ignition DATSUN 210 1979 User Guide
Page 32 of 548
Condition
IMPROPER
ENGINE
IDLING
Fuelsystam
out
of
order
Low
1
ion
Engine
Tune
up
Probable
cause
Clogged
or
damaged
carburetor
jets
Incorrect
idle
adjustment
Clogged
air
cleaner
filter
Damaged
manifold
gaskets
or
carburetor
insulator
bnproper
float
level
adjustment
LoOse
air
hoses
or
air
fuel
mixture
hoses
of
carburetor
Malfunctioning
carburetor
choke
Malfunctioning
anti
backfire
valve
Malfunctioning
automatic
temperature
con
trol
air
cleaner
Inoperative
idle
compensator
Carbon
canister
purge
line
hose
damaged
or
disconnected
Stick
E
F
E
v
ve
shaft
Othen
Incorrect
valve
clearance
Extremely
low
revolution
Malfunction
of
the
ignition
system
spark
plug
high
tension
cable
ignition
coil
etc
incorrect
basic
ignition
timing
Malfunction
of
chol
e
valve
or
linkage
Malfunction
of
vacuum
motor
sensor
or
hoses
of
air
cleaner
Incorrect
idle
adjustment
Cloged
air
cleaner
fIIter
Malfunction
of
idle
compensator
of
air
cleaner
Malfunction
of
E
G
R
control
valve
Loose
manifold
and
cylinder
head
bolts
Higli
engine
idle
opem
Dragged
accelerator
linkage
Incorrect
idle
adjustment
Malfunction
of
T
O
C
s
system
or
tluottle
opener
Except
FU
models
Malfunction
of
speed
switch
and
harness
Except
FU
models
ET
18
Corrective
action
Clean
or
replace
Adjust
Replace
element
Replace
gasket
or
insulator
Adjust
Check
for
loose
connections
Check
lUId
adjust
Check
for
loose
connection
of
vacuum
hose
Check
A
I
C
air
cleaner
Check
for
connection
of
idle
compensator
hose
or
replace
idle
compensator
Connect
or
replace
Repair
Previously
mentioned
Adjust
Adjust
Replace
Adjust
Adjust
Check
for
loose
hoses
Replace
system
com
ponentsif
necessary
Adj
lSt
idle
speed
Replace
air
cleaner
filter
Replace
Clean
or
replace
Retighten
bolts
Check
ahd
correct
accelerator
linkage
Adjust
idle
speed
Check
for
loose
vacuum
hose
and
harness
connections
Adjust
replace
if
necessary
Check
for
loose
connections
Repair
or
replace
if
necessary
Page 33 of 548
Condition
ENGINE
POWER
NOT
UP
TO
NORMAL
Low
compmsion
Ignition
system
out
of
order
Fuel
system
out
of
order
Air
intake
system
out
of
order
Emission
control
Overheating
J
f
H
r
Overcooling
Engine
liune
up
Probable
cause
Malfunction
of
throttle
valve
switch
and
linkage
FU
models
Incorrect
ignition
timing
Damaged
spark
plugs
Wom
distributor
points
Malfunction
of
T
C
S
cMalfunction
of
S
D
V
Milfunction
of
choke
system
Clogged
fuel
pipe
or
floating
valve
Dirty
or
clogged
fuel
filter
Fuel
pump
will
not
work
properly
Clogged
carb
retor
jets
Clogged
air
cleaner
Air
aling
from
manifold
g
sket
r
carburetor
gasket
Malfunction
of
E
G
R
valve
Stick
E
F
E
valve
shaft
Insufficient
coolant
Loose
fan
bel
Wom
or
oiled
fan
belt
Inoperative
therinostat
Wom
ater
pu
p
Clogged
or
leaky
radiator
Wom
radiator
filler
ca
Air
in
cooling
ystein
Improper
engine
oil
grade
Incorrect
ignition
timing
Clogged
carburetor
lean
miiture
Inoperative
thermostat
1
ET
19
Corrective
action
Check
throttle
valve
switch
and
linkage
Adjusi
i
r
replace
if
necessary
Previously
m
entioned
Adjust
Clean
adjust
or
replace
plugs
Dress
or
replace
points
Also
check
condenser
Check
and
correct
Check
and
replace
Adjust
Clean
Replace
Repair
or
replace
t
J
Disassemble
and
clean
Replace
element
Replace
gasket
Check
and
replace
Repair
Replenish
Adjust
fan
belt
Replace
Replace
Repl
