1979 DATSUN 210 ECO mode

a

California
models
Non
california
modeli
Except
Canada
Canada
III
C

A4
A15
A14
AI5
A
4
a

M
T
AfT
AfT
M
T
A
T
M
T
FU
A
r
MfT
AfT
11
1
4

DCH306
61
DCH306
63
DCH306
69
DCH306
60E
DCH306
68
DCH306
67
DCH306
68
DCH306
60
DCH306
12
0
a

Fuel
level
adjustment

Fuel
level
from
top
of
19
0
75
19
0
75
19
0
75
19
0
75
19
0
75
19
0
75
19
0
75
19
0
75
19
0
75

carburetor
body
mm
in

H

Gap
between
vlave
stem
and

float
scat
mm
in
t5
0
59
IS
0
59
IS
0
59
IS
0
59
IS
0
59
IS
0
59
IS
0
59
IS
0
59
IS
0
59

H
1
3
to
1
7
1
3
to
1
7
1
3
to
1
7
1
3
to
1
7
1
3
to
1
7
1
3to17
1
3
to
1
7
1
3
to
1
7
1
3
to
1
7

h
0
051
to
0
051
to
0
051
to
0
051
to
0
051
to
0
051
to
0
051
ro
0
051
to
0
051
to

0
067
0
067
0
067
0
067
0
067
0
067
0
067
0
067
0
067

Bi
metal
setting
Center
of
Center
of
Center
of
Center
of
Center
of
Center
of
Center
of
Center
of
Center
of

Bi
metal
setting
index
mark
index
mark
index
mark
index
mark
index
mark
index
mark
index
mark
index
mark
index
mark

Bi
metal
resistance
3
7
ro
8
9
3
7
to
8
9
3
7
to
8
9
3
7
to
8
9
3
7
to
8
9
3
7
to
8
9
3
7
to
8
9
3
7
to
8
9
3
7
to
8
9

at
210C
700F
n
m

Fast
idle
adjustment
Fast
idle
0
73
to
0
84
1
00
to
1
14
1
00
to
1
14
0
73
to
0
84
1
00
to
1
14
0
73
to
0
84
1
00
to
1
14
0
73
to
0
84

m
earn
2nd
step
1
00
to
1
14
CO

T1
0
0287
to
0
0394
to
0
0394
to
0
0287
to
0
0394
to
0
0287
to
0
0394
to
0
0287
to
0
0394
to
S

W
Gap
between
throttle
valve
and
0
0331
0
0449
0
0449
0
0331
0
0449
0
0331
0
0449
0
0331
0
0449
Cl

carburetor
body
mm
in

Fast
idle
speed
at
2nd
earn
step
1
900
to
2
700
2
400
to
3
200
2
400
to
3
200
1
900
to
2
700
2
400
to
3
200
1
900
to
2
700
2
400
to
3
200
1
900
to
2
700
2
400
to
3
200
Cl

rpm

Vacuum
break
adjustment
1
80
to
1
98
1
80
to
1
98
1
80
to
1
98
1
80
to
1
98
1
80
to
1
98
1
98
to
2
16
1
80
to
1
98
1
80
to
1
98
1
80
to
1
98

Gap
between
choke
valve
0
0709
to
0
0709
to
0
0709
to
0
0709
to
0
0709
to
0
0780
to
0
0709
to
0
0709
to
0
0709
to

and
carburetor
body
mm
in
0
0780
0
0780
0
0780
0
0780
0
0780
0
0850
0
0780
0
0780
0
0780

Choke
unloader
adjustment

Gap
between
choke
valve
and
2
36
0
0929
2
36
0
0929
2
36
0
0929
2
36
0
0929
2
36
0
0929
2
17
0
0854
2
36
0
0929
2
36
0
0929
2
36
0
0929

carburetor
body
mmOn

Interlock
opening
of
primary
and
5
83
0
2295
5
83
0
2295
5
83
0
2295
5
83
0
2295
5
83
0
2295
5
83
0
2295
5
83
0
2295
5
83
0
2295
5
83
0
2295

secondary
throttle
valves
mm
On

Dash
pot
adjustment
1
900
to
2
100
1
900
to
2
100
1
900
to
2
100
2
300
to
2
500
1
900
to
2
100
1
900
to
2
100
1
900
to
2
100
2
300
to
2
500
1
900
to
2
100

without
loading
rpm

Throttle
opener
operating
pressure
560
20
560
20
560
20
520
20
520
20
520
20
5
0
20
520
20

