1987 NISSAN PULSAR length

Brakes 175
A pressure proportioning valve is incorporated in
each circuit to prevent premature locking of the rear
wheels during severe braking.

The four wheel hydraulically operated brakes
utilize disc brakes on each front wheel and disc brakes
or leading and trailing drum brake shoes on each rear
wheel.

The front disc brakes comprise a disc attached to
the hub assembly and a caliper bolted to the steering
knuckle.

The rear disc brakes comprise a disc and hub
assembly attached to the rear stub axle and a caliper
and anchor plate bolted to the backing plate.

The front and rear calipers are of the sliding type.
As pad wear takes place, the caliper piston is allowed
to slide outwards through the seal to take up a new
position in the caliper bore. Elastic deformation of the
seal takes place when the brakes are applied, which
returns the piston slightly when the brakes are re-
leased. Thus a constant clearance is maintained
between the pads and the disc when the brakes are in
the off position.

The disc brakes do not require periodical adjust-
ment in service to compensate for pad wear as they
are self adjusting.

The leading and trailing shoe drum brakes on the
rear wheels use a double ended wheel cylinder to
operate both brake shoes at the top. The lower end of
each brake shoe abuts a fixed anchor point. The brake
shoes are automatically adju sted when the brakes are
operated.

The handbrake operates the rear brakes via a
cable arrangement.

3. MASTER CYLINDER
Special Equipment Required:
To Install New Seals — Suitable machined drift
TO REMOVE
(1) Depress the brake pedal several times to
deplete the vacuum from the system.

(2) Raise the bonnet and install covers to
both
the front mudguards. Cover the areas of paintwork
beneath the master cylinder with absorbent cloth.
(3) Disconnect the wiring from the pressure
sensing switch. (4) Disconnect the brake pipes from the master
cylinder and plug the outlets and pipes to prevent the
loss of fluid and the ingress of dirt.
(5) Remove the nuts retaining the master cylin-
der to the brake servo unit and remove the master
cylinder from the vehicle.
TO DISMANTLE

(1) Remove the master cylinder as previously
described. (2) Remove the reservoir cap and diaphragm,
drain and discard the brake fluid from the reservoir. (3) Carefully remove the reservoir from the
master cylinder by pulling it from the reservoir
retainers by hand. Remove and discard the retainers
from the master cylinder. (4) Using internal snap ring pliers, remove the
snap ring from the primary reservoir port. (5) Remove the fast fill valve assembly and the
O ring from the port. Remove and discard the valve
washer from the fast fill valve.
(6) Remove the proportioning valve plugs and
the O rings. Discard the O rings. Withdraw the springs
and valve plungers from the master cylinder. Remove
and discard the seals from the valve plungers. (7) Remove the pressure sensing switch and
lever assembly from the master cylinder. {8) Remove the cylinder end plug from the
master cylinder. Remove and discard the O ring from
the plug.

(9) Carefully tap the front of the master cylinder
vertically on a block of wo od and remove the pressure
differential pistons from the master cylinder. Remove
and discard the O rings from the pistons. (10) Push the primary piston forward in the
cylinder with a blunt rod and while holding the
pressure, remove the stop pin from the master cylin-
der.
(11) The primary piston may now be withdrawn
from the cylinder bore. The secondary piston, retainer
and spring can also be withdrawn by carefully tapping
the master cylinder on a block of wood. (12) Prise the legs of the seal retainer upwards
and remove it from the primary piston. Remove the
seal and guide. Discard the seal and retainer.
NOTE: The secondary piston must no! be
dismantled by removing the screw. This
assembly has a factory p reset length and the
screw must not be altered in service.

(13) Remove the main seal and the guide from
the front of the secondary piston. Stretch the rear seal
from the groove and remove it from the piston. Take

Installed view of the master cylinder and servo unit. Air
duct removed for clarity. 1.8 liter model.

