wiring DATSUN 210 1979 Service Manual
Page 15 of 548
DATSUN
210
Model
8310
Series
SECTIONET
ET
ENGINE
TUNE
UP
CONTENTS
EMISSION
CONTROL
DEVICES
BASIC
MECHANICAL
SYSTEM
ADJUSTING
INTAKE
AND
EXHAUST
VALVE
CLEARANCE
CHECKING
AND
ADJUSTING
DRIVE
BELTS
CHANGING
ENGINE
OIL
REPLACING
01
L
FI
L
TER
CHANGING
ENGINE
COOLANT
CHECKING
COOLING
SYSTEM
HOSES
AND
CONNECTIONS
CHECKING
ENGINE
COMPRESSION
IGNITION
AND
FUEL
SYSTEM
CHECKING
BATTERY
CHECKING
AND
ADJUSTING
IGNITION
TIMING
CHECKING
IGNITION
WIRING
CHECKING
AND
REPLACING
SPARK
PLUGS
CHECKING
AND
ADJUSTING
CARBURETOR
IDLE
RPM
AND
MIXTURE
RATIO
CHECKING
CHOKE
MECHANISM
Choke
plate
and
linkage
CHECKING
FUEL
SHUT
OFF
SYSTEM
FU
models
ET
2
ET
3
ET
3
ET
3
ET
3
ET
3
ET
4
ET
4
ET
4
ET
5
ET
5
ET
5
ET
6
ET
6
ET
7
ET
9
ET
9
REPLACING
FUEL
FILTER
ET
10
CHECKING
FUEL
LINES
Hoses
piping
connections
etc
ET
10
REPLACING
AIR
CLEANER
FILTER
ETlO
CHECKING
AUTOMATIC
TEMPERATURE
CONTROL
AIR
CLEANER
ET
10
EMISSION
CONTROL
SYSTEM
ET
11
CHECKING
VACUUM
FITTING
HOSES
AND
CONNECTIONS
ET
11
REPLACING
AIR
PUMP
AIR
CLEANER
FILTER
Except
FU
models
and
Canada
models
E
1122i
REPLACING
AIR
INDUCTION
VALVE
FILTER
FU
models
and
Canada
models
E
tlil1r2
C
REPLACING
PCV
VALVE
AND
FILTER
ETf
CHECKING
VENTI
LATION
HOSES
E1P12
CHECKING
VAPOR
LINES
Eli
J2
CHECKING
FUEL
TANK
VACUUM
RELIEF
I
f
III
VALVE
ET
13
REPLACING
CARBON
CANISTER
W
FILTER
ET
d
SERVICE
DATA
AND
SPECIFICATIONS
ET
14
TROUBLE
DIAGNOSES
AND
CORRECTIONS
ET
16
SPECIAL
SERVICE
TOOL
ET
23
Page 20 of 548
SO
B
T
D
C
l650
rpm
Non
California
models
except
Canada
100
B
T
D
C
650
rpm
Canada
models
Note
On
FU
models
ignition
timing
is
set
under
a
condition
where
distributor
vacuum
hose
is
discon
nected
If
necessary
adjust
ignition
timing
as
follows
I
Loosen
set
screw
until
dis
tributor
c
uJ
be
moved
by
hand
2
Adjust
ignition
timing
to
speci
fications
3
Lock
distributor
set
screw
and
make
sure
that
timing
is
correct
YJ
Fig
T
9
Adjusting
Ignition
Timing
7
On
FU
models
proceed
as
fol
lows
I
Remove
blind
plug
from
dis
tributor
vacuum
hose
and
connect
hose
to
distributor
diaphragm
2
If
engine
speed
varies
in
this
state
set
idling
speed
at
specified
value
with
throttle
adjusting
screw
CHECKING
IGNITION
WIRING
Use
an
ohmmeter
to
check
resist
ance
on
high
tension
cables
1
Disconnect
cables
from
spark
plugs
and
remove
distributor
together
with
high
tension
cables
Note
Do
not
remove
cables
from
cap
Engine
Tune
up
2
Connect
the
ohmmeter
between
cable
terminal
on
the
spark
plug
side
and
the
corresponding
electrode
inside
cap
3
If
the
resistance
is
more
than
30
000
ohms
remove
cable
from
cap
and
check
the
cable
resistance
only
If
resistance
is
still
more
than
30
000
ohms
replace
c3ble
assembly
Fig
ET
IO
Checking
High
Tension
Cable
u
s
A
models
Type
FU
models
Standard
Hot
type
Cold
type
U
S
A
models
Canada
models
r
1g
mm
in
FU
models
Canada
models
Tightening
torque
kg
m
ft
lb
ET
6
Stan
rd
Hot
type
Cold
type
S
aridard
Hot
type
Cold
type
CHECKING
AND
REPLACING
SPARK
PLUGS
I
Remove
and
clean
plugs
in
a
sand
blast
cleaner
Inspect
each
spark
plug
Make
sure
that
they
are
of
the
specifi
ed
heat
