1979 DATSUN 210 Service Manual

Automatic
Transmission

Inspection

I
Check
valves
for

sign
of

burning
tension
if

necessary

replace
5

Check
oil

passages
in
valve

body

and
if

necessary
replace
4
Examine

for

any

sign
of

damage
for

sign
of

damage
and
other
condi

2
Check
to

be
certain
that

oil
or

score
marks
on

separate
plate
If
tions

which
might
interfere
with

prop

strainer
is
in

good
condition
If
found

left
unheerlcd
oil

will

bypass
correct
er
valve

operation

damaged
in

any
manner
discard
oil

passages
causing
many
types
of

6
Check
bolts
for

stripped
threads

3
Test
valve

springs
for
weakened
abnormalities
in
the

system
Replace
as

required

Valve

spring
chart

Mean
coil
Installed

Wiredia
No
of

Free

length

Valve

sprma

mm
in
dia

active
coil

mm
in
Length
Load

mm
in

mm
in

kg
lbl

Manual
detent
1
3
6
0
15
0
32
4

26
5
5
5

0
051
0
236
1
276
1
043
12
1

Pressure

regulator
1
2
10
5
13
0
43
0
23
5
2
8

0
047
0
413

1
693
0
925
6
2

Pressure
modifier
0
4

8
0
5
0
18
5
9
0
0
1

0
01
6
0
315
0
728
0
354
0

2

2nd
shift
0
6

6
0
f

16
0
32
0
16
0
0
625

1st

0
024
0
236
1
260
0
630
1
378

2nd
3rd
shift
0
7
6
2
18
0
41
0
17

0
1

40

0
028
0
244
1

614
0

669
3

09

2nd
3rd

timing
0
7
5
5
15
0
32
5
27
0
0
55

0
028
0
217
1
280
1
063

1
21

Throttle
back

up
0
8
6
5

14
0
36
0
18
8
1
92

0
031
0
256

1417
0
740
4

23

Solenoid
downshift
0
5
5
0
12
0
22
0
12
5
0
60

0
0217
0
197
0
866
0
492

1
32

Second
lock
0
55
5
0
16
0
33
5
21
0
0
60

0
0217
0
197

1
319
0
827
1
32

Throttle

relief
0
9
5
6

14
0
26
8
19
0
2
19

0
035
0
220
1

055
0
74g
4
83

Orifice
check
0
23

4
77
12
0
15
5
11

5
om

0
0091

0
lg78
0
610
0
453
0
02

Primary
governor
0
45
8
3
5
0
21
8
7

5
0
215

0
0177
0327
0
858
0
295
0
474

Secondary

governor
0
7
8
5
5
5
25
2

10
5
1
10

0
028
0
335
0
992

0
413
2
43

T
37

0

1

1W
I
u

1

AT172

Fig
AT
8

1
ValveSpring

Assembly

Assemble
in
reverse

order
of
disas

semblyHowever
observe
the
follow

ing
assembly
notes
Refer

10
Valve

Spring
Chall
and

illustration
in
as

sembling
valve

springs
Dip
all

pailS
in

clean
automatic
t
ansmission

fluid

before

assembly

Tighten
parts
to

spec

ificalions
when

des
gmited

I

Slide
valve
into

Valve

body
and
be

palticularIy
careful
that

they
re

not

forced
in

any
way

2

Install

side

plates
using
Torque

Driver
ST2S

160000
and

Hc
xagon

Wrench
HT61000800
Automa

ic
Transm
ssion

tV
Ti

teriing
tmqile

0

25
to
0
35

kll
m

1
8
t
2
5
ft
lbl
4

InsWl

upper
and
lower
valve

bodies

tV
Tightening

torque

Reamer
bait

0
5

to
0
7

kll
m

13
6
to
5

1
ft
bl

Other
bolb

0
25

to
0
35

kg
m

11
8

to
2
5
ft

bl

hi

ST25160000

AT174
0

u
r

ATt73

HT61000800

Fig
AT
82

llIOlalli
Value

ody

S

Install
oil
strainer

tV
Titlltening
torque

0
3
to
OA

kg
m

122

to
2
9
ft

bl
Fig
AT
81

Il1Otalli
Side
Plate

3
lnstaD
orifice
check
valve
valve

spring
throttle
relief
valve

spring
and

steel
ball
in
valve

body

CAUTION

IIIItIII

check
valve
8nd

relief

spring
10

tho

they
8re

properly
positionadin

valve

body
See

Figure
AT
83

J

AT430

Fig
AT
83

Position

of
Check
Value
and

Spring

AT

38

Automatic

Transmission

TROUBLE
DIAGNOSIS
AND
ADJUSTMENT

Since
mo
automatic

transmission

troubles

can
be

