Transmission DATSUN 210 1979 Owner's Manual

1

Ignition
switch

2

Amplifier

3

Speed
switch
Note

a

Tightening
torque
is
1
8

to
2
2

kg
m
13
to
16
ft
Ib

b
After

replacement
start

engine
and

check
to
be
sure
that
fuel
is
not

leaking
and
that
anti
dieseling
sole

noid
i

in

good
condition

EFOSOA

Fig
EF47
Checking
Anti
dieaeling

Solenoid

l
SJ
Engine
Fuel

THROTTLE
OPENER

CONTROL
SYSTEM

When

idling
speed
is
too

high
and

does
not

drop
to

idling
speed
the

throttle

opener
control

system
should

be

checked

Manual
transmission
models

I

Check
for

continuity
between
A

and
8
terminals

specified
in
function

check

connector
with

ignition
switch

OFF

If

continuity
does
not
exist

sole

noid

may
be

faulty
Replace
throttle

opener
control
valve

assembly

e

1J
3

o
0

5

4

Solenoid

5
F
nction

check

connector

EF434A

Fig
EF
48
Circuit

Diagram
for
Throttle

Opener
Control
System
MIT

2

Turn
on

ignition
switch
and

check

voltage
across
terminals
A
and

8
l2V

battery
voltage
should

appear

in

this

step

If
not

check
fuse
or

amplifier

3

Keep
ignition
switch
ON

remove

speedometer
cable
from
combination

meter
Then

spin
speedometer
in

com

bination
meter
with

fingers
and
con

firm
that
the

speedometer
pointer

indicates
more
than
16
km

h

10

MPH

temporarily
Voltage
between

A

and
8
terminals
should
be

chang

ed

as
follows
More
than
10

miles
OV

Less
than
10
miles
12V

If

not

amplifier
or

speed
detecting

switch

may
be

faulty
replace
parts

with

new
ones

Automatic
transmission
models

I
Check
for

continuity
between
A

and
8

terminals

specified
in
function

check

connector
with

ignition
switch

OFF

EF
19
If

continuity
does

not
exist
sole

noid

may
be

faulty
Replace
throttle

opener
control
valve

assembly

If
t

r

If

I

Inhibitor
switch

N
p

ON

2
Solenoid

3
Function
check

connector
EF43SA

Fig
EF

49
Circuit

Diagram
for

Throttle

Opener
Control

System
AfT

2
Turn

ignition
switch
ON
check

voltage
across
A

and
8
terminals

Voltage
between
two
terminals

should
be

changed
as
follows

If
not

replace
inhibitor
switch

N
or
p

position
OV

Other
than

N

and
p

position
l2V

THROTTLE
OPENER

OPERATING
PRESSURE

I
Remove
harness
of
solenoid
valve

EF053A

Fig
EF

50

Removing
JWrneu

of

Solenoid
valve

2

Connect
rubber
hose

between

vacuum

gauge
and
intake
manifold

Note
A

quick
response
type
boost

gauge
such

as
Bourdon
s

type
is

recommended
a

mercury
type

manometer
should
not
be

used

3
Warm

up
engine
until
it

reaches

operating

temperature
Then

confirm

that

engine
idling

speed
is

specified

valve

Engine

idling
speed

Manual

transmission

700

rpm
Engine
Fuel

Automatic
transmission

in
0

position

650rpm

Note

On
automatic

transmission

models
never

race

engine
when

gearshift
lever

is
in
0

position

4
Run

engine
under
no

load
In

crease

engine
speed
to
3

000

to
3
500

rpm
then

quickly
close
throttle
valve

S
At
the
time
manifold

vacuum

pressure
increases

abruptly
to

600

rnmHg
23
6

inHg
or
above
and

then

gradually
decreases
to
the
level

set
at

idling

a

Maximum

negative
pressure

b

Operating
pressure

c

Idling
pressure

Nega
ive

pressure

EC502

Time

Fig
EF

52
Characteristic
Curve

of

T
O
C
S

6
Check
that
the
T

O
C
s

operating