range
2
Inspect
insulator
for
cracks
or
chips
Check
both
center
and
ground
electrodes
3
If
they
are
excessively
worn
re
place
with
new
spark
plugs
4
Replace
spark
plugs
in
accordance
with
the
maintenance
schedule
BP
ES
ll
L46PW
l
BP4E
ll
L47PW
ll
BP7ES
ll
BP6ES
ll
L44PW
II
L4
PW
11
BP5
EQ
13
L46PM
13
BP4EQ
13
L47PM
13
BP6EQ
13
L45PM
13
BP7EQ
13
L44PM
13
BPR5ES
BPR4ES
BPR6ES
1
0
to
1
1
LQ39
to
0
043
l
l
to
1
3
0
043
to
0
051
0
8
to
0
9
0
031
to
0
035
1
5
to
i
6
P
to
14
Page 30 of 548
Engine
Tune
up
TROUBLE
DIAGNOSES
AND
CORRECTIONS
Condition
Probable
cause
CANNOT
CRANK
ENGINE
OR
SLOW
CRANKING
Improper
grade
oil
Discharged
battery
Faulty
battery
Loose
fan
belt
Malfunction
in
charge
system
Wiring
connection
loose
in
starting
circuit
F
ul1Y
ignition
switch
Faulty
starter
motor
Trouble
shooting
procedure
on
starting
circuit
Switch
on
the
starting
motor
with
light
ON
WheJlIJght
gOO
off
or
Ii
J1S
considerably
a
Check
battery
b
Check
connection
and
cable
c
Check
starter
motor
When
light
stays
bright
Corrective
action
Replace
with
proper
grade
oil
Charge
battery
Replace
Adjust
Inspect
Correct
Repair
or
replace
Repair
or
replace
a
Check
wlflng
connection
between
battery
and
starter
motor
b
Check
ignition
switch
c
Check
starter
motor
ENGINE
WILL
CRANK
NOR
LLY
BUT
WILL
NOT
START
In
this
case
the
following
trouble
causes
may
exist
but
in
many
cases
ignition
system
or
fuel
system
is
in
trouble
19
ition
syst
m
in
trouble
FII
1
system
in
trowb
Val
mechanism
do
not
work
properly
Low
compression
Trouble
shooting
procedure
Check
spark
plug
firstly
by
following
procedure
Disconnect
high
tension
cable
from
one
spark
plug
and
hold
it
about
10
mm
0
39
in
from
the
engine
metal
part
and
crank
the
engine
Good
spark
occurs
a
Check
spark
plug
b
Checkignition
timing
c
Check
fuel
system
d
Check
cylinder
compression
Check
the
current
now
in
primary
circuit
Very
high
current
Inspect
primary
circuit
for
short
Check
breaker
point
operation
except
tran
sistor
ignition
system
No
spark
occurs
ET
l
6
Page 102 of 548
AUTOMATIC
CHOKE
MECHANISM
I
Before
starting
engine
fully
de
press
accelerator
pedal
to
ensure
that
choke
valve
closes
properly
2
Push
choke
valve
wi
th
a
finger
and
check
for
binding
3
Check
to
be
sure
that
bi
metal
cover
index
mark
is
set
at
the
center
of
choke
housing
index
mark
as
shown
below
I
Note
Do
not
set
b
metal
cover
index
mark
at
any
position
except
the
center
of
choke
housing
index
mark
CD
@
Thermosta
t
covel
Bi
metal
chamber
2
Thermostat
housing
3
Groove
E
T034
Fig
EF
39
Bi
metal
Setting
4
Check
automatic
choke
heater
source
wiring
for
proper
connection
then
start
engine
S
After
warming
up
the
engine
see
that
choke
valve
is
fully
open
6
If
automatic
choke
heater
source
wiring
is
normal
and
choke
valve
does
not
operate
after
warm
up
replace
bi
metal
cover
AUTOMATIC
CHOKE
RELAY
The
automatic
choke
relay
is
local
ed
in
the
relay
box
I
Remove
automatic
choke
relay
by
removing
two
securing
screws
Engine
Fuel
II
EF422A
Fig
EF
40
Location
of
Automatic
Choke
Relay
2
Check
the
continuity
of
the
relay
as
follows
In
normal
condition
continuity
be
