
injection amount to achieve optimum engine effi-
ciency.

The control unit incorporates a self diagnosis
mode which stores and displays codes relating to
certain system malfunctions. Whenever power is sup-
plied to the control unit, the control unit performs a


View of the 1.8 liter engine showing the engine management components.
Ensure that all fuel connections are securely tightened.