repaired
by
simple

adjustment
do

not
disassemble
im

media

tely

Firstly
inspect
and

adjust
the
auto

D1
3tic
transmission
in

place
utilizing

the
Trouble

Shooting
Chart

If
the
trouble

can
not
be
solved

by

this

procedure
remove
and
disas

semble
the
automatic
tlllnsmission

It

is
advisable

to
check

overhaul
and

repair
each

part
in
the

order
listed
in

the
Trouble

Shooting
Chart

In
the
Trouble

Shooting
Chart

the

diagnosis
items

are

arranged
ac

cording
to

difficulty
from

easy
to

difficult
therefore

please
follow
these

items
The
tlllnsmission
should
riot

be

removed
unless

necessary

2
Tests

and

adjustments
should
be

inade
on
the
basil
of

standard
values

and
the
data
Should

be
recorded

INSPECTION
AND

ADJUSTMENT

BEFORE

TROUBLE
DIAGNOSIS

TESTING
INSTRUMENT
FOR

INSPECTION

I

Engine
t

chometer

2
Vacuum

gauge

3
Oil

pressure
gauge

It
is
convenieni

to
install
these

instruments

in
a

way
that
allows
meas

urements
to

be
made
from
the
driver
s

seat

CHECKING

OIL
LEVEL

In

checkIng
the
automatic
transmis

sion
the
oil
level
and
the
condition
of

oil
around
the
oil
level

gauge
should
be

examined

every
S
ooo
Ion
3
000

miles
This
is

an

easy
and
effective

trouble

shooting
procedure
since
some

changes
in

oil
condition
are
often

linked
with

developed
troubles
For
instance

Lack
of
oil
causes
defective

opera

tion

by

making
the
clutches
and

brakes

slip
resulting
in

severe
wear

This
is

because
the
oil

pump
sucks

air

causing
oil

foaming
thus

rapidly

deteriorating
the
oil

quality
and

pro

ducing
sludge
and
varnish

Excessive
oil
is
also
bad
because
of

oil

foaming
caused

by
the

gears
stirring

up
the
oil

During

high
speed
driving

excessive
oil
in

the
transmission

often

hlows
out
from
the

brealher

Me

urlns
011
level

To
check
the
nuid

leyel
sian
Ihe

engine
and
run
it

until
normal

operat

ing

temperatures
oil

temperature
SO

to
800C

122
to
1160F

Approxi

mately
ten
minute
of

operation
will

raise

the

temperature
to

this

range

and

engine
idling
conditions

are
stabi

lized
Then

apply
the
brakes
and

move
the

transmission
shift
lever

through
aU
drive

positions
and

place
it

in

park
P

position
In
his

inspec

tion

the
car
must
be

placc
d
on
a
level

surface

The
amount
of
the
oil
varies
with

the

temperature
As
a
rule
the
oil
level

must
be

measured
after
its

tempera

ture
becomes

sufficiently

high

I
Fill

the
oil
to
the
line
H
The

difference
of

capacities
between
both

H
and

L
is

approximately
0
4

liter
J
U
S

pt
Y
Imp
pt
and

therefore
do
not

fill

beyond
the
line

H

2
When

topping

up
and

changing

oil
care
should
be
taken
to

prevent

mixing
the
oil

with
dusl
and
water

In

pectlns
oU
condition

The
condition
of
oil

sticking
to
the

level

gauge
indicates
whether
to
OVOl

haul
and

repair
the
transmission
or

luok
for
Ihe
defective

part

If
the
oil
has
deteriorated
to
a

varnish
ike

quality
it

causes
the

con

trol
valve
to
stick
Blackened
oil
indi

cates
a
burned
clutch
brake
band
etc

AT
39
In
these
cases
the
transmission
must

be

repaired

CAUTION

I
In

checking
oil
IlVal
use

special

piper
Cloth

tohandla
the
18V81

llIugi
Ind
be
careful
not
to
let
the

scraps
of

paper
end
cloth