184 Brakes
than 0.05 mm. If the wheel hub end float exceeds
Specifications, the bearing must be renewed as de-
scribed in the Rear Suspension section.

(3) Position the dial gauge plunger against the
centre of the brake disc contact area. Rotate the hub
and measure the runout. Ma ximum allowable runout
is 0.07 mm. (4) If the runout exceeds the specified amount,
machine or renew the brake disc. (5) Install the rear wheel and lower the vehicle to
the ground. (6) Road test the vehicle and check for correct
brake operation.
To Remove and Install

(1) Raise the rear of the vehicle and support it
on chassis stands. Remove the relevant rear wheel.
(2) Remove the clip securing the brake hose to
the suspension unit and disengage the hose. (3) Remove the bolts retaining the caliper an-
chor plate. (4) Slide the caliper from the brake disc and
suspend the caliper clear of the work area using wire
or cord.
NOTE: Do not allow the caliper to hang on
the brake hose.

(5) Remove the grease cap from the rear hub.
(6) Remove the split pin, nut retainer, hub nut
and washer from the stub axle. (7) Remove the hub assembly from the stud
axle. Installation is a reversal of the removal procedure
with attention to the following points:

(1) Tighten the rear hub to the specified torque.
(2) Install the brake caliper and tighten all the
bolts to the specified torque. (3) Rotate the hub and check for roughness. If
the hub does not rotate smoothly, renew the hub
bearing as described in the Rear Suspension section. (4) Install the rear wheel and lower the vehicle to
the ground.
(5) Road test the vehicle and check for correct
brake operation.
To Inspect

(1) Inspect the machined faces of the disc for
scores, cracks, wear and signs of overheating. (2) Using a micrometer, measure the thickness
of the disc at several posit ions around the face of the
disc. Renew the disc if the minimum thickness is
below Specifications.

(3) If the disc thickness is satisfactory but the
disc is scored, machine equal amounts from the
machined face on each side of the disc, to restore the
serviceability of the disc.


Inspect the machined faces of the disc for scores,
cracks, wear and signs of overheating.
NOTE: Disc machining is best entrusted to
a reliable brake specialist who can advise on
disc serviceability.

7. REAR DRUM BRAKES
TO REMOVE AND DISMANTLE
(1) Raise the rear of the vehicle and support it
on chassis stands. Remove th e rear wheels and release
the handbrake.
(2) Remove the grease cap from the rear hub.
(3) Remove the split pin, nut retainer, hub nut
and washer from the stub axle. Remove the brake
drum and hub assembly.

(4) Mark each brake shoe and spring to ensure
correct assembly. (5) Rotate the star wheel until the adjuster
assembly is at its shortest length.
Installed view of the left hand side rear drum brake
components.

Brakes 185
(6) Using a suitable pair of pliers, disengage the
upper and lower return springs from the leading shoe,
and then remove them from the trailing shoe. (7) Using a pair of pliers, compress the leading
shoe retainer, turn through ninety degrees and remove
the retainer, spring and pin. Remove the leading shoe
from the backing plate. (8) Using the same procedure, remove the trail-
ing shoe retainer. (9) Lift the trailing shoe from the backing plate
and disconnect the handbrake cable from the hand-
brake lever. Remove the trailing shoe assembly from
the backing plate.
(10) If the brake shoes are to be renewed, remove
the C clip from the trailing shoe and remove the
handbrake lever assembly. (11) If the wheel cylinder is to be overhauled,
proceed as follows:
(a) Disconnect the brake pipe from the rear of
the wheel cylinder and plug the pipe to prevent the
loss of fluid and the ingress of dirt. (b) Remove the bolts retaining the wheel cylin-
der to the backing plate and withdraw the wheel
cylinder from the vehicle. (c) Remove the rubber boots, pistons and spring
from the wheel cylinder bore. Remove the seals from
the pistons. Discard th e rubber boots and seals.
(d) Remove the rubber boot and bleeder valve
from the wheel cylinder.
TO CLEAN AND INSPECT