ce
Flush
repair
or
replace
ReplaCe
Retightin
e
ch
part
of
cooling
system
Replace
with
proper
grade
oil
Adjust
Overhaui
carburetor
Replace
Page 34 of 548
Condition
Othen
NOISY
ENGINE
Cor
knockillll
M8chanicol
knocking
Crankshaft
bearing
knocking
Connecting
rod
bearing
knocking
Piston
and
cylinder
noise
Piston
pin
noise
Water
pump
noise
Air
pump
noise
Others
Engine
Tune
up
Probable
cause
Improper
octane
fuel
Improper
tire
pressure
Dragging
brake
Dutch
slipping
Overloaded
engine
Carbon
knocking
Timing
knocking
Fuel
knocking
Preignition
miswing
of
spark
plug
This
strong
dull
noise
increases
when
engine
is
occelerated
To
locate
the
place
cause
a
misfire
on
each
cylinder
If
the
noise
stops
by
the
misfire
this
cylinder
generates
the
noise
This
is
a
little
higher
pitched
noise
than
the
crankshaft
knocking
and
also
increases
when
engine
is
accelerated
Cause
a
misfire
on
each
cylinder
and
if
the
noise
diminishes
almost
completely
this
crankshaft
bearing
generates
the
noise
When
you
hear
an
overlapping
metalic
noise
which
increases
its
magnitude
with
the
revolution
of
engine
and
which
decreases
as
engil
e
is
warmed
up
this
noise
is
caused
by
piston
and
cylinder
To
locate
the
place
cause
a
misfire
on
each
cylinder
This
noise
is
heared
at
each
highest
and
lowest
dead
end
of
piston
To
locate
the
place
cause
a
misfire
on
each
cylinder
This
noise
may
be
caused
by
worn
or
damaged
b
arings
or
by
the
uneven
surface
of
sliding
parts
Damaged
air
pump
Except
Canada
and
FU
models
An
improper
adjustment
of
valve
clearance
Noise
of
timing
chain
An
excessive
end
play
on
crankshaft
Noisy
E
F
E
valve
shaft
H20
Corrective
action
Replace
with
specified
octane
fuel
Inflate
to
sptcifled
pressure
Adjust
Adjwt
Use
right
gear
in
driving
Disassemble
cylinder
head
and
remove
carbon
Adjust
ignition
timing
Use
specified
octane
fuel
Use
specified
spark
plug
This
is
caused
by
worn
or
damaged
bearings
or
unevenly
worn
crankshaft
Renew
bearings
and
adjust
or
change
crankshaft
Check
lubrication
system
Same
as
the
case
of
crankshaft
bearings
This
may
cause
an
abnormal
wearing
of
cylinder
and
lower
compression
which
in
turn
will
cause
a
lower
out
put
power
and
excess
ive
consumption
of
oil
Overhaul
engine
This
may
cause
a
wear
on
piston
pin
or
piston
pin
hole
Renew
piston
and
piston
pin
assembly
Replace
water
pump
with
a
new
one
Repair
or
replace
Adjust
Adjust
the
tension
of
chain
Disassemble
engine
and
new
main
beaung
Repair
Page 35 of 548
Condition
ABNORMAL
COMBUSTION
backfire
afterfire
run
on
etc
Improper
ignition
timing
Fuel
system
out
of
order
Feulty
cylinder
heed
etc
Others
EXCESSIVE
OIL
CONSUMPTION
Oilleek8111
Engine
Tune
up
Probable
cause
Surging
A
T
C
air
cleaner
vacuum
motor
Note
This
noise
will
be
hmnl
when
clutch
iI
disengaged
We
r
on
clutch
pilot
bushing
Not
e
This
noise
will
be
heared
when
utch
iI
disengaged
Improper
ignition
timing
Improper
heal
range
of
spark
plugs
Damaged
carburetor
or
manifold
gasket
backfire
aftedire
Clogged
carburetor
jet
Improper
function
of
the
float
Uneven
idling
Run
on
Improperly
adjusted
T
O
C
S
set
pressure
Except
FU
models
Malfunction
of
anti
dieseling
solenoid
valve
Malfunction
of
fuel
shut
off
system
FU
models
Malfunction
or
auto
hoke
Improper
y
adjusted
valve
clearance
Excess
carbon
in
combustion
chamber
Da
laged
alve
spring
backfire
after
he
Malfunction