tween
CV
and
@
should
exist
Then
apply
l2V
battery
voltage
across
CID
and
@
Under
this
condi
tion
contin
ity
between
CV
and
@
should
disappear
If
not
the
relay
is
faulty
replace
it
W
hWO
CID
CD
CV
o
0
@
Q
I
o
r
@
CID
@
EF989
Fig
EF
41
Checking
Automatic
Choke
Relay
AUTOMATIC
CHOKE
HEATER
I
Measure
resistance
of
choke
heater
Specified
resistance
is
3
7
to
8
9
ohms
EF
17
EF855
Fig
EF
42
Checking
Automatic
Choke
Heater
2
If
measured
value
is
not
within
the
specification
replace
bi
metal
cover
INTERLOCK
OPENING
OF
PRIMARY
AND
SECONDARY
THROTTLE
VALVES
1
Open
primary
side
throttle
valve
480
from
fully
closed
position
and
measure
clearance
G
1
between
throttle
valve
and
throttle
chamber
inside
wall
as
shown
in
Fig
EF
43
Clearance
6G1
5
83
mm
0
230
in
@
J
3
480
r
mit
GI
6
1
Connecting
rod
2
Secondary
connecting
lever
3
Throttle
lever
4
Secondary
throttle
valve
5
Primary
throttle
valve
6
Throttle
chamber
Fig
EF
43
Adjusting
Interlock
Opening
Primary
and
lecondary
throttle
values
2
Without
disturbing
above
setting
bend
connecting
rod
as
necessary
so
that
secondary
throttle
valve
is
about
to
open
E
F089A
Page 150 of 548
INSPECTION
Entire
system
U
S
A
MIT
models
except
FU
mo
el
1
Ensure
that
wiring
connectors
are
tight
in
pla
ce
2
Ensure
that
vacuum
hoses
are
properly
cof
1o
c
ed
to
their
positions
3
Ensure
that
distributor
vacuum
controller
properly
functions
4
Set
timing
light
and
start
engine
S
While
engine
cooling
water
tem
pefature
is
below
SOOC
I220F
check
function
of
system
as
follows
WARNING
To
protect
against
accidental
for
ward
surge
engage
parking
brake
firmly
while
above
check
is
being
made
I
Run
engine
and
keep
it
at
ap
proximately
1
600
rpm
2
Disengage
clutch
Shift
gears
in
top
3rd
then
neutral
positions
Read
spark
timing
in
respective
shift
posi
tions
The
system
is
properly
functioning
if
spark
timir
g
does
not
change
If
t
changes
check
thefmal
vacuum
valve
3
port
type
Note
Ensure
that
thermal
vacuum
wIve
is
closed
when
cooling
water
i
below
5
to
lSoC
41
to
640F
or
above
SO
to
630C
122
to
14S0F
I
6
After
the
engine
has
been
warmed
up
sufficiently
check
the
function
of
the
system
again
in
the
I
Same
manner
The
system
is
properly
functioning
if
spark
iimin
advances
in
top
posi
tion
If
not
check
thefmal
vacuum
valve
control
circuit
or
vaeu
um
switching
valve
Entire
system
FU
model
and
Canada
MIl
models
I
Ensure
that
wiri
lg
connectors
are
tight
in
place
Emission
Control
System
2
Ensure
that
vacuum
hoses
are
properly
connected
to
their
positions
3
Ensure
that
distributor
vacuum
controller
properly
fu
ctions
4
Set
timing
light
WARNING
To
protect
against
accidental
for
ward
surge
engage
parking
brake
firmly
while
above
check
is
being
made
5
Run
engine
and
keep
it
at
ap
proximately
1
600
1
m
6
Disengage
clutch
Shift
gears
in
4th
5th
ihen
neutral
positions
Read
spark
timing
in
respective
shift
posi
tions
The
system
is
properly
functioning
if
spark
timing
advances
in
top
gear
position
If
spark
timing
does
not
vary
at
all
in
tests
des
rilied
in
step
6
above
check
control
circuit
or
vacuum
switching
valve
Entire
system
California
AIT