(1) Thoroughly clean all the brake components,
except the brake shoes in methylated spirits.
(2) Inspect the brake shoe linings. If the thick-
ness of the lining on one or more of the shoes is less
than 1.5 mm thick or contaminated with fluid or
grease, the brake shoes must be renewed as a set. (3) Inspect the wheel cylinder bore and piston
for pitting, wear or damage. Renew the wheel cylinder
assembly if any damage is evident. (4) Check the brake drums for cracks, scoring or
out of round. Renew or machine the brake drums as
necessary.
(5) Inspect the springs and handbrake lever for
fatigue and distortion. Renew as required. (6) Operate the handbrake lever and check for.
smooth operation of the handbrake cable. Renew as
required under the Hand brake Cable and Lever
Assembly heading. (7) Check the bleeder valve for blockage.
(8) Clean and lubricate the adjuster rod.
(9) Clean and inspect the backing plate for
cracks, damage and wear. Renew as required.
TO ASSEMBLE AND INSTAL

(1) If the wheel cylinder was overhauled, pro-
ceed as follows:

(a) Lubricate the pistons and seats with brake
fluid and install the seals on to the pistons so that the
l i p on the seals will be facing towards the centre of the
cylinder.
(b) Install the spring, pistons and rubber boots to
the wheel cylinder ensuring that the rubber boots are
securely located in the cy linder. If necessary, use a
clamp to hold the pistons in the cylinder.
(c) Position the wheel cylinder in the backing
plate and install the brake pi pe to the cylinder. Do not
fully tighten the pipe at this stage. (d) Install the wheel cylinder retaining bolts and
tighten the retaining bolts and brake pipe securely.
Install and tighten the bleeder valve. Install the
valve
boot.


Dismantled view of the right hand rear drum brake
components. Dismantled view of the rear wheel cylinder.

(2) Sparingly lubricate the brake shoe moving
contact surfaces on the backing plate and the adjuster
assembly with a high melting point grease.
(3) If necessary, position the adjusting lever
on
the handbrake lever. (4) If necessary, position the handbrake lever
assembly and washer on the trailing shoe and secure it
with the C clip.
(5) Ensure that the adjuster assembly is adjusted
to its shortest length. (6) Install the adjusting lever return spring to
the
trailing shoe.

190
ELECTRICAL SYSTEM
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
BATTERY
Type ..................................................12 volt lead acid
Polarity to earth .................................... Negative ( - )
Specific gravity:
Fully charged ................................... A bove 1.250
Fully discharged ................................Below 1.130
ALTERNATOR
Make .................................................Bosch or Hitachi
Maximum output .......................................... 70 amps
Polarity to earth .................................... Negative ( - )
Stator windings ......................................... Star wound
Regulator type ................................................ Integral
Brush length minimum:
Bosch ........................................................ 5.0 mm
Hitachi ............................. 6.0 mm or limit mark
STARTER MOTOR
Make .................................................Hitach i or Bosch
Type ............................ 4 pole 4 brush reduction gear
Operation control.................................. Solenoid and
overrunning clutch
Undercut of commutator (maximum):
Hitachi ...................................................... 0.8 mm
Brush length (minimum):
Bosch ........................................................ 8.0 mm
Hitachi ........................................................11 mm
Brush spring tension;
Hitachi ............................................... 15.7-19.6 N
Hitachi:
Drive pinion stopper clearance ........ 0.3-1.5 mm
Selective fit adjuster plates ........ 0.5 and 0.8 mm
IGNITION SYSTEM
The ignition system is an integral part of the
engine management system. The Specifications, testing
and overhaul procedures are fully covered in the Fuel
and Engine Management section.