of
A
T
C
air
cleaner
Inoperative
anti4lackfire
valve
Loose
oil
tain
plUI
ose
or
damaged
oil
pan
gasket
Loose
or
damaled
chain
cover
gasket
Wom
oil
seal
in
front
and
rear
of
crankshaft
Loo
or
damaged
locker
cover
gasket
Improper
lilhtening
of
oU
filter
Loose
or
damaled
oil
pressure
switch
ET
21
Corrective
action
Repair
or
replace
Renew
bush
and
adjust
drive
shaft
Adjust
ignition
liming
Use
specified
spark
plugs
Replace
them
with
new
parts
Disassemble
carburetor
and
check
it
Adjust
the
level
and
check
needle
valve
Adjust
Adjust
Check
or
replace
Check
fuel
shut
off
system
Adjust
or
re
place
necessary
Adjust
Adjust
Remove
head
and
get
rid
of
carbon
Replace
it
wit
a
new
one
Check
for
loose
vacuum
hoses
Replace
if
necessary
Replace
Tighten
it
Renew
lasket
or
tighten
iI
Renew
gasket
or
lighten
it
Renew
oil
seal
Renew
gasket
r
lighten
it
but
not
too
much
Renew
gasket
and
tighten
it
with
the
proper
torque
Renew
oil
pressure
switch
or
tighten
it
Page 37 of 548
Engine
Tune
up
Condition
Probable
cause
Overheat
Improper
fuel
mixture
Floor
temp
ture
too
high
California
and
FU
model
Problem
in
fuel
system
Refer
to
Inspec
tion
of
Fuel
System
Problem
in
ignition
system
Refer
to
In
spection
oflgnition
System
Corrective
action
Previously
mentioned
Check
the
fuel
system
Check
and
repair
Check
and
repair
SPECIAL
SERVICE
TOOL
Kent
Moore
No
Tool
number
tool
name
Reference
page
or
Fig
No
STl9320000
Oil
filter
wrench
125664
Page
ET
3
ET
23
Kent
Moore
No
Tool
number
tool
name
Reference
page
or
Fig
No
Page 85 of 548
Condition
Loss
of
water
Poor
circulation
Corrosion
Overheating
Over
cooling
Cooling
System
TROUBLE
DIAGNOSES
AND
CORRECTIONS
Probable
cause
Damaged
radiator
seams
Leaks
at
heater
connections
or
plugs
Leak
at
water
temperature
gauge
Loose
joints
Damaged
cylinder
head
gasket
Cracked
cylinder
block
Cracked
cylinder
head
Loose
cylinder
head
bolts
Restriction
in
system
Insufficient
coolant
Inoperative
water
pump
Loose
fan
belt
Inoperative
thermostat
Excessive
impurity
in
water
Infrequent
flushing
and
draining
of
system
Inoperative
thermostat
Radiator
fin
choked
with
mud
chaff
etc
Incorrect
ignition
and
valve
timing
Dirty
oil
and
sludge
in
engine
Inoperative
water
pump
Inoperative
torque
coupling
or
tem
coupling
Loose
fan
belt
Restricted
radiator
Inaccurate
temperature
gauge
Impurity
in
water
Inoperative
thermostat
Inaccurate
temperature
gauge
CO
7
Corrective
action
Repair
Repair
Tighten
Tighten
Replace
Check
engine
oil
for
contamination
and
reml
as
necessary
Replace
Check
engine
oil
in
crankcase
for
mixing
with
water
by
pulling
oil
level
gauge
Replace
Tighten
Check
hoses
for
crimps
and
clear
the
system
of
rust
and
sludge
by
flushing
radiator
Replenish
Replace
Adjust
Replace
Use
soft
clean
water
rain
water
is
satis
factory
Cooling
system
should
be
drained
and
flush
ed
thoroughly
at
least
twice
a
year
Permanent
antifreeze
Ethylene
glycol
base
can
be
used
throughout
the
seasons
of
the
year
and
change
periodically
at
intervals
recommended
Replace
Clean
out
air
passage
thoroughly
by
using
air
pressure
from
engine
side
of
radiator
Adjust
Refill
Replace
Replace
Adjust
Flush
radiator
Replace
Use
soft
dean
water
Replace
Replace
Page 93 of 548
DESCRIPTION
The
carburetors
are
of
downdraft
two
barrel
type
designed
to
increase
ppwe
r
a
fu
l
eC
l
Il
Y
t
3
ell
a
to
reduce
exhaust
gas
emissions