pressure
is

within
the

specified
pres

sure

Specified

pressure
0
m

sea
level

end
760

mmHg
30

inHgl
atmOs

pheric
pressure

Non
Califomia

models

520
20

mmHg

20
47
0
79

inHg

California
models

560
20

mmHg

22
05

9
79

inHgl

7

I

If
it
is
lower

than
the

specified

level

turn
the

adjusting
screw
or

nut

in
the

following
direction

until
correct

adjustment
is

made

Adjusting
nut

Clockwise

2
If
it
is

higher
than
the

specified

levei
turn
the

adjusting
screw
or

nut

in
the

following
direction
until
correct

adjustment
is

made

EF
20
Adjusting
nut

Counterclockwise

Note

When

adjusting
T

O
C
S
turn

adjusting
nut
in
or
out
with
lock

spring
in

place
Always
set
lock

spring
properly
to

prevent
changes

in

set

pressure

Vo

1

Adjusting
nut

2
Lock

spring

n

EC802

EF055A

Fig
EF
53

Adjusting
Ope
llting

Pre
3ure

Note
The

operating

pressure
varies
in

proportion
to
altitude

a
When

atmospheric

pressure
is

known

operating
pressure
will
be

found

by
tracing
the

arrow
line

A
When

altitude
is

known

op

erating

pressure
will
be

found

by

tracing
the

arrow
line

B

b

When

checking
T

O

C
S

operating

pressure
note

atmospheric
pressure

and
above
sea

level
in
which

check

Engine
Fuel

SERVICE
DATA
AND

SPECIFICATIONS

GENERAL

SPECIFICATIONS

CARBURETOR

California
models

Non
caJ
ifornia
model

Manual
tranlDlWion

Automatic
transmission

Manual
transmission
FU
model

utomatic
transmission

Type
DCH306
6t
DCH306
63
DCH306
60E

DCH306
67
DCH306
68
3

DCH306
69
1
DCH306
60
2

DCH306
12
4

Primary
Secondary

Primary
Secondary
Primuy
Secondary
Primary

Secondary
Primary
Secondary

Outer

diameter

26
1
02
30
1
18

26
1

02
30
1
18

26
1

02
30
1
18
26
1

02
30
1
18
26
1

02
30
1
18

mm
in

Venturi
diameter

23

0
9t
27
1
06
23

0
91
27
1
06
23
0
91
27
1
06
22

0
87
27
1
06
23
0
91
27
1
06

mm

in

Main

jet
107
145
107

1145
106

145

1107
145
105

1145

104
2
t04
4

Main
air
bleed

95

180
95

180
1110
80
65

1M
195
80

Slow

jet
1145
150
145
150
145
150
146

150
45

150

Powerjet

143
43

140
148
2

48
138
140
4

1
With
A15

engine

2
4
For
Canada

models

3
Common

to
models
with
A14
and

AlS
engines
except
Canada

INSPECTION

AND

ADJUSTMENT

A
T
C
AIR

CLEANER

Air

con
trol
valve

partially

opens

Air
control
valve

fully
opens
Oc
OF

Oc
F
38
to
54

100
to
129

Above
55
131

IDLE

COMPENSATOR

Idle

compensator
partially

opens

Bi
metal
No
I

Bi

metal
No
2

Idle

compensator
fully

opens

Bi
metal
No
I

Bi
metal
No
2
Oc
OF

60
to
70

140
to

158

70
to
80
158
to
176

Oc
OF

Above

70

158

Above

80

176

FUEL

PUMP

Fuel

pressure

Fuel

pump

capacity
kgfcm2

psi

cc

cu
in
min

at

rpm
0
27
3

8

450
27

46
1

000

EF

32

Emission
Control

System

ATloN

The

operation
of
the
E

G
R

system
is

as
follows

U

S
A

models

Except
FU
model

Thermal

Water

temperature
Oc
OF

vacuum
valve
B
P
T
valve

Exhaust

pressure
mmH20
inH20
E
G
R

system

Below

SO
to

63

I22
to
145
Open
Exhaust

pressure

Below
21

to
33
0
82
to
1
30
Open

Not

actuated

Above

21
to

33
0
82
to

1
30
Closed

Exhaust

pressure

Open
Not
actuated

Aliove

Closed
Below
21
to
33

0
82
to
1
30

SO
to

63

I
22

to
145

Above
21
to
33

0
82

to
130
Closed

Actuated

FU
model

Water

temperature
Oc
F
Thermal
B

P
T
valve

E
G
R

system