models
I
Ensure
th
t
wiring
connectors
are
tight
in
place
2
Ensure
that
vacuum
hoses
are
properly
coIDwcted
to
thejr
positions
3
Ensure
that
distributor
vacuum
controller
function
s
properly
4
Set
timing
light
and
staft
engine
S
While
engine
cooling
water
tem
perature
is
below
SOOC
1220F
check
the
function
of
the
system
as
follows
WARNING
To
protect
againSt
accidental
for
ward
surge
engage
parking
brake
firmly
while
above
check
is
being
made
I
Run
engine
and
keep
it
at
ap
proximately
1
600
rpm
at
P
range
2
Make
a
short
circuit
between
the
specified
two
terminals
at
function
te
t
connector
EC31
The
entire
system
except
for
the
top
switch
is
properly
functioning
if
spark
timing
does
not
change
If
it
changes
check
the
thermal
vacuum
valve
3
pori
type
CAUTION
Pay
attention
not
to
make
a
short
circuit
between
other
terminals
than
the
specified
terminals
or
electrical
system
of
car
will
get
damaged
4
EC328A
Fig
EC
94
Making
Short
Circuit
6
After
ihe
engine
has
been
warmed
up
sufficiently
check
the
function
of
the
system
again
in
the
same
manner
The
system
except
for
the
top
switch
is
properly
fU
lctioning
if
spark
timing
is
approximately
greater
than
that
without
a
short
circuit
If
not
check
the
thermal
vacuum
valve
control
circuit
or
vacuum
switch
ing
valve
7
As
the
final
step
of
checking
entire
system
top
switch
should
be
checked
as
follows
1
Start
engine
and
keep
at
idling
speed
2
Disconnect
lead
wires
from
vacu
um
switching
valve
at
connetors
CAUTION
Never
forget
this
operation
otherwise
the
circuit
tester
will
get
damaged
Page 168 of 548
The
charging
circuit
consists
of
a
battery
an
alternator
incorporating
an
IC
voltage
regulator
and
wiring
that
connects
these
parts
The
purpose
of
this
system
is
to
convert
mec
hanka
energy
from
the
engine
into
electrical
energy
which
is
used
to
operate
all
electrically
operat
ed
units
and
to
keep
the
battery
fully
charged
With
the
ignition
switch
in
ON
the
circuit
between
transistor
uTr
I
of
the
lC
voltage
regulator
and
ground
is
closed
Current
from
the
battery
then
flows
along
the
route
shown
by
the
arrOW
in
Fig
EE
26
turning
on
the
charge
warning
lamp
and
flowing
on
through
terminal
L
to
excite
the
rotor
When
the
alternator
begins
to
oper
ate
three
phase
alternating
current
is
ngine
Elect
ical
System
CHARGING
CIRCUIT
indicated
in
the
stator
coil
This
alter
nating
current
is
rectified
by
the
posi
tive
and
negative
silicon
diodes
When
the
voltage
at
terminal
8
is
higher
than
battery
voltage
current
produced
at
the
stator
flows
to
re
charge
the
battery
While
the
battery
is
being
re
charged
the
voltage
at
termi
nal
L
is
equal
to
that
of
terminal
8
At
this
point
there
is
no
voltage
differential
on
either
side
of
the
charge
warning
lamp
which
causes
the
charge
warning
lamp
to
turn
off
In
other
words
current
does
not
flow
from
the
battery
to
terminal
L
Accordingly
current
flow
through
the
rotor
as
shown
in
Fig
EE
27
is
taken
over
by
current
produced
at
the
stator
The
circuit
between
terminal
F
and
Tr
is
then
closed
See
Fig
EE
27
The
IC
voltage
regulator
monitors
generating
voltage
to
be
applied
to
the