These
carburetors
present
several
distinct
features
of
importance
to
car
owner
A
summary
of
features
is
as
fol
lows
1
Secondary
throttle
valve
is
oper
ated
by
throttle
lever
High
power
and
good
acceleration
are
gained
with
com
bination
of
the
auxiliary
valve
2
Accelerating
pump
provide
ex
cellent
acceleration
3
Power
valve
mechanism
is
a
vacuo
urn
actuated
boost
type
and
improves
high
speed
driving
4
The
throttle
opener
control
sys
tem
Except
FU
model
incorporates
a
servo
diaphragm
which
helps
open
the
throttle
valve
at
a
decreasing
speed
so
as
to
reduce
hydrocarbon
emissions
to
a
minimum
5
An
anti
d
eseling
solenoid
valve
is
installed
to
prevent
dieseling
When
ignition
key
is
turned
off
the
fuel
passage
involved
in
the
ow
system
is
closed
and
the
fuel
supply
is
shut
down
completely
The
solenoid
valve
also
serves
as
an
actuator
of
the
fuel
shut
off
system
on
the
FU
model
6
In
the
choke
mechanism
an
elec
trie
automatic
choke
is
used
to
auto
maticaDy
control
chok
valve
opera
tion
during
engin
war
up
7
The
carburetor
comes
equipped
with
dash
pot
which
ensures
smooth
deceleration
without
engine
stall
under
aU
operating
conditions
STRUCTURE
AND
OPERATION
These
carburetors
consist
of
a
main
system
for
normal
running
a
slow
system
for
idling
and
an
accelerating
and
power
mechanisIll
Some
emission
control
devices
are
added
E
ngine
Fuel
CARBURETOR
I
J
1
Primary
main
jet
2
Idle
adjust
screw
3
hUe
nozzle
4
By
pass
hole
5
Primary
throttle
valve
6
Primary
slow
jet
7
ptug
8
Primary
5l
w
air
bleed
9
Primary
main
air
bleed
10
Primary
air
vent
pipe
11
Primuy
main
nozzle
12
Choke
valve
13
Primary
small
venturi
14
Secondary
small
venturi
15
Secondary
air
vent
pipe
16
Secondary
main
nozzle
17
Secondary
main
air
bleed
18
Secondary
slow
air
bleed
1
Oloke
valve
2
Primary
air
vent
pipe
3
Prima
y
main
nozzle
4
Primary
slow
jet
19
Plug
20
Secondary
slow
jet
21
Needte
22
Fuel
fLlter
23
Secondary
tIuottle
valve
24
Auxiliary
valve
25
Secondary
main
jet
Note
Do
not
remo
the
parts
inarbd
with
anuteriak
EF416A
Fig
EF
17
Carburetor
PRIMARY
SYSTEM
PrlinarJ
main
sJstam
The
fUel
flowing
out
of
the
passages
at
bottom
of
float
chamber
passes
through
the
primary
main
jet
and
is
mixed
with
air
coming
from
main
air
bleed
The
gas
mixture
is
pulled
out
into
the
venturi
through
the
main
nozzle
When
throttle
valve
is
wide
open
and
engine
require
dense
mixture
gas
power
valve
opens
and
fuel
also
flows
into
main
system
EF044A
Fig
EF
18
PtJrlially
Loading
EF
8
Page 95 of 548
I
Secondary
slow
air
bleed
2
Secondary
main
air
bleed
3
Secondary
main
nozzle
4
Primary
main
nozzle
5
Primary
main
air
bleed
6
Primary
slow
air
bleed
7
Primary
slow
jet
8
Primary
main
jet
9
Idle
nozzle
10
Primary
throttle
valve
II
Auxiliary
valve
12
Seco
dary
throttle
valve
13
Secondary
main
jet
14
Counterweight
IS
Secondary
slow
jet
EF419A
Fig
EF
24
At
Full
Open
High
Speed
Engine
Fuel
Secondary
slow
system
Step
system
The
construction
of
this
system
corresponds
to
the
idling
and
slow
system
of
the
primary
system
This
system
aims
at
the
power
filling
up
of
the
gap
when
fuel
supply
is
transferred
from
the
primary
system
to
the
secondary
system
The
stepport
is
located
near
the
auxiliary
valve
in
its
fully
closed
state
ANTI
DIESELING
SYSTEM
The
carburetor
is
equipped
with
an
anti
liese1i
lg
solenoid
valye
As
the
ignition
switch
is