vacuum
valve

Exhaust

pressure

mmH20
inH2O

Below
Below
21
to
33
0
82
to

1
30

Open

Closed
Not
actuated

40
to
63
104
to
145

Above
2
to

33
0
82
to
1
30
Closed

Above
Below
21

to
33

0
82
to
1
30

Open
Not
actuated

40
to
63
104
to
145
Open

Above
21
to

33
0
82
to
1
30
Closed
Actuated

Canada
models

Water

temperature
Oc
OF
Thermal

vacuum
valve
E

G
R

system

Below
40

to
63

I04
to
145

Closed

Not
actuated

Above
40
to
63

I04
to
145

Open
Actuated

E
G
R
control
valve

The
E

G
R
control

valve

controls

the

quantity
of
exhaust

gas
to
be
led

to
the
intake

manifold

through
vertical

movement
of
the

taper
valve
con

nected
to
the

diaphragm
to
which
vacuum
is

applied
in

response
to
the

opening
of

the
carburetor
throttle

valve

E
G
R

control
valve
construction

and

type
vary
with

transmission

type
and
car
destination
For
identification

purposes
the

part
number

is

stamped

on
the
recessed

portion
at
the

top
of

the
valve

EC22

CAUTION

Do
not
allow
water
to

get
inside
the

thermal
vacuum
valve

EC161A

Fig
EC
77
Ch

c

jng
Th
rmal
Vacuum

Valve

3

port
type

Thermal

vacuum

valve

2

port
type

Dismount
thermal

vacuum
valve

from

engine

Note

Before

dismounting
drain
en

gine
c
oolant
from

engine

Apply
vacuum
to
thermal

vacuum

valve
and

check
to
be
sure

that
ther

SPARK
TIMING

CONTflOL

SYSTE
VI

DESCRIPTION

The

spark

timing
control

system
is

designed
to
control

the
distributor

vacuum
advance

under

varying

driving

conditions
so

as
to
reduce
He
and

NOx
emissions
Emission
Control

System

mal

vacuum
valve

opens
or
closes
in

response
to

engine
coolant

tempera

ture

as

specified

Thermal

vacuum
valve

should

open

at

a

temperature
specified
below

com

pleting
the
vacuum

passage

Thermal

vacuum
valve

opening

temperature

40
to

63
c
104
to
1450

Fl

CAUTION

00

not
allow
water
to

get
inside
the

thermal1
acuum
valve

Jl
i

g

J

eC
42

Fig
EC
78
Ch

ckjng
Thermal
Vacuum

Valve

M
T
model

When

the
transmission

is
shifted

into
the

4th
or
5th

gear
the
electric

current
flows
into

the
vacuum

switch

ing
valve
The
vacuum

switching
valve

is

then
actuated
and

close
the
vacuum

passage
As

a

res
li
the

distributor

fully
advances

its

ignition

liming

When
the
transmission
is

shifted

into

any
gear
other

than
4th
and
5th

current
flow
is

interrupted
The

vacu

umswitclting
valve
is

then
deactuated

and
the

vacuum
leak

passage
is

E026
BoP

T
valve

1

DiSCOIUlect
two
vacuum
hoses

on

BY
T
valve

2

Plug
one
of
two

port
of
BY
T

valve

Apply
a

pressure
above
SO

nimH20

1
97

inHP
to
B
P
T
valve
and

orally
suck
back
other

port
of
B
P
T

valve

as
shown
below

to
check
for

leakage
If

a
leak
is
noted

replace

valve

Apply
pressure
above

SO
mmH10
2
inH10

EC311A

Fig
EC
79

Checking
B
P
T
Valve

opened
This
weakens
the
vacuum

signaUransmitted
from
the
carburetor

As
a
result
the

ignition
timing
of
the

distributor
is

slightly
advanced

On
U
s
A
models

except
for

the

FU
model
a
thermal

vacuum
valve

3

port
type
is
added
on
the

vacuum

line
between
the
carburetor
and
dis

tributor

The
vacuum

signal
is
controlled

by

this
thermal

vacuum
valve

in
accord

ance
with
variation

in

engine
cooling

water

temperature

Emission
Control

System

M
T
models
For