0
m
sea
level
and
760
mmHg
22
05
22
05
22
05
20
47
20
47
20
47
20
47
20
47

29
9
inHg
atmospheric
pressure
0
79
0
79
0
79
0
79
0
79
0
79
0
79
0
79

mmHg
inHg

Remove

snap
ring
CD
and
lock
bolt

@
and
the

following

parts
can
be

detached
from
heat

control
valve

shaft

Key

ID

Counterweight

@

Thermostat

spring

@

Coil

spring

@

Note
As

previously
descnbed

heat

control

valve

j
is

welded

to
valve

shaft

@
at

exhaust
manifold

and

cannot
be
disassembled

To
install

reverse
the
removal

procedure

INSPECTION

1
With

engine
stopped
visually

check
the

quick
heat
manifold

system

for
the

following
items

I
Check
heat
control
valve
for

malfunction
due

to
break
of

key
that

locates

counterweight
to
valve
shaft

2
Rotate
heat
control
valve
shaft

with

fingers
and
check
for

binding

between
shaft
and

bushing
in

closing

and

opening
operation
of

heat
control

valve
If

any
binding
is
felt
in

rotating

operation
move
valve
shaft
in
the

rotation

direction
several
times
If
this

operation
does
not
correct

binding

condition
it
is

due
to
seizure
between

shaft
and

bushing
and
exhaust
mani

fold
should

be

replaced
as
an

assem

bly
Emission
Control

System

Counterweight

Heat
control
valve

Stopper
pin

EC249

Fig
EC
IO

Checking
Heat
Control

Valve
Movement

2
Run

engine
and

visually
check

counterweight
to
see
if
it

operates

properly

I
When

engine
speed
is
increased

discharge

pressure
of

exhaust

gases

causes

counterweight
to

move

down

ward

clockwise

2
For

some
time

after

starting

engine
in

cold
weather

counterweight

turns
counterclockwise
until
it

comes

into

contact
with

stopper
pin
installed

to

exhaust
manifold

EC
9
Counterweight
gradually
moves

down

clockwise
as

engine
warms

up

and
ambient

temperature
goes
higher

around
exhaust
manifold

If
it
does
not
move
at
all
check

and

replace
thermostat

spring

AIR

INJECTION

SYSTEM
A

I
S

DESCRIPTION

The
Air

Injection
System
A
I
S

is

adopted
on
U
S
A

models

except
FU

models

and

injects
compressed
air

secondary
air

coming
from
the
air

pump
into

the
exhaust

port
of
the

cylinder
head
to
reduce

hydrocarbons

He
and

carbon

monoxide
CO
in

exhaust

gas
through
recombustion

There

are
two

types
of
Air

Injection

System

Fresh
outside
air
is
drawn

by
the
air

pump
through
the

air

pump
air

cleaner

Compressed
air
is

injected
into

the

exhaust

manifold

through
the

check
valve

The
A
B

valve

supplies
air
from
the

carburetor
air
cleaner
to
the

intake

manifold

so
as

to

prevent
after

fire

during
deceleration

The
amount

of

injected
air
is
con

trolled

by
C
A

C
valve

California

models
or
air

relief
valve

Non

California
models

Emission
Control

System

r

@
@
CD

L

I

1
Air

pump
drive
hub

5
V
ne

2

Housing
6
Carbon
shoe

3
Rotor

rins
7
Shoe

spri
ng

4

End
cover
8

Stripper

with
needle

bearing
9
Rotor
shaft

Anti
backfire
A
B
valve

This
valve
is
actuated

by
intake

manifold
vacuum
to

prevent
backfire

in
the

exhaust

system
at
the

initial

period
of
deceleration

At

this

period
the
mixture
in
the

intake
manifold

becomes
too
rich
to

ignite
and
burn
in

the
combustion

chamber
and

burns

easily
in

the
ex

haust

system
with

injected
air

in
the

exhaust
manifold

The
A

B
valve

provides
air
to
the

intake
manifold
to

make
the
air

fuel

mixture

leaner
and

prevents
backfire

To
in
take

manifold

vacuum

EC069

Fig
EC

15
A
B