turned
off
the
valve
is
brought
into
operation
shutting
off
the
supply
of
fuel
to
the
slow
circuit
The
following
figure
shows
a
see
tional
view
of
this
control
An
ti
dies
eling
solenoid
valve
Ignition
switch
OFF
ON
t
L
li
FLOAT
SYSTEM
There
is
only
one
float
chamber
while
two
carburetor
systems
primary
and
secondary
are
provided
Fuel
fed
from
the
fuel
pump
flows
through
the
filter
and
needle
valve
into
the
float
chamber
A
constant
fuel
level
is
maintained
by
the
float
and
needle
valve
Because
of
the
inner
air
vent
type
float
chamber
ventilation
fuel
con
sumption
is
not
affected
by
dirt
ac
cumulated
in
the
air
cleaner
Ignition
switch
Q
1
T
Battery
niT
EC
3
Fig
EF
25
Anti
dieseling
Solenoid
Valve
The
needle
valve
includes
special
hard
steel
ball
and
wiD
not
wear
for
all
its
considerably
long
use
Besides
the
insertion
of
a
spring
will
prevent
the
flooding
at
rough
road
running
THROTTLE
OPENER
CONTROL
SYSTEM
T
O
C
S
Except
FU
model
The
function
of
the
throttle
opener
is
to
open
the
throttle
valve
of
the
carburetor
slightly
while
the
car
is
in
EF
10
deceleration
During
deceleration
the
manifold
vacuum
rises
and
the
quan
tity
of
mixture
in
the
engine
is
not
suffICient
for
normal
combustion
to
continue
4
consequently
a
great
amount
of
unburned
HC
is
emitted
Carburetors
equipped
with
the
throttle
opener
supply
the
engine
with
an
adequate
charge
of
combustible
mixture
to
maintain
proper
combus
tion
during
deceleration
resulting
in
a
dramatic
reduction
in
HC
emission
The
system
for
the
manual
trans
mission
model
consists
of
servo
dia
phragm
vlicuum
control
valve
throttle
opener
solenoid
valve
spee
l
detecting
switch
and
amplifier
On
the
auto
matic
transmission
model
an
inhibitor
and
inhibitor
relay
are
used
in
place
of
speed
detecting
switch
and
amplifier
on
the
manual
transmission
model
An
altitude
corrector
fitted
to
vacuum
control
valve
serves
to
automatically
regulate
the
operating
pressure
in
the
system
with
variation
of
atmospheric
pressure
T
o
C
S
n
operatIon
At
the
moment
when
the
manifold
vacuum
increases
as
occurs
upon
de
celeration
the
vacuum
control
valve
opens
to
transfer
the
manifold
vacuum
to
the
servo
diaphragm
chamber
and
the
throttle
valve
of
the
carburetor
opens
slightly
Under
this
condition
a
proper
amount
of
fresh
air
is
sucked
into
the
combustion
chamber
As
the
result
complete
combustion
of
fuel
is
as
sisted
by
this
additional
air
and
the
amount
of
H
C
contained
in
exhaust
gases
is
dramatically
reduced
Throttle
Clpener
sol
nold
valve
operation
Manual
transmission
models
The
throttle
opener
solenoid
valve
is
controlled
by
a
speed
detecting
switch
which
is
actuated
by
the
speed
ometer
needle
As
the
car
sp
ed
falls
below
16
km
h
10
MPH
this
switch
is
acti
vated
producing
a
signal
The
signal
is
led
to
the
amplifier
so
that
the
signal
can
be
amplified
to
a
degree
large
enough
to
actuate
the
Page 96 of 548
throttle
opener
solenoid
valve
The
throttle
opener
solenoid
valve
is
actuated
and
the
servo
diaphragm
chamber
is
opened
to
the
atmosphere
In
this
case
the
seIVo
diaphragm
does
not
opera
te
Engine
Fuel
Automatic
transmission
models
As
long
as
the
shift
lever
is
in
the
N
or
p
position
the
inhibitor
switch
on
the
transmission
is
turned
on
and
the
throttle
opener
solenoid
valve
is
actuated
Under
this
condition
the
seIVo
diaphragm
does
not
operate
because