stick
to

the

IlIUp

b
U
lutomatic
transmission
fluid

having
OEXRON
ida
ons

only
in
the
3N71
B
eutomatic
trans

mission

c

Pay
IttBntion
blcau
the
oil
to
be

used
differs
from
that
used
in
the

Nissen
Full
Autometic

TllInsmis

sion
3N71A
N8V8r
mill

thl
oils

Note
Insert

the

gauge
fully
and
take

it
out

quickly
before

splesbing
oil

edheres
to
the

gauge
Then
observe

the
level

INSPECTION
AND
REPAIR

OF
OIL
LEAKAGE

When
oil

leakage
takes

place
the

portion
near
the

leakage
is
covered

with
oil

presenting
difficulty
in

detecting
the

spot
Therefore
the

places
where
oil
seals
and

gaskets
are

equipped
are
enumerated
below

Converter

housing

Rubber

ring
of
oil

pump
housing

Oil
seal
of
oil

pump
housing

Oil
seal
of

engine
crankshaft

Bolts
of
converter
housing
to
case

2
Transmission
and
rear
extension

Junction
of
transmission
and
rear

extension

Oil
cooler
tube
connectors

Oil
pan

Oil

pressure
inspection
holes
See

Fig
AT
81

Mounting
portion
of
vacuum
dia

phragm
and
downshift
solenoid

Breather
and
oil

charging
pipe

Speedometer
pinion
sleeve

Oil

seal
of

rear
extension

To

exactly
locate
Ihe

place
of
oil

leakage
proceed
as
follows

Place
the
vehicle
in
a

pit
and

by

sampling
the
lealeed
oil
deiermine
if
it

is
the

torque
converter
oil
The

torque

converter
oil
has

a
color
like
red
wine

so
it
is

easily

distinguished
from

engine

oil
or

gear
oil

Wipe
off
the

lealeing
oil
and

dust

and
detect
the

spot
of
ill

lell8e

nonflammable

organic
solvent
such
as

carbon
tetrachloride
for

wiping

Raise
the
oil

tcmperature
by

op

erating
the

engine
and
shift
the
lever

to
D

to
increase
the
oil

pressure

The
sp

Q
of
o
1

1I8
u

J1en
be

found
more

easily

Note
As

oil

leakage
from
the
breath

er
does
not
talee

place

except
when

running
at

high
peed
it

iSimpos

sible
to
ate
this

lealcage
with

vehicle

stationary

CHECKING
ENGINE
IDLING

REVOLunON

The

engine

idling
revolution
should

be

properly
adjusted

If
the

engine
revolution
is

too
low

the
e

gine
does
not

operate
smoothly

and
if
too

high
a

strong
shocle
or

creep
develops
when

changing
over

from
ON
to

Dn
or
R

CHECKING
AND

ADJUSTING

KICK

WN

SWITCH

AND

DOWNSH
FT

SOLENOID

When
the
Ieickdown

operation
is

not
made

properly
or
the

speed

chang

ingpoint
is
too

high
check
the
kick

down
switch
downshift
solenoid

and

wiring
between
them
When
the

igni

tion

Ieey
is

po
iti
ned
at
the
1st

stage

and
the
accelerator

pedal
is

depressed

deeply
the
switch

contact
hould

be

closed
and
the
solenoid
should
clicle
If

it
does

not
click
it

indicates
a
defect

Then
check
each

part
with
the

testing

inatrumen15
Auto
lT1atic

Transmissiqn

Fi
J
A
T
84
Down

ltift

Sole
id

Note
Watch
for
oil

leekage
from

tnnsmission
case

INSPECTION
AND

ADJUSTMENT
OF

MANUAL

LINKAGE

The

adjustmcnt
of
manual

linkage

i

equany
important
as

Inspection
of

Oil
Level
for
the
automatic
transmis

sion
Therefore

great
care

should
be

cxercised
oecause

incorrect

adjustment

will
result
in
the

breakdown
of
the

transmission

Inspection

pun
the
selector
lever
toward

you

and
turn
it
as
far
as
p
to

range

where
clicks
will
be
ell

by
the
hand

This
is
the

detent
of
manual
valve
in

the