Valve
10
Ball

bearing

11
Front

bearing
cOYer

12

Pulley

13

Pulley

for
air
conditioner

Check
valve

A

check
valve
is

located
in
the

air

pump
discharge
lines
The
valve

pre

vents
the

backflow
of
exhaust

gas

which
occurs
in

the

following
cases

I

When
the
air

pump
drive
belt

fails

2
When

relief
valve

spring
fails

1

11
rom

pump

1

Spring

2
Rubber
valve

3

Seat
SecondarY
air

4
J
Exhaust

gas

EC322

Fig
EC

16
Check
Valve

Air

gallery

The

secondary
air

fed
from
the
air

pump
goes

through
the
check
valve
to

the

air

gallery
in
the

cylinder
head
It

EC
lt
14
Inlet

cavity

15

Outlet
cavity

EC066A

Fig
EC
14
Air

Pump
two
vane

lype

is
then

distributed
to

each
exhaust

port
and

injected
near
the

exhaust

valve

0

iJl

Ai

gallery

2

Exhaust

port

3
Exhaust

manifold

EC316

Fig
EC

17
Air

Gallery

Air
pump
relief
valve

Non
California

models

The
air

pump
relief

valve
controls

the

injection
of

secondary
air
into

the

exhaust

system
when
the

engine
is

running
at

high
speed
under
a

heavily

loaded

condition
It

accomplishes
the

following
functions
without

affecting

the

effectiveness
of
the

exhaust
emis

sion
control

system

Minimizes
exhaust

gas
tempera

ture
rise

2
Minimizes

horsepower
losses
reo

sulting
from
air

injection
into
the

exhaust

system

3

Protects

pump
from
excessive

back

pressure

To
carburetor

air
cleaner

Secondary

ir

Not
actuated

To
carburetor

air
cleaner
J

l
Secondary

sir

Actuated

EC294

Fig
EC
18
Air

Pump
Relief
Valve

c
A
C
valve

Californiamodels

The
C
A
C
valve

controls
the

quantity
of

secondary
air
fed
from
the

air

pump
according
to
the
load
condi

tion
and
it

discharges
the

secondary

air
into
the

atmosphere
to

prevent

overheating
of

the

catalytic
converter

This
valve
is

operated
by
intake

manifold
vacuum

and
air

pump
dis

charge

pressure
When
intake
manifold

vacuum
is

small
or
in

the

high
load

range
the
No
2
valve

opens
when
it
is

great
or
in

the
low
load

range
the
No

I

valve

opens
If
air

pump
discharge

pressure
is

large
or
the

engine
is

running
at
a

high
speed
the
No
3

valve

opens
admitting
the
air

pump

discharge

pressure
to
the
No
2
dia

phragm
chamber
of
the
C

A
C
valve
mission
Control

System

and

opening
ihe
No
i
valve
At
this

point
the
No
2
valve

serves
as
a

relief

valve

F
111

air
pump
No
3

valve

EC787

Fig
EC
19

C
A
C
Valve

I
Engine
in
low

speed
and

light
load

When
the

engine
is

operating
under

these
conditions
intake
vacuum
is

high
The
No
2
valve
unitized

with

the
No
I

diaphragm
is

lifted

by
the

intake

manifold
vacuum

pushing
up

the
No
I

valve
These
valves
will
then

stop
at
a

position
where
a

balanced

condition
exists
between
air

pump

discharge
pressure
an
d

spring
tension

acting
on
the

No
I

and
No

2
valves

The

No
2

jiaphragm
however
does

not
move
due

to
low

engine
speed
low

air

pump
discharge
pressure
and

spring

tension

acting
on
the
No

3
valve
For

this
reason
these
valves
are

brought
to

a
balanced
condition

To
intake
manifold

t

i

l

3

Spring

4

ValveNo
3

5
Di

phragm
No
I
I

@

6

Spring

7

Valve
No
1

8
Valve
No

2

EC683

Fig
EC

20

Operation
of
C
A
C

Valve

1

2

Engine
in

low

speed
and

heavy
load

EC12
Wheo
the

engine
is

operating
under

these
cooditions

intake
manifold

vacuum
is
low
and

all
valves

are

balanced

t
To

intake

manUol

U

E

ii

ji
j

Ii
5

LL

jj

Ii