battery
at
terminal
S
When
current
exceeds
the
specified
value
it
then
flows
through
the
zener
diode
ZD
closing
the
circ
it
consisting
of
transis
tor
Tr
and
resistor
R1
At
this
point
current
neither
flows
through
transistor
Tr
I
to
ground
nor
to
the
rotor
thereby
reducing
the
voltage
generated
at
the
stator
See
Fig
EE
28
When
voltage
generated
at
terminal
S
is
reduced
to
the
specified
value
transistor
allows
current
to
flow
through
the
rotor
increasing
the
generating
voltage
In
this
manner
output
voltage
from
the
alternator
does
not
rise
above
the
specified
value
by
the
ON
OFF
opera
tion
of
the
rotor
coil
through
the
IC
voltage
regulator
16
L
R
l
I
01
0
ls
CHARGE
LAMP
J
011
L
e
0
u
a
M
e
i
J
0
io
o
IGNITION
a
0
09
SWITC1
R2
El1
STATOR
COIL
04
0
R
F
1
BATTERY
8
ZD
ALTERNATOR
7
I
1
AJ
TI
3
IC
VOLTAGE
REGULATOR
Aa
E
1
7
EE760
Fig
EE
26
Simplified
Charging
Circuit
Initial
excitation
current
EE
10
Page 176 of 548
DESCRIPTION
The
regulator
consists
essentially
of
in
egrated
circuits
incorporating
tran
sistors
These
transistors
int
errupt
and
admit
current
flow
to
the
alternator
rotor
coil
thus
maintaining
its
output
voltage
at
a
constant
value
Unlike
in
a
mechanical
type
regulator
an
electron
ic
relay
employing
transistors
is
uti
lized
These
transistors
are
enclosed
in
a
very
compact
sealed
case
The
electronic
relay
is
soldered
to
the
Brush
Ie
regulator
R
J
DIO
F
i
ZD
Tn
Engipe
Electrjcal
Syst
em
REGULATOR
brush
assembly
inside
the
alternator
Should
any
problem
with
the
relay
arise
it
should
be
replaced
together
with
the
brush
assembly
In
the
charge
warning
lamp
circuit
a
diode
is
at
tached
to
the
stator
coil
to
monitor
generating
voltage
at
the
stator
so
that
when
the
monitored
voltage
and
charging
voltage
are
equal
during
re
charging
the
charge
warning
lamp
is
turned
off
Accordingly
a
charge
warning
relay
is
not
employed
in
this
circuit
s
r
t
E
F
L
S
B
EE629
Fig
EE
51
lC
Voltage
RegultJtor
I
B
S
L
I
R
R
E
B
S
L
E
F
Terminal
R
Resistor
Rh
Thermistor
Tr
Transistor
ZD
Zener
diode
EE766
Fig
EE
52
Circuit
of
RegultJtor
EE
18
INSPECTION
To
check
the
IC
regulator
proceed
as
follows
Remove
IC
regulator
and
brushes
as
an
assembly
as
outlined
in
Disas
sembly
and
Assembly
section
under
the
heading
Alternator
CAUTION
When
performing
test
continuously
resistor
may
generate
heat
If
it
be
comes
high
temperature
stop
testing
for
a
while
to
avoid
burning
The
following
test
equipment
and
accessories
are
required
I
Resistor
R
10
ohms
20
watts
x
I
2
Variable
resistor
Rv
0
to
300
ohms
20
watts
x
I
3
Batteries
I
and
2
12
volts
x2
4
DC
voltmeter
0
to
30
volts
x
I
2
Connect
wiring
as
shown
in
Fig
EE
S3
and
perform
tests
as
follows
I
Measure
voltage
VI
at
battery
If
it
is
not
within
10
to
13
volts
re
charge
or
replace
battery
as
necessary
2
Disconnect
lead
wire
at
terminal
s
measure
voltage
V
2
between
terminals
F
and
E
If
it
is
below
2
0
volts
regulator
is
functioning
properly
Connect
lead
wire
to
termi
nalS
3
Measure
voltage
V
3
total
volt
age
of
batteries
I
and
2
If
it
is
not
within
20
to
26
volts
re
charge
or
replace
either
or
both
batteries
4
Gradually