valve

body
and
indicates
the

corrett

position
of
the
lever

Inspect
whether
the

pointer
of

selector
dial

corresponds
to
this

point

and
also
whether
the
lever
comes
in

alignment
with
the

stepping
of

posi

iion

plate
when
itis
released

CHECKING
AND
ADJUSTING

INHIBITOR

SWITCH

The
inhibitor
switch

lights
the

re

verse

lamp
in
the

range
R

of
the

transmission

operation
and
also
rotates

the

starter
motor
in

the

ranges
N

and
P

AT
40
i

j

tI

IlV

@

@

AT

I

Inhibitor
switch

2
Manual
shaft

3
Washer

4

Nut

5
Manual

plate

Fi
J
AT
85
Comtruction

of
Inhibitor

Switch
6
Nut

1

Washer

8

Inhibitor
wilch

9

Ran
q
Iect
lever

Check
w

ethcr
he
leverse

lal
1p

and

the
starter
motor

operate
nonnal

Iy
in
these

ranges
If
there
is

any

trouble
first
check
the

inkage
If
no

defect
is

fo
nd
in

the

Ii
leage
check

tlie

inhibitor
Swi
ch

Separate
the
manual

lever
from
the

remote
control
selector
rod
and
turn

the

range
select
lever
to
N

Note
In
the

position
N

the
slot
of

the

manual
shaft
is
vertical

Using
the
tester
check
the
two

black

yellow
BY
wire

from
the
in

hibitor
switch
in

the

ranges
N
and

p
and
the
two
red
blacle
RB
wires

in

the

lange
R
for

continuity
Turn

range
select
lever
in

both
directions

from
each
lever

set

position
and
check

each

continuity
range
It
is

normal
if

the

electricity
is
on
while
the
lever
is

within
an

angle
of
about
30

on
both

sides
from
each
lever
set
line
How

ever
if
its

continuity
range
is

obvioUs

ly
u
nequal
on

both
sides

adjustment
is

required

If

any
malfunction
is

found
un

screw
the

fastening
nut
o
the

range

selector
lever
and

two

fastening
bolts

of
the
switch

body
and
then

remove

the
machine
screw

under
the
switch

body
Adjust
the
manual

shaft
correct

Iy
to
the

position
N

by
means
of

the

selector

leVer

When
the
slot
of
the

shaft
becomes
vertical
the
detent

worles
to

position
the
shaft

correctly

with
a

clicking
sound

Move
the
switch

slightly
aside

so

that
the

scie
hole
will
be

aligned

with
the

pin
hole
of
the
internal

rotor

combined
with
the
manual

shaft
and

check
their

alignment
by

inserting
a

1
5
mm
0
059
in
diameter

pin
into

the

holes
If
the

alignment
is

correct

fasten
the
switch

body
with
the
bolts

pull
out
the

pin
tighten
up
the
screw

in

the
hole
and
fasten

the
selector

lever
as
before
Check

the

continuity

pin
with
the
lesler
If

Ihe
malfunc

tion
still
remains

replace
the
inhibitor

switch

STALL
TEST

The

purpose
of
this
test
is
to
check

the
transmission
and

engine
for
trou

ble

by
measuring
the
maximum
num

bers
of
revoiutions
o
the

cngine
while

vehicle
is
held
in

a
stalled

condition

The
carburetor
is
in

fullthrollle

opera

tion
with
the
selector
lever
in

ranges

1
2
and
I

respectively
Com

pale
the
measured

results
with
the

standard

values

Components
to
be
tested
and

test
itelJUl

I

Clutches
brake
and
band
in
trans

mission
for

slipping

2

Torque
converter
for

proper
func

tioning

3

Engine
for
overall

properly

STAU

TEST
PROCEDURES

Before

testing
check
the

engine
oil

and

torque
converter

oil
warm

up
the

engine

cooling
w

ter
to

suitable
tem

perature
by

running
at
1
200

rpm
with

the

selector
lever
in