JI

l
Jij

ulJC

1t

To

atmosphere
EC685

Fig
EC
21

Operation
of
C
A
C

Valve
2

3

Engine
in

high
speed
and

middle

load

When
the

engine
is

operating
under

these
conditions
intake

manifold

vacuum
lies

midway
between
1

and

2

above
The
No
3
valve

moves
to

the
left

because
of

high
air

pump

discharge
pressure

To

intake
manifold

t

L

J

f
E

bt

I
5

tfi
11

I

LJr

To

tmg
J
j
1

EC
4

Fig
EC
22

Operation

of
C
A
C

Volve
3

REMOVAL
AND

INSTALLATION

Air
pump
air
cleaner

Loosen

nuts

securing
air

pump
air

cleaner
to

bracket
then
detach
air

cleaner
from
bracket

Air
cleaner
filter

and
air
cleaner
lower

body
are
built

into

a
unit
construction

Replace
air

cleaner
filter
and
lower

body
as
an

assembly

Note
When
tho
vaCUUm
hose

is
dis

connected

plug
it

up
or

engine
will

stumble

EC
47A

FiJ
Fig
EC
49

Disconnecting
Vacuum

Hose

from
C
A

C
Valve

5

Connect

hand
operated
vacuum

pump
in

place
and

manipulate
it
in

order

to

apply
a

pressure
of
2oo
to

250

mmHg
7
87

to
9
84

inHg

to

C
A
C

valve
Increase

engine
speed

to
3
000

rpm
and
confIrm
that

no
air

leaks
from
C

J
C
valve

Fig
EC

50

Checking
C
A
C

Valve

1

6
With
the
above

condition
discon

nect
air
hose
at
check
valve
and

plug
it

up
At
this

point
confirm

the
air

leaks

from

C
A

C
valve

ECl48A

Fig
EC

51

Checking
C
A
C
Volve
2
Emission

Control

System

7
If

teshesults

satisfy
3
4
5

and
6

the
C
A
C
valve

is

properly
function

ing

AIR
INDUCTION

SYSTEM
A
I
S

DESCRIPTION

The
air

induction

system
A
1
s
is

adopted
on
the
FU
model
and
Canada

models
and
is

designed
to
send
see

ondary
air
to
the

exhaust
tube
utiliz

ing
a
vacuum
caused

by
exhaust

pulsa

tion
in
the

exhaust
tube

Air
inductIon
valve

A
reed

valve

type
check
valve
is

installed
in

the
air

cleaner
When
the

exhaust

pressure
is
below

atmospheric

pressure

negative
pressure

secondary

air

is
sent
to
the
exhaust
manifold

When
the
exhaust

pressure
is

above

atmospheric
pressure
the

reed
valve

prevents

secondary
air

from

being
sent

back
to
the
air
cleaner

EC
t8
The

exhaust

pressure
in

the
exhaust

tube

usually
pulsates
in

response
to

the

opening
and

closing
of

the
exhaust

valve
and

it
decreases

below
atmos

pheric
pressure
periodically

If
a

secondary
air
intake
is

opened

to
the

atmosphere
under

vacuum
con

ditions

secondary
air

can
be

drawn

into

the
exhaust
tube
in

proportion
to

the
vacuum

Therefore
the
air
induction

system

A
I
s
reduces
CO

and
HC
emissions

in

exhaust

gases

operatiug
the
same
as

the
air

injection

system
A
I
s
The

system
cpnsistsof
an
air

in

tJctio

valve

a
filter
an

A
B
valve

and
hoses

fl

V

t

5

1

Air

ind9ction
valve

2
Air

c
eancr

3
Carburetor

4

Exhaust
manifold

5

Anti
obRcldlre
valve

EC919

Fig
EC
52

Ai
Induction

SYltem

1

Reed
valvo

2

Stopper

EC920

Fig
EC

53
Air
Induction

Val

INSPECTION

Entire

system

I

Make
a

thorough
vjsual
check
of

E

G
R

control

system
If

necessary

wipe
away
oil
to
facilitate

inspection

If

any
hoses

are
cracked
or

broken

replace

2

With

engine
stopped
inspect

E

G
R

control
valve
for

any
indication

of

binding
or

sticking
by

moving
dia

phragm
of
control
valve

upwards
with

a

finger

3
With

engine
running
inspect

E

G
R

control
valve
and
thermal
vacu

um
valve
for
normal

operation

1
When

engine
coolant

tempera

tun
is
low

Make
sure
that
E

G
R

control