decrease
resistance
of
variable
resistor
Rv
from
300
ohms
and
measure
voltage
V
2
between
terminals
En
and
F
As
resistance
Page 177 of 548
15
5
v
v
o
o
Q
z
o
15
0
14
5
14
0
13
5
13
0
Engine
Electrical
System
l
c
regula
tor
c
j
F
F
T
BATI
1
i
Cf
CO
I
r
J
BAT2
EE631
Fig
EE
53
Testing
Regulator
1
N
N
0
N
0
0
N
0
C
e
0
c
0
S
0
S
0
0
0
0
0
0
0
0
0
0
0
I
c
o
I
Regulator
case
temperature
DC
OF
EE632
Fig
EE
54
Testing
Reguhltor
5
j
I
C
regulator
E
F
L
S
BATI
1
I
i
R
Cf
Cf
I
l
BAT2
EE633
Fig
EE
55
Testing
Regulator
6
EE
19
varies
voltage
V
2
should
at
a
certain
point
increase
to
as
high
as
voltage
V
I
which
is
measured
in
Step
I
If
there
is
such
a
variation
the
regulator
is
functioning
properly
Hold
variable
resistor
Rv
at
the
same
voltage
as
VI
If
there
is
no
voltage
variation
regula
tor
is
out
of
order
and
must
be
replaced
5
Measure
voltage
V
between
center
tap
of
variable
resistor
R
and
terminal
E
With
Rv
resistance
set
at
a
value
obtained
in
step
4
above
measure
voltage
V
4
to
s
e
if
it
is
within
specified
range
indicated
in
Fig
EE
54
If
it
is
not
regulator
is
not
functioning
properly
Replace
6
Reconnect
wiring
as
shown
in
Fig
EE
55
and
repeat
steps
4
and
5
If
voltage
V
is
0
5
to
2
0
volts
higher
than
that
in
step
5
regulator
is
functioning
properly
If
it
is
not
replace
Page 178 of 548
DESCRIPTION
The
ignition
circuit
consists
of
igni
tion
switch
Ie
ignition
unit
dis
tributor
winng
ipark
plugs
and
battery
The
distributor
is
of
the
contactless
type
and
is
equipped
with
a
pick
up
coil
which
electrically
detects
the
igni
tion
timing
signal
in
place
of
the
ircuit
I
rea
r
of
the
conventional
distributor
The
IC
ignition
unit
is
a
new
addition
which
generates
the
signal
required
for
the
make
and
break
of
the
primary
current
for
the
ignition
coil
The
primary
current
is
supplied
by
the
battery
or
alternator
and
flows
through
the
primary
circuit
It
consists
of
the
ignition
switch
primary
winding
of
the
ignition
coil
IC
ignition
unit
and
all
connecting
low
tension
wiring
The
secondary
current
is
produced
by
the
ignition
coil
and
flows
through
the
secondary
circuit
resulting
in
high
voltage
spark
between
the
electrodes
of
the
spark
plugs
in
engine
cylinders
This
circuit
contains
the
secondary
winding
of
the
ignition
coil
distribu
tor
high
tension
cables
to
coil
and
spark
plugs
distributor
rotor
and
cap
When
the
ignition
switch
is
turned
on
and
the
distributor
reluctor
rotates
the
primary
current
flows
through
the
primary
winding
of
the
coil
and
through
IC
ignitionu
nit
to
ground
When
the
primary
circuit
is
opened
by
circuit
of
IC
ignition
unit
the
magnetic
field
built
up
in
the
primary
winding
of
the
coil
moves
through
the
secondary
winding
of
the
coil
in
ducing
high
voltage
This
high
voltage
is
produced
every
time
the
primary
circuit
opens
EngineElect
ical
System
IGNITfON
CIRCUIT
The
secondary
current
flows
through
the
high
tension
cable
to
the
distributor
cap
then
the
rotor
distributes
the
current
to
one
of
the
spark
plug
terminals
in
the
distrubutor
cap
Then
the
spark
occurs
while
the
secondary
current
jumps
the
gap
be
tween
the
insulated