TORQUE WRENCH SETTINGS
Alternator pulley retaining nut:
Bosch ......................................................... 50 Nm
Hitachi ....................................................... 59 Nm
1. BATTERY AND CHARGING SYSTEM
TROUBLE SHOOTING

BATTERY UNDERCHARGED
3. Loose or broken drive belt: Adjust or renew
the drive belt. 4. Faulty alternator regulator; Renew the regu-
lator unit.
5. Faulty battery: Install a new battery of
the
recommended type and capacity. 6. Faulty alternator: Overhaul or renew the
alternator. 7. Fault in the charging circuit wiring: Check
and repair or renew the wiring harness. 8. Faulty connections in the charging circuit:
Check and repair the connections. 9. Fusible link blown; Rectify the fault and
renew as necessary.
NOTE: Check the state of charge (specific
gravity) of the battery- as described under
the
Battery heading in this section. If the battery
is undercharged, check the possible causes in
the order given.

BATTERY OVERCHARGED
• Faulty alternator regulator unit:
Renew the
regulator unit.
• Faulty alternator: Overhaul or
renew the
alternator. • Faulty charging circuit wiring or
connec-
tions: Check and renew or repair the faulty
compo-
nents.
NOTE: An overcharged battery is indicated
by continual loss of water through boiling.

Electrical System 193


Installed view of the stop lamp switch and the flasher
unit.
(2) Fault in the warning lamp wiring: Check and
repair the fault.

NOTE: When renewing bulbs ensure that a
new bulb of the correct wattage is used.

TURN SIGNAL LAMPS FLASH WEAKLY AND
AT GREATER THAN NORMAL SPEED

1. Faulty flasher unit: Check and renew the
flasher unit.
2. Front or rear bulb blown on the turn side:
Check and renew the bulb.
NOTE: If the flasher unit is to be renewed,
always try to obtain a genuine replacement
part.

HAZARD WARNING LAMPS DO NOT
OPERATE

Fuse blown: Rectify the fault and renew as
necessary.
Flasher unit faulty: Re new the flasher unit.
Hazard warning switch faulty: Renew the
switch.
Fault in the wiring circuit: Check and repair
the fault.
5. TEST EQUIPMENT AND SOME APPLICATIONS

Special Equipment Required:
To Make Test Lamp or Jumper Lead — Soldering
iron

When working on the electrical system, a test
lamp and jumper leads can be very useful to check
circuits.

TO MAKE A JUMPER LEAD
The minimum materials required to make a
jumper lead are one length of 4 mm wire and two
small alligator clips.

Grouping of materials to construct jumper leads of
various sizes.
Bare both ends of a suitable length of 4 mm
wire. Connect a small alligato r clip to each end of
the wire. Solder and tape the connections. Test the jumper lead for continuity by re-
moving one battery cable and connecting the lead
between the cable and the battery terminal. Turn the
ignition On and the dashboard warning lamps should
operate indicating a completed circuit through the
jumper lead. Remove the jumper lead from the circuit and
reconnect the battery.
NOTE: Make a few jumper leads of various
lengths using different sizes and types of
alligator and battery clips.

TO MAKE A TEST LAMP
Due to the extensive use of electronic components
in the electrical system, an LED (light emitting diode)
test lamp can be made from a suitable length of 3 mm
wire, an alligator clip, an LED, a 1/4 watt 560 ohm
resistor, a suitable case such as an old ball point pen
case and a length of rod or wire sharpened to form a
probe.

(1) Solder the length of wire to the K (cathode)

194 Electrical System


Schematic of LED test lamp. Ensure that the connec-
tions to the K (cathode) lead and A (anode) lead of the LED are as illustrated.
lead of the LED. The K lead is the shorter of the two
leads and is adjacent to the flat on the LED.