valve

does

not

operate
when

engine
speed
is

increased
from

idling
to
3
000
to

3

500

rpm

Place
a

finger
on
the

diaphragm
of

E
G
R

control
valve
to
check
for
valve

operation

EC773

Fig
EC
73

Checking
E
G
R
Control

2

When

engine
coolant

tempera

tureishigh
Emission
Control

System

Make

sure
that
E
G

R
control
valve

operates
when

engine
speed
is
in

creased
from

idling
to
3
000
to
3
500

rpm
Place

fingers
on
the

diaphragm
of

E

G
R
control
valve
to
check
for
valve

operation

If
E
G

R
control
valve
does

not

operate
check
as
follows

Disconnect
one
end
E

G
R

control

valve
side

of
vacuum
hose
connect

ing
ihermal

vacuum
valve
to

E
G
R

control
valve

Increase

engine
speed
from

idling
to

3
000
to
3

500

rpm

Make
sure
that

thermal
vacuum

valve
is

open
2

port
type
or

closed
3

port
type
and

that
car

buretor
vacuum
is

present
at
the

end
E
G
R

control
valve
side
of

vacuum
hose

If

vacuum
is

weak
or

not

present
at

all

replace
thermal

vacuum
valve
If

vacuum
is

present
check
E
G
R

control
valve
or
B
P

T
valve

If

any
difficulty
is
encountered
in

judging
the
condition
of

any
com

ponent
during
above

inspection
check

the

questionable

component
in

dependently
as
follows

U

S
A

models

Ie

EC160A

Canada
models

ET429

Fig
EC
74

Checking
Vacuum

of

E
G
R
Control
Valve

EC
25
E
G
R
control
valve

Dismount
E
G

R
control
valve

from

engine

I

Apply
vacuum
to
E
G
R
control

valve

referring
to
the

following
figure

If
the
valve
moves
to
full

position
it
is

normal

E

G
R

control
valve
will
remain

open
for
more
than

30
seconds
after

vacuum
has
cut
off

5t
orr

rl

1

1

Fig
EC
75
EC129A

Checking
E
G
R
Control

Valve

2

Visually
check
E
G
R
control

wive
for

damage
wrinkle

or
deforma

tion

3

Clean
the

seating
surface
of

E
G
R
control
valve
with
a

brush
and

compressed
air
and

remove

foreign

matter
from
around
the
valve
and

port

Fig
EC

76

Cleoning
E
G
R
Control

Valve

Thermal
vacuum
valve

3

port
type

Remove
thermal
vacuum
valve
from

engine
Inhale
air

from

port
ofE
G
R

system
and
check
to
be
sure
that

thermal
vacuum
valve

opens
or
closes

in

response
to
its

temperature

Thermal

vacuum
valve

dosing

temperature

Above
50

to
630
C

122
to
1450
F

e

In
o

L

1

Ignition
switch

2
Vacuum
switching

v3
lve

3

Top
detecting
switch

4
Function
check
connector

EC330A

i

Fig
EC
99

Checking
Top
Detecting

l

Switch

Vacuum

dela
valve

Remove
vacUum

delay
valve

2

Blow
air
from
th

port
of

the

distributor
side
The
vacuum

delay

valve
is
in

go
ij
condition
if
the
air

flows

through
the
valve

3

Try

again
from
the
opposit

side

of
the
valve
Th
valve
is
in

goo

condition
if
th
a
flow
resistance
is

greater
than

the

step
2
abov

Distributor
side

Carburetor
side

Distribu
tor
side

Carburetor
side

EC346

Fig
EC
100

Checking
Vocuum

Dewy
Valve
Emission

Control

Syst
m

4

If
the
condition
of

spark
delay

valve
is

questionable
dip
port
into

a

cup
filled
with
water
Blow
air
from

brown
face
side
Small
air
bubbles

should

appear

CAUTION

Be
c
areful
to
avoid

entry
of
oil
or
dirt

into
valve

7

E
C279

Fig
EC
101

Checking
Vacuum

D

lDy
Valve

CATALYTIC

CONVERTER

California
dels

DESCRIPTION

1

The

catalytic
converter

accelerates

the

chemical
reaction
of

hydrocarbons

CD
0
He
and

carbon
monoxide
O
in

the
exhaust

gas
and

changes
them
into

non
harmful

carbon
dioxide

C02

and