the

range
P

for

sevcral
minutes

Warm

up
the

torque

converter
oil

to
suitable

temperature

60
to
lOOoC

140
to
2120F

I

Mount
the

engine

tachometer
at
a

location
that

allows

good
visibility

from

the
driver

s
seat
and

put
a
mark

on

specified
revolutions

on
the

meter

2

Secure
the
front
and
rear
wheels

with
chocks

and

apply
the
hand

brake

Be
SIIre

to

depress
the
brake

pedal

firmly
with
the
left
foot
before
de

pressing
the

accelerator

pedal

3
Throw
the

selector
lever
into
the

range
11

4

Slowly

depress
the

accelerator

pedal
until
the

throttle
valvc
is

fully
Automatic

Transmission

opened
Quickly
read
and

record

the

engine
revolution

when
the

engine

begins
to
rotate

steadily
and
then

release
the
accelerator

pedal

5
Shift
the
selector
lever

to
N

and

operate
the

engine
at

approxi

mately
1
200
rpm
for
more
than
one

minute
to
cool

down
the

torque
con

verter
oil
and
coolant

6
Make
similar
staU
tests
in

ranges

2
I
and
R

CAUTION

The

dill
test

operstion
81

specified
in

i18m
4

should
be

I118de
within

fiv

lIeonds

If
it
tBkes
too

long
the

oil

If

and
the
cluti
hn
blllke

and
b
nd

elll

ly
I
Suf

ficient

cooling
time
should

be

given

r

eech
test
for
the
four

IlInges

0
Z
1
end
R

JUDGEMENT

High
stall
revolution

more
than

staitdard
revolution

If
the

engine
levolulion
in

stall

condi
ion
is

higher
than
the
standard

values
it
indicates

that
onc
or
more

clutches
in
the

transmission
are

slipping
and
therefore
no

further
test

is

required

For
the

following
abnormalities

the

respective
causes
are

presumed

High
rpm
in

all

ranges
low
line

pr
ssure

High
rpm
in
0

2
and
I

and

normal

rpm
in
6R

Rear
clutch

slipping

High
rpm
in
D

and
2
and

normal

rpm
in

One

way

clutch

slipping

High
Ipm
in
R

only
Front

clutch
or
low

and
reverse
brake

slipping

To

determine
which
is

slipping

front

clutch
or
low
and
reverse

brake

a
road

test
is

needed

If
while

coasting
after

starting

with
the
levcr
in
I

range
engine

braking
does
not

work

properly
the

low

and
reverse
brake
is

slipping

Otherwise
the
front
clutch
is

slipping

Slipping
of
the
band
brake
is
diffi

cuJt
to
ascertain

However
jf
it

occurs

with

the
lever
in
1

range
engine

AT
41
revolution
increases

up
to
the
same

level

as
in
1st

range
It

is

impossible

to

check
it
in
the

stall
test

2
Standard
stall
rnoluiion

If
the

engine
revoluiion
in

stall

ondition
is
within

he
standard

values
the
control
elements
are

nOf

mally

operating
in

the

ranges
D

2n
I

and
R

Also
the

engine
and
one

way

clutch
of
the

torque
converter
are

norinal
in

performance
and

operation

The

one

way
clutch

of
the

torque

converter

however
sometimes

sticks

This
is
determined

in
the
road

test

3

Lower

stall
revolution
than
lIand

ard

revolution

If

the

engine
revolution
in

stall

condition
is

lower
than
the

standard

values
it

indicates
that
the

engine
is
in

abnormal

condition
or
the

torque
con

verter
s
one

way
clutch
is

slipping

4
O
hers

I
If

the

accelerating
performance

is

poor
until
vehicle

speed
of

approxi

mately
SO

kmfh
30
MPH
is
attained

and
then
normal

beyond
that

speed
it

can
be

judged
that
the

torque