U
S
A
models
except
FU
model

Distributor

r

To

B
P
T

valve

HIGH
vacuum

valve

OrifiCO

i
jarburetor

l

Vacuum

switching
valve

Ignition
switch

I

To
air

cleaner

Fuse

8
Top
switch

4th
5th

Others
Battery

8
ON

OFF

Canada
and
FU
models

OM

1orifico

F
JCMburetor

To
air
cleaner

1
V
cuum

switching
valve

To

intake
manifold
FU
models
only

Fuse

G1j
Ignition
switch

Battery

7

EJ
Top
switch

4th
5th
ON

Others
OFF

EC

27
Water

temperature

OC
OF

Below

5
to

18
41
to
64

Between

I
5

to
18
and

50
t063

41
to

64
and

I
122

to
145

I

I
Above
50
to
63

122
to
145
Transmission

ear

position

Top

4th
and

5111

Other
than

Top

Top

4th
and
5th

Other
than

Top

Top

4th

and
5th

Other
than

Top

Non
California

models

only
Thermal

Spark

timing
vacuwn

valve

Fully

advanced

I
Closed

Partially

advanced

Partially

I
advanced

Partially

I
Open

ad

ced

Fully

I
advanced

I
Closed

Partially

advanced

EC162A

Transmission
gear
Vacuwn

Ignition
timing
switching

position

valve

Top
4th
and
5th

Fully
advanced
Closed

Other
than

Top
Partially
advanced

Open

EC371A

Fig
EC

BO

Spork
Timing
Control

Sy
tem
MIT

Emission

Control

System

AfT
models

Spark
timing
control

systems
on

Arc
models

are
divided
into
3

types

On
California

models
a

top
detect

ing
switch
i3

added
on
the
line

pressure

circuit
beside

the
transmission
case
The
vacuum

switching
v
iJve

and

thermal
vacuum
valve

3

port

type

control

the

spark
advance

by
the

engine
cooling
temperature
and

gear

position

On

non
California
models

excpt

AfT
models
Califomle
models

Distributor

To
B
P

T

valve

1
Orifice

i1J

1
ICh

OJ

L
J
To
air

cleaner

Fu

EJ
Top
5witch

D3
R
ON

Others
4
OFF

Battery

Non
californla
models

except
Canada

To
air
cleaner

l

o

o
0

Ig

o

g
00

00
00

r
Vacuum

delay
valve

Thermal

vacuum

valve

Water

temperature

OC
OF
Thennal

vacuum

valve

Oosed
Ignition
timing

Below
5
10
18

41
io
64

Between

5
to

IB
and

50
to
63

411064
and
122
10
145

Above
50
to
63

122
to
145
Fully
advanced

PartiaDy
advanced

Open

Fully
advanced
Oosed

EC2a
Water

temperature

OC
oF

Bdow

51018
41
to
64

Between

5
to
18

and
50
10
63

411064
and

12210145

Above
50
to

63

122
to

145

Distributor

Carburetor

J

l
Canada
the
thermal

vaCUUDl

Vl
lve

3

port
type
and
vacuum
delay
valve

control
the

spark
advance

On

Canada
models
the
vacuum

delay
valve
is
installed

midway
on
the

vacuum

passage
from
the

carburetor

to

the
distributor

Transmission

gear

position
Thermal

vacuum

va1ve
Ignition
timing

R
and

D

3
FuBy

advanced

Other
than

Rnand

D
3
Oosed

Partially

advanced

R

a
gd

D
3

Other
than

R
and

0

3
Partially

advanced
Open

R
aud

D

3
Fully

advanced

Other
than

R
and

m
3
Oosed

Partially

advanced

Canada
models

Vacuum

delay
valve
Distributor

Carburetor

J

l

EC163A

Fig
EC
81

Spark

Timing
Control

Sy
tem

Af1

J

Vacuumswltching
valve

The
vacuum

switching
valve

changes
the

vacuum

passage
by
the

electrical
signa

The
solenoid
installed
in
the
valve

moves
the
needle

valve
and
controls

vacuum
signal
in

order
to

change
the

vacuum
advance

I
c

III

J

IL
jll
J

EC164A

Fig
EC
82
Vacuum

Switching
Valve

Thermal
vacuum
valve

3

port
type

U
S
A
modele

except

FU
model

The
thermal