of
the
same
reason
as
men
tioned
for
the
manual
transmission
model
ON
Car
peed
betow
t6
km
h
to
mph
OFF
Car
peed
above
16
km
h
to
mph
To
intake
manifold
j
lJl
11
1
ti
i
ljn
L
o
1
Servo
diaphragm
2
Vacuum
control
valve
3
Altitude
corrector
4
Throttle
opener
solenoid
valve
5
Inhibitor
switch
N
p
ON
for
automatic
transmission
6
Speed
detecting
switch
below
10
MPH
ON
for
manual
transmission
7
Amplifier
8
Ignition
switch
9
Primary
throttle
valve
Note
FUEL
SHUT
OFF
SYSTEM
The
fuel
shut
off
system
is
to
shut
off
the
fuel
during
deceleration
there
by
reducing
fuel
consumption
This
system
also
helps
prevent
a
tempera
ture
rise
in
the
catalytic
converter
during
long
periods
of
deceleration
The
major
parts
of
the
system
are
an
anti
dieseling
solenoid
a
neutral
detecting
switch
a
throttle
valve
switch
and
an
engine
revolution
switch
e
1
l
6
I
I
I
I
I
I
I
I
I
l
L
I
Broken
tine
applies
only
to
Automatic
Transmission
7
Anti
dieseling
solenoid
Electric
current
OFF
ON
valve
I
I
h
L
Battery
I
Neutral
detecting
switch
l
2
Throttle
valve
switch
3
Engine
revolution
switch
4
Transistor
ignition
unit
o
Ignition
switch
EF105A
Fig
EF
26
Throttle
Opener
System
ill
Ignition
coil
U
EF846
Fig
EF
27
Anti
dieseling
Solenoid
Valve
EF
11
Page 97 of 548
Fuel
shut
oH
s
stein
operation
During
deceleration
when
the
en
gine
speed
is
above
a
certain
level
the
anti
dieseling
solenoid
valve
of
the
carburetor
closes
so
that
the
fuel
is
shut
off
When
engine
speed
falls
below
a
certain
level
the
anti
dieseling
solenoid
vaJv
oP
lS
so
that
the
f
el
flows
However
if
the
engine
speed
is
below
the
designated
level
even
during
deceleration
the
fuel
shut
off
system
does
not
operate
When
the
shift
lever
is
in
neutral
the
fuel
shut
off
system
does
not
operate
The
functions
of
each
part
of
this
system
are
as
follows
I
Engine
revolution
switch
The
engine
revolution
switch
turns
off
when
the
engine
revolution
is
above
2
100
rpm
and
turns
on
when
the
engine
revolution
falls
below
1
650
rpm
This
switch
is
actuated
hy
a
pulse
of
the
ignition
system
This
switch
is
located
on
the
right
hand
dash
side
panel
in
the
passenger
compartment
as
shown
in
the
follow
ing
figure
Engine
Fuel
I
Fig
EF
28
Location
of
Engine
Revolution
Switch
2
Neutral
detecting
switch
The
neutral
detecting
switch
turns
on
in
neutral
and
turns
off
in
other
shift
lever
positions
h
1
Neutral
detecting
switch
2
Revenelamp
switch
3
Top
detectim
switch
EC275
3
Throttle
valve
switch
The
throttle
valve
switch
is
installed
on
the
carburetor
It
turns
off
when
the
throttle
valve
is
closed
and
turns
on
when
the
throttle
valve
is
open
The
opening
position
of
the
throt
tle
valve
switch
is
calibrated
in
engine
rpm
when
the
engine
is
revved
up
under
no
load
The
switch
turns
on
when
the
engine
revolution
is
above
1
150
rpm
and
turns
off
when
the
engine
revolu
tion
is
below
1
000
rpm
1
Micro
switch
2
Connector
3
Adjusting
screw
EF848
Fig
EF
30
Location
of
Throttle
Valve
Switch
Fuel
shut
off
Anti
dieseling
Engine
revolution
Throttle
valve
opening
Shift
lever
position
system
solenoid
valve
Activated
Closed
Except
neutral
OFF
Closed
OFF
Neutral
ON
High
OFF
Except
neutral
OFF
Open
ON
Inactivated
Open
Neutral
ON
Closed
OFF
Excep
t
neutral
O
F
Low
ON
Neutral
ON
Except
neutral
OFF
Open
ON
Neutral
ON
Continuity
of
switch
Fig
EF
29
Locotion
of
Neutral
Detecting
Switch
EF
12