con

verte
c

s
one

way
clutch
is

slipping

2

If
the

torque
converter

sane

way
dutch
sticks

vehicle

speed
can

not

exceed

approximately
80

kmfh

SO
MPH
in
the

road
tesl

In
such

a

case
the

torque
converter

oil
tem

perature
rises

abnormally
and
so

special
care
is

required

3
If
the

transmission
does
not

op

erate

properly
at
all
vehicle

speeds
it

indicates

poor
engine
performance

ROAD

TEST

An

accurate

knowledge
of
the
au
to

matic

transmission
is

required
for
an

exact

diagnosis

II
is

recommended
that
a

diagnosis

guide
chart
with
the
standard

vehicle

speeds
for
each

stage
of

the

up
and

down

shiftings
be

prepared
Measured

vehicle

speeds
are
to

be
filled
in

the

adjoining
column
after
each

testing

Also
it

is
advisable
to

mount

a

stopper
for

positioning
the
throttle

opening

Automatic
Transmission

CAR
SPEED
AND
LINE
PRESSURE
WHEN
SHIFTING
GEARS

Non
callfornia
models
Sedan
and
tletchback

Intake
manifold

Car

speed
Propeller
shaft

vacyum

pearshift

mmHg
inHg
km
h
MPH

rpm

o

O2
49
to

62
30
to

39
1
840
to
2

340

1

0

0
Kickdown
O2
03
89
to

102
55
to

63
3
340
to
3
840

o

O2
92
to
79
57
to
49
3

460
to
2
960

3

o
0
48

to
34
30
to
21
I
790
to
1
290

2

01
O2
9
to
22
6to
14
330

to
830

200
7
87
O2
03
46to
59

29
to
37
1
720

to
2

220

03
O2
36
to
23
22io
14
1
350

to
850

O2
01
19

I
2
700

Max

o
0
Full
throttle

12
I
50

to
36

31
to
22
1
860
to
1
360

1

450

I7
72

12
I
50
to
36
31

to
22
I
860
to
I
360

1

Celilornia
models
All
models
and
Non
calilornill
models

Wagon

Intake
manifold

vacuum

mmHg
inHg

o

0
Kickdown

100
3
94

0
0
Full
throttle

300

I
1

81
Gearshift
Car

speed
Propeller
shaft

Ion
h
MPH

rpm

o

O2
52

to
59
32
to

37
1
970
to

2
220

1

O2
03
93
to
99
58
to
62

3
480
to

3
730

0

O2
84
to

91
52
to

57
3
160
to
3
410

3

O2
Dl
39
to
46
24

to
29
1
470
to

1
720

01
O2
20
to

27
12
to

17
750
to
1
000

O2
03
54
to
61
34
to

38
2
040
to
2

290

03
O2
28
to
35

I7
to
22
I
050
to
I
300

O2
01
9
to
16
6

to
10
350

tq
600

12
I

40
to
47
25
to
29
1
500
to
1
750

I

12
I
40
to
47
25
to
29
1
500
to
1

750

1
Line

pressure

kg
cm2

psi

54
to

6
6
77

to
94

4
4
to
5
4
63
to
77

4
4
to
7
8
63

to
III

5
8
to
7
1

82
to

101

5
8
to
7
I
82
to
101

Line

pressure

kg
cm2

Psi

5
4
to
7

0
77
to
100

4
5

10
6
1
64
to
87

5
6

to
7
2

80
to
102

5

6
to
7
2
80
to
102

Reduce
the

speed
by
shifting
to
I

range
from
0

range

output
shaft
2
000

rpm

Car

speed
can
be

calcuiated

by
the

following
formula

V
2

xrxNpx6O

RF
x

1
000

where
V
Car

speed
Ion
h

Np
Propeller
shaft
revolution

rpm

RF
Final

gear
ratio

r
Tire
effective
adius
m

The
ratio
of
ciIcumfe
ence
of
a
circle
to
its

diameter
3
14

Note

RF
3
889

r
0
27S

m
lSS
13
6
lS
13
4PR
lSSSR13

or

17S
7OSR13

AT
42

CHECKING
SPEED

CHANGING
CONDITION

The

driver
s

feeling
during
gear

changes
should
also
be
checked

atten

lively

J
A

sharp
shock
or

unsrnoothness
is

felt

duting
a

gear
change

Tlus
indicates
that

the
throttle

pres

sure
is
too

high
or

some
valve
con

nected
to
the

throttle
is

faulty

2
A

gear
change
is
made
with

a

long

and

dragging
feeling

This
indicates
that
the

throttle

pres

sure
is
too
low
or

some
valve
con

nected
to