vacuum
valve
detects

engine
cooling
water

temperature
and

controls
the
vacuum
signal
for
distrib

utor
vacuum
advance
mechanism

This
3

port
type
thermal
vacuum

valve
is

a
2

stage
action

type

That
is

when
the
water

temperature
is
too

low

or

high
the
acuum
signal
is
transmit

ted
to
the
distributor

ffi2
To
air

cleaner

From
B
PT

valve

From
distributor

EC156A

Fig
EC
83
Thermal
Vacuum
Valve

3

port
type

Top
detecting
switch

For
M
T
models

The

top
detecting
switch
for
M
T

models
is
located

on
the
side
face
of

the
transmission

gear
box

A

plunger
of
the
switch
detects
the

position
of
the

striking
rod
and
Emission
Control

System

changes
the

continuity
between

two

lead
wires

EC165A

Fig
EC
84

Top
Detecting
Switch

Top
detecting
switch

For
Celifornla
AfT
model

The

top
detecting
switch
for

Arr

models
is

installed
as
a

plug
for
t
e

governor
feed
line

pressure
take
out

port
for
service

This
switch
detects
the
line

pressure

for
the
band

servo
release
side
and

front
clutch
and

changes
the
continui

ty
between
lead
wires
to
the

switch

body

EC166A

Fig
EC
85

Top
Detecting
Switch

AfT
model

Vacuum

delay
valve

The
vacuum

delay
valve
prevents
a

rapid
vacuum

change
in
the
distributor

vacuum
advance
line
This
valve
is

designed
for

one

way
operation
and

consists
of
a
one

way
umbrella
valve

and
a

sintered
steel
fluidic
restrictor

B

P
T
valve
side

J

l

1

Sintered
metric
disc

2
One

way
unbreUa
valve

EC860

Fig
EC
86
Vacuum

Delay
Value

EC

29
In
line
orifice

Some
orifices
are
installed
in
the

midway
at

the
vacuum
line
The
size

of
the

orifice
is

important
to
control

vacuum
advance

Therefore

pay
attention

not
to
lose

them

and
install
a

proper
part
when

replacing

Orifice

EC167A

Fig
EC
87
In
line

Orifice

REMOVAL
AND

INSTALLATION

f
Vacuum

switching
valve

The

vacuum

switching
valve
is

located
on
the

rear
end
of
the

intake

manifold

I
Disconnect

a

pair
of

lead
wires

from
valve
and

two
rubber
tubes

2
Loosen
two

screws

securing
valve

to
intake
manifold

Vacuum

switching

valve
can
then
be
taken
out

3
Installation
is
in
the
reverse

s

quence
of

removal

EC16BA

Fig
EC
88

Removing
Vacuum

Switching
Valve

Top
detecting
switch

For
M
T
models

The

top
detecting
switch
is

located

on
the

side
face
of

the
transmission

gear
box

I
Disconnect

a

pair
of
lead
wires

2
Unscrew
the
switch

body
itself

The

switch
can
then
be
taken

out

3

Installation
is
in
the
reverse
se

quence
of
removal

dl
Tightening
torque

Top
cietectingswitch

2
0
to
3
0

kll
m

14
to
22

fHbl

@

EC892

Fig
EC
89

Remouing
Top

Detecting

Switch

Top
detecting
switch

For

AfT
models

The

top
detecting
switch
is

installed

on
the
side
face
of
the

gear
box

I

Disconnect
a
lead
wire

for

top

switch

2

Loosen
switch
itself

Switch
can
then
be
taken
out

Note

When
the

switch
is

remo
ed

automatic

transmission
fluid

flows

out

Prepare
some

rugs
to

prevent
the

fluid
rom

flowing
out

EC169A

Fig
EC
90

Remouing
Top

Detecting

Switch

An
models

3

Insta
tion

is
in

the
reverse
se

quence
of

removal
Emission
Control

System

dl
r

ingtorq

Top
detecting
switch

2
0
to
3
0

kll
m

14

to
22
ft

bl

Thermal
vacuum
valve

3

port
type

The

thermal
vacuum
valve
is
instal

led

on
the