water

H20
This
chemical

reac

tiOD

process
requires
the

proper
a

mount
of
air
which
is

supplied
by
the

air

pump
Refer
to
the
item
AJ

S

This
air
is
called

secondary
air

The

Catalytic
converter
is
mounted

0

the
models
destinbd
for
California

OPERATION

Exhaust

gas
emitted

from
the
en

gine
contains

some
harmful
substances

due
to

incomplete
combustion
in

the

combustion
chamber
The
air

injection

stem
i

designed
to
reduce
the

con

tent
of

such
substances
in

the
exhaust

gas
In
this

system
the

secondary
air

is

led
from
the
ch
ck
valve
and

injected

in
o
the

exhaust
manifold
With
this

injection
of

the

secondary
air

hydro

carbons

He
and
carbon
monoxide

CO
in
the

exhaust

gas
are
gradually

oxidized
with

oxygen

02
in
the

secondary
air

and
converted
into
nOD

harmful
carbon
dioxide

C02
and

water

HP

The

catalytic
converter
further

cleans

engine
exhaust

gas
Through

catalytic
action
it

changes
residual

hydrocarbons
and

carbon
monoxide

contained
in

exhaust

gas
into

carbon

dioxide
and
water
before
exhaust

gas

is

discharged
to
the

atmosphere

0

Secondary
air

Carbon
monoxide

hydrocarbon

Carbon
dioxide

gas

Nater

EC

i

A

I
Front
tube

2

Catalytic
converter

3
Center
tube

4
Main
murner

EC
33
EC215

Fig
EC

I02
Function
of

Catalytic
Converter

The
3N71
B
trammission
is
a

fully

automatic
unit

consisting
primarily
of

a
3
element

hydraulic
torque
converter

and
two

planetary
gear
sets
Two

multiple
disc
c1utclies
a

multiple
disc

brake
brake

band
and
one

way
clutch

provide
the

friction
elements

necessary

to
obtain

the
desired
function
of
the

two

planetary
gear
ets

A

hydraulic
control

system
is

used

to

operate
the
friction
elements
and

automatic
shift
controls

TORQUE
CONVERTER

The

torque
converter
is

attached
to

the
crankshaft

through
a
flexible
drive

plate
Heat

generat
in
the

t
rque

converter
is

dissipated
by
circulating

the
transmission
fluid

through
an
oil

to

water

type
cooler
in

the
radiator

lower
tank

The

welded
comtruction

of
the

torque
co
verter

prevents
di
3

ssembly

or
service
unless

highly

specialized

equipment
is
available

Qj
gJ
Autpmatic
Trimsmissi6n

DEScRIPTION

FLUID

RECOMMENDAnON

Use
DEXRON

type
automatic

transmission
fluid

only

IDENTIFICATION
NUMBER

Stamped
position

The

plate
is

attached
to
the

right

han
side
of
transmission

case

AT
M

Fig
AT
l

Identification
Number
Identification
of
number

arranaemanta

JAPAJllUTOIlATlC
TRAJISIIISSIO

C8
Ull

MODEL
X
0
12
3

NO
7
6
0

1
2

34

Number

designation

76
0
I
2

34

L

Serial
productioo

number

for
the
month

Month
of

production

1
Jan

2
Feb

X

Oct
Y

Nov
Z

Dec

Lut

IJgUre
denotins

the
year
A

D

IJ

III

J

W

f

r
lrr

G

1

Transmission
case

2
Oil

pump

3
Front
clutch

4

Band
brake

5
Rear
dutch

6
Front

planetary
geat

7
Rear

planetary
gear
8
One
way
clutch

9
Low
4
Reverse
brake

10
Oil
distributor

11
Governor

12

utput
shaft

13
Rear
extension
14
Oil

pan

IS
Control
valve

16

Input
shaft

17

Torque
converter

18
Converter

housi

19

Drive

pia
te
Tightening

torque
T
of

bolts
and
nuts

kg
m
ft
lb

@
T
4

to
5
29
to
36

@
T

14
to
16
101

to
116

@
T
4

5

to
5
5

33
to
40

@
T

0
6
to
0
8
4

3
to
5

8

@

T
0
5
to
0
7

3
6
to

5
1

T
2

0
to
2
5

14
to
18

@
T

1
3
to
1

8
9

to
13

@
T

0
55
ta
0
75
4
0
to
5
4

CD
T

0
25
to
0
35
1
8
to
2
5

AT312

Fig
AT
2
3N71B

Automatic
Trammiuion

AT
2