the

throttle
is

faulty
Automatic
Transmission

CHECKING
ITEMS
DURING

SPEED
CHANGE

I
In
D

range
gear
changes
DJ

D

D3
are
effected
In
R

range
the

speed
does
not
increase

2

The
kickdown

operates
properly

3

By
moving
the
lever
from
D
to

I

gearchangesD3
2
1
1

are
effected
In
the

ranges
j
and

I

the

engine
braking
works

prop

erly

4
In
I
the

speed
does

not
in

crease

S
Should
be

quickly
fixed
at
2

SHI

SCHEDULE

Non
Cellfornla
models
Sedan
end
Hetchbeck

1
2

1
l
2

I

I
2

L
3

1

1

1
0

E

I
Kickdown

range

I

T

7
87f

1

500
2
000

2
500

Output
shaft

speed
rpm

km
h
9

1P
29
30
4
0
50
6

0
70
80

MPH

6
1
0
io

30
40
5

0

California
models
All
models
and
Non
Callfornie
models

Wegon
0

E

c

E

3
00

11

81f

5

400

u

a
15
75

0

u

If

z
5
0
0

19
69

0

500

I

c

I

100

3
94

E

I
1

000

I
Kickdown

range
1

2

1
2
1

2

2
3

2
0

0

7
87

E

c

E

300

11
81

5

400

15
75

a

500

0

19
0

0

i

z

km
h

9

MPH

6
3

1

1

1

1

11
12

1

1

1
range

6
In
P

vehicle
can
be

parked

properly

If

any
malfunction
occurs
in
second

gear

during
the

road
test
thai
is

if

vehicle
shakes

drags
or

slings
while

shifting
up
from
D

directly
to

D3
or
in

shifting

up
from
D

to

D
the

braKe
band
should
be
ad

justed
If
these
troubles
remain

after

the
brake
band
is

adjusted
check
the

servo

piston
seal
for
oil

leakage

2

32
3

3
0
00

4
000
3
50
0

9
0

60
100

AT434

2

321
3

500
1

000
1
500
2
600

2
50
0
3
600
3
500
4
000

Output
shaft

speed
rpm

10

20
30

40
50
6
0
70
80
90

100

1

0
io

3

0
4

0
50
60

AT435

Fig
A
T
86

Shift
Schedule

AT
43

LlNE
PRESSURE

TEST

When

any
slipping
occurs
in

clutch

or
brake

or
the

feeling

during
a

speed

change
is
not
correct
the
line

pressure

must
be
checked

Measuring
line

pressure
is

done

by
a

pressure
gatqle
attached
to

pressure

measuring
holea
after

removing
blind

pluga
locate
d
at

transmission
case

The
line

pressure
measurement
is

begun
at

idling
and
taken

step
by

step

by

enlarging
the
throttle

opening
Automatic

Transmission

For

line

pressure
data
when
shift

ing
gem
refer
to
Road
Test

1
A

sharp
shock
in

up
shifting
or

too

high
changing
speeds
are
caused

mostly
by
too

high
throttle

pressure

2

Slipping
or

incaPability
of

opera

tion
is

mostly
due
to
oil

pressure

leakage
within
the

gear
trains

or

spool

valve

LINE
PRESSURE

GOVERNOR
FEED

PRESSURE

Non
Cellfornill
models

Seden
and
Halchbeck

At

idling

Range
At
stall

test

R
Une

pressure
kg
em

psi

Range

3

0
to
5
5
43
to
7S

3

0
to
4

0
43

to
57

6

0
to
12
0
S5to
171
o

2
R

D

3
0
to
4
0
43

to
57
2
snSOSSOOI

CD

AT454

1
Line

pressure

2

Governorpressure

3
Servo
release

prenure

Fig
AT
87

Mecuuring
Line
Pre

Line

pressure

kg
cm2

psi

14
0

to
16
0
199
to

22S

94
to
11
0

134
to
156

10
0

to
12
0

142
to
171

94
to

11
0

134
to
156

At

idling
California
models
All
models

end
Non
Callfornill
modela
Wa
on

At
stall

test

R
Line

pressure
kg
cm

psi
Range
Range

R

o
4
2
to
5
6

60
to
SO

3
2

to
3
S
46
to
54
D

2

6
0
to
II
7
S5

to
166
2

3
2

to
3
S

46

to
54

AT44
Une

pressure
kg
cm2

psi

143
to

16
2

203
to
230

9
9
to
11
1
141

to
15S

10
2

to
II

7
145
to
166

9
9
to
11
1

14110
15S