rear
end
of

the

engine

cylinder
head

I

Drain

engine
coolant
about

one

liter

lUllS
qt
Ulmp
qt

2

Remove
manifold

nut

securing

heat
shi
eld

plate

r

l

EC170A

Fig
EC
91

Remouing
Hoot
Shield

Pwte

3
Disconnect
3
vacuum
hoses
and

unscrew
valve

itself
Valve
can
then
be

taken
out

4
Install

thermal

vacuum
valve
in

the

reverse

sequence
of

removal
At

this
time

the
valve
should
be

tighten

ed
to

a
tilt

angle
of
300

Note
Be
sure
to

apply
oealer
to

threads
o
the
valve

prior
to
instal

ling
new

valve
t
J
T1g11taning
torqUe

Thermal

cuum
waive

Less
than

2
2

kll
m
16
ft

bl

Manifold
nut

1
5

to
2

0kg
m

11
to
14
ft

bl

From
distributor

From
B
P
T

valve

From
air
cleaner

ECl71A

Fig
EC

92

mtalling
Thermal
Vacuum

Value
3

port
type

Vacl
ul11

delay
valVe

The
vacuum

delay
Valve
is

installed

on
the

midway
o
the
vacuum
tube

between

the
carburetor
and
distributor

vacuum
advance
mechanism

In

installing
the
valve
make
sure

that
the
brown
face

sid
is
connected

to
the
carburetor

side

Carburetor
sid

C
r

i

J

EG
30
Distributor

side

One
way

umbreDa
valve

Sintered
metal
disc

EC277

Fig
EC
93
In

tolling
Vacuum

Deloy
Value

REMOVAL

AND

INSTALLATION

I

Jack

up
the

car

Note

Apply
parking
brake
and

place
wheel

chocks

2
Remove

screws

securing
lower

shelter
of

catalytic
converter

Loosen

flange
bolt

connecting

catalytic
converter
to

front
and

rear

exhaust
tube

Catalytic
converter

assembly
can

then
be
taken
out

3

Installation
i
in
the

reverse
se

quence
of
removal

CAUTION

a
Be

careful
not
to

damage
catalytic

co
when

handliilg

b
Never
wet

catalyzer
with
water
oil

etc

t
J

Tightening
torque

Catalyti
converter
bolts

2
6
to
3
4

kg
m

19
to
25
ft
lb
Emission
Control

System

EC075A

EC076A

Fig
EC
103

Removing
Catalytic

Converter

INSPECTION

PrelimInary
In
pectlon

Vi

ually
check
condition
of
all

component

parts
including
hose

tubes
and
wires

replace
if

necessary

Refer
to
Air

Injection

System
for

inspection

EC
34
Catalytic
converter

Whether

catalytic
converter
is

nor

mal
or
not
can
e

checked

by
ob

serving
variation
in
CO

percentage

The
checking

procedure
is

as
follows

Apply
parking
brake
Shift

gears

into

Neutral
for
manual
transmis

sion

and
N
or

P
for

automatic

transmission

position

I

Adjust
engine
idling

speed
and

CO

percentage
Refer
to

Adjusting

Carburetor
Idle
RPM
and

Mixture

Ratio
for

adjustment

2
Race

engine
1
500

to
2
000

rpm

two
or

three
times

under
no
load
and

make
sure

that

specified
CO

percent

age
obtained

3
Remove

cap
and
connect

air
hose

to
air

check
valve

If

idling
speed
increases

readjust

it
to

specified
speed
with
throttle

adjusting
screw

4

Warm

up
engine
for
about
four

minutes

at
2
000

pm
under
no
load

S

Measure

Ci
percentage
at

idling

speed
After

stepAhas
been

complet

ed
wait
for

one
minute
before

making

CO

percentage
measurement

6
If
CO

percentage
measured
in

step
5
is

less
than
0
3
the

catalytic

converter

is
normaL

7

If
CO

percentage
measured
in

step
5
is

over
0
3
recheck
AJ
S
and

1

replace
air
check
valVe

The
perform

inspection
steps
4

and
S

8

If
CO

percentage
is

still
over
0
3

in

step
7

catalyt
iC

converter
i

mal

functioning
Replace
catalytic
con

verter