Solder the 560 ohm resister to the A (anode)
lead of the LED. Solder a short length of wire to the other lead
of the resistor and to the probe. Drill a hole in the side of the case to accept
the wire attached to the K lead of the LED. Mount the probe in the case. If using a pen
case, push the probe through the lower end of the pen
after removing the refill. Push the lead attached to the K lead of the
LED through the hole made in the side of the case and
solder the alligator clip to the lead.
Mount the LED to the case. If using a pen
case, the LED may be mounted in the plug at the top
of the pen after drilling the plug to accept the LED. Suitably attach the probe to the case using
adhesive or tape.
TO TEST SWITCHES

Disconnect the wires from the switch.
Using a test lamp, test each wire to locate the
power wire. It may be nec essary to turn the ignition
On as the switch may be wired through the ignition
circuit. Disconnect the test lamp and connect a jumper lead between the power wire and the wire
from the other side of the switch.

If the circuit functions, the switch can be consid-
ered faulty and should be renewed. Refer to the
heading Switches and Controls.

TO TEST BULBS
Remove the bulb from the bulb holder.
Connect a jumper lead between the positive
terminal of a battery a nd the base of the bulb.
Connect another jumper lead between the
negative battery terminal and the contact on the base
of the bulb. The bulb should illuminate. If the bulb has two filaments, connect the jumper
lead to the second contact on the base of the bulb. The
second filament should illuminate.

If the bulb fails to illuminate, it should be
renewed with a bulb of the correct voltage and
wattage.

TO TEST CIRCUITS
Turn the circuit switch On.
Using a test lamp, check for power at one of
the circuit connections. A fuse is a good starting point.
If power is available, reconnect the connector and
continue checking towards the motor or bulb end of
the circuit.

If power is not available, continue checking
towards the battery or switch end of the circuit.

6. BATTERY
Special Equipment Required: To Test — Hydrometer
To Charge — Battery charger

TO REMOVE AND INSTAL
(1) Disconnect the negative and positive battery
terminals.

Installed view of the battery.

200 Electrical System


Using an ohmmeter to test for bridging or internal shorting of the rotor fields.

internally, while a high reading indicates an open
circuit or high resistance in the windings. In both
cases a new rotor assembly will have to be installed.

Stator Windings
The stator test is carried out using a test lamp.
The stator leads must be detached from the
diode pack.
Connect a jumper lead from the negative
terminal of a charged 12 volt battery to the stator
winding frame. Connect one en d of a test lamp to the
battery positive terminal, the other end of the test
lamp to the stator lead, one at a time. Should the test lamp illuminate, however
dimly, a short circuit is indicated and the stator
assembly must be renewed.
Diodes
On some models the diod es may be tested after
disconnection. Testing can be done by using a 12 volt
battery and a 1.5 watt bulb in series with a jumper
lead.

Connect a jumper lead from the negative
terminal of a charged battery to the carrier/bracket
holding the diode to be tested. Connect one end of a test lamp to the battery
positive terminal and the other end of the lamp to the
diode lead. Note whether the lamp is illuminated and
then reverse the connections on the battery. If the lamp was illuminated in both direc-
tions or was not illuminated at all, the diode is faulty
and the diode pack/heat sink must be renewed.
Brush Springs and Brushes
Check the brush spring s for overheating and
distortion, check for binding in the brush holder.

Check the brush length and renew as neces-
sary. Refer to Specifications for the correct dimen-
sions. TO ASSEMBLE

Bosch Alternator
Assembly is a reversal of the dismantling proce-
dure with attention to the following points:

Using a hot soldering iron and a pair of long
nosed pliers as a heat sink, solder the stator leads to
their respective terminals on the diode pack. Install the insulating washer and spacer to the
(B +) terminal post and position the diode pack and
stator assembly onto the slip ring end bracket. Install
the diode pack retaining screws and tighten securely. Working on the exterior of the slip ring end
bracket, install the output terminal components to
the
(B + ) terminal and secure the retaining nut.
Position the bearing retainer, bearing and
spacer on the rotor shaft. Using a suitable press and press plates,
support the rotor sh aft on the front face of the spacer
and carefully press the rotor shaft fully into the
bearing and spacer. Position the rotor shaft assembly into the
rear of the drive end bracket and install and tighten the
bearing retainer plate screws. Install the fan, plate, spacer and split
drive
pulley to the rotor shaft and secure them with the
retaining washer and nut. If necessary, using a suitable press and press
plates, support the rotor shaft rear bearing and
carefully press the rotor shaft fully into the bearing.
NOTE: Ensure that pressure is applied only
to the inner race of the bearing.