electrode
and
the
ground
side
electrode
of
the
spark
plug
This
process
is
repeated
for
each
power
stroke
of
t
e
engine
The
spark
plug
should
be
inspected
cleaned
and
regapped
at
tune
up
Spark
plugs
should
also
be
replaced
periodically
as
specified
in
the
Maintenance
Schedule
The
remainder
of
the
ignition
component
parti
should
be
inspected
Battery
letink
Primary
winding
1
Ignition
coil
Secondary
winding
J
for
only
their
operation
air
gap
of
distributor
tightness
of
electrical
terminals
and
wiring
condition
Apply
grease
NLGI
consistency
No
I
containing
MaS
or
equivalent
to
distributor
rotor
shaft
as
required
WARNING
When
current
is
flowing
never
touch
with
bare
hand
high
tension
cables
or
any
other
parts
with
high
vollage
If
parts
are
moist
touching
them
could
cause
an
electric
shock
even
if
they
are
insulated
Always
wear
dry
well
insulated
gloves
or
wrap
affected
parts
with
dry
cloth
before
handling
To
starter
EE
20
Ro
or
head
Ul
J
r
Spark
plugs
EE743
Fig
EE
56
Ignition
System
Circuit
Diagram
Page 184 of 548
INSPECTION
TABLE
I
No
spark
occur
Check
high
tension
cable
NG
OK
Repair
and
lor
replace
ngine
Electrical
System
START
Check
sparking
performance
J
J
Sparks
oci
1u
IC
IGNITION
SYSTEM
OK
Check
power
supply
circuit
NG
Repair
and
or
replace
OK
Check
primary
circuit
Proceed
to
A
Proceed
to
A
NG
epair
an
or
replace
OK
Proceed
to
A
DISTRIBUTOR
ASSEMBLY
NG
lC
IGNITION
UNIT
AND
OR
PICK
UP
COIL
NG
Mealure
pick
up
coil
resistance
as
a
distributor
assembly
Except
approx
4000
Measure
igilition
coii
8terminalvoltage
Battery
voltage
t
OV
Measure
pick
up
coil
resistance
I
Ie
IGNITION
UNIT
NG
Except
approx
400n
Approx
400n
PICK
UP
COIL
NG
1
PICK
UP
COIL
OK
Replace
IC
IGNITION
Replace
I
UNI
NG
l
Meuure
pick
up
coil
resistance
Except
approx
4000
I
Check
sparking
performance
I
Replace
I
r
PICK
UP
COIL
NG
1
No
spark
occun
Sparks
occur
I
IC
IGNITION
flc
IGNITION
Proceed
to
A
Replace
UNIT
NG
i
UNIT
OK
Proceed
to
A
Replace
Proceed
to
A
CHECKING
PROCEDURE
Sparking
performance
check
L
Turn
ignition
switch
to
OFF
position
2
Disconnect
anti
dieseling
solenoid
valve
connector
to
cut
off
supply
of
fuel
to
engine
3
Disconnect
high
tension
cable
from
spark
plug
4
Keeping
high
tension
cable
end
4
to
5
mm
0
16
to
0
20
in
away
from
engine
block
rotate
starter
motor
and
check
whether
sparks
occur
across
the
clearance
JUDGMENT
Sparks
occur
IC
ignition
system
OK
In
this
case
IC
ignition
system
and
component
parts
need
not
be
checked
beyond
this
No
spark
occurs
IC
ignition
system
NG
In
case
of
NG
check
High
Tension
Cables
Nole
This
check
is
designed
to
deter
mine
only
ignition
spark
perform
ance
when
cranking
engine
If
test
results
are
satisfactory
Ibis
does
EE
26
I
Approx
400n
PICK
UP
COIL
OK
1C
IGNITION
UNIT
NG
I
Repair
and
or
replace
I
Proceed
to
A
Approx
400n
l
PICK
UP
COIL
OK
1
not
alwaY
indicate
performance
sufrlcienl
for
high
speed
operation
IOgh
tension
cable
check
Refer
to
Engine
Tune
up
for
Check
ing
Ignition
Wiring
Distributor
Cap
and
Rotor
JUDGMENT
If
high
tension
cable
is
OK
check
Power
SupplY
Circuit
If
high
tension
cable
is
NG
replace
cable
assembly