Ensure that the rotor shaft bearing wave
washer is located in the slip ring end bracket and
insert the rotor in the stator and slip ring end bracket
assembly. Align the marks made on dismantling and
install and tighten the long securing screws.
Position the regulator and brush holder as-
sembly to the slip ring end bracket and install
and
tighten the retaining screws. Install the alternator to the vehicle and
test
the operation as prev iously described.
Hitachi Alternator
If necessary, position the new brush termi-
nals in the brush assembly and install the
brush
assembly and terminal plate to the diode pack.
Carefully solder the terminal plate to the diode pack
and secure the brush assembly by installing and
staking new rivets.

If necessary, solder the diode pack and
regulator to the stator and install the fan guide
and
retaining nuts. Tighten the retaining nuts securely.
NOTE: When soldering or unsoldering the
stator leads or bridges from the diodes or
regulator, grip the leads with a pair of long

202 Electrical System


View of the Bosch starter motor removed from the
vehicle.
noting the position of the earth cable, and maneuver
the starter motor out of the engine compartment.

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

Replace the earth cable to the position noted
on removal.
Tighten the starter motor mounting bolts
securely.
HITACHI STARTER MOTOR

To Dismantle
Remove the starter motor from the vehicle
as previously described. Mount the starter motor upright in a soft
jawed vice gripping the drive end bracket. Loosen the solenoid field coil terminal nut
and disconnect the cable from the solenoid.
Scribe a line across the drive end bracket,
yoke and end cover to facilitate correct alignment
during assembly. Remove the bolts retaining the end cover
and yoke to the drive end bracket and remove the end
cover from the yoke. Remove the yoke, armature and brush
holder as an assembly from the drive end bracket.
Note the position of the O ring sealing the yoke. Release the brush spri ngs and separate the
brushes from the brush holder. Remove the brush holder from the yoke.
Separate the armature from the yoke.
Scribe a line across the solenoid and the
drive end bracket to facilitate correct alignment
during assembly. Remove the solenoid retaining bolts and lift
the solenoid, spring, lever an d rubber seal out of the
drive end bracket. Note the installed position of the
components. Mount the drive end bracket in the vice with
the pinion uppermost and Remove the screws retaining
the pinion housing to the drive end bracket. Remove the pinion housing from the drive
end bracket,
Remove the pinion assembly from the drive
end bracket, Mount the pinion in the vice, hold the collar
down and remove the snap ring from the end of the
pinion. Remove the collar and spring from the
pinion and slide the pinion out of the clutch assembly. If necessary, prise the bearings off the clutch
assembly using two screwdri vers. Note the location of
the larger bearing. If necessary, remove the bearings from the
armature using a bearing puller.
To Check and Inspect

Clean all the starter motor components thor-
oughly but do not immerse the yoke, armature or
clutch assembly in cleaning solvent.
Check the brush holder insulation using an
ohmmeter. Connect one test probe to the brush holder
positive side and the other test probe to the negative
side. If continuity exists , renew the brush holder.

Check the brushes for adequate length. Re-
new the brushes if they are worn to less than the
length listed in Specifications. The brushes should be
a free sliding fit in the brush holders. Check the brush
springs for adequate tension.
Check the field coil continuity using an
ohmmeter. Connect one test probe to the positive
brush and the other test probe to the solenoid cable
terminal. If continuity does not exist, renew the field
coils.
View of the Hitachi starter motor removed from the
vehicle
.