brake DATSUN PICK-UP 1977 Owner's Manual
Page 266 of 537
the
space
from
I
to
IS
increases
space
from
15
to
the
drain
port
simultaneously
decreases
As
a
resull
governor
pressure
of
15
increases
and
the
governor
pressure
is
balanced
with
the
sum
of
centrifugal
force
and
spring
force
The
governor
pressure
thus
changes
in
response
to
the
vehicle
speed
change
centrifugal
force
Operation
of
prlmar
governor
valve
The
valve
is
an
ON
OFF
valve
which
closes
the
governor
pressure
IS
regulated
by
the
secondary
gover
nor
valve
when
the
vehicle
reaches
the
minimum
speed
and
when
the
vehicle
speed
exceeds
a
certain
level
the
governor
opens
and
forwards
the
gov
ernor
pressure
15
to
the
control
valve
When
the
vehicle
is
stopped
the
governor
pressure
is
zero
However
when
the
vehicle
is
running
slowly
this
valve
is
depressed
to
Ihe
center
and
the
groove
to
15
is
closed
since
the
governor
pressure
applied
to
the
ring
shaped
area
is
higher
than
the
centrifugal
force
of
this
valve
When
the
governor
speed
exceeds
a
certain
revolution
the
governor
pressure
in
the
circuit
15
also
increases
How
ever
as
the
centrifugal
force
increases
and
exceeds
the
governor
pressure
this
valve
moves
toward
the
outside
and
the
governor
pressure
is
transmitted
to
the
circuil
5
Two
different
valves
are
employed
in
the
governor
so
that
it
will
inde
pendently
control
the
speed
at
high
and
low
speeds
That
is
within
the
low
speed
range
the
governor
pressure
is
not
generated
because
of
the
primary
valve
whereas
at
the
high
speed
range
above
the
breaking
point
governor
pressure
is
regulated
by
the
secondary
valve
The
breaking
point
is
the
point
at
which
the
function
of
one
of
the
governor
is
transferred
to
the
other
as
the
speed
changes
from
the
low
speed
to
the
high
speed
range
Automatic
Transmission
To
onlml
valve
l
Governor
pre
S1I
1I5
j
I
Q
J
J
f
1
1
CID
l
l
m
Line
pressure
t
D@
I
Primary
governor
2
Secondary
governor
3
Governor
valve
body
AT090
4
Oil
di
lributor
5
Output
sh
lft
Fig
AT
7
Cr05s
sectionallliew
of
governor
CONTROL
VALVE
ASSEMBLY
Ai09
Fig
AT
S
Output
shaft
with
oil
distributor
and
overnor
r
@
@
0
aBUlllI8
iUQlli
V
JlAU
I
Oil
distributor
2
Governor
nlve
body
A
T092
3
Primary
governor
valve
4
Secondary
governol
valve
Fig
A
T
9
Exploded
view
of
governor
Flow
cbar
of
control
valve
system
Oil
from
pump
Regulator
valve
1
I
i
j
Throttle
valve
I
I
l
Manual
valve
I
I
I
I
I
I
I
L
n
L
j
Speed
change
valve
I
I
t
t
I
I
I
I
I
I
Governor
I
I
valve
I
I
I
L
L
1
II
Auxiliary
valve
Line
pressure
j
Clutch
and
brake
The
control
valve
assembly
receives
oil
from
the
pump
and
individual
signals
from
the
vacuum
diaphragm
and
transmits
the
individual
line
pres
sures
to
the
transmission
friction
ele
ment
torque
converter
circuit
and
lubricating
system
circuit
as
outputs
More
specifically
the
oil
from
the
oil
pump
is
regulated
by
the
regulator
valve
as
line
pressure
build
up
the
line
pressure
is
fed
out
from
the
control
valve
assembly
through
various
direc
AT
6
tion
changeover
valves
including
ON
OFF
valve
and
regulator
valves
are
newly
reformed
to
a
throllle
system
oil
pressure
and
operate
other
valves
Finally
the
line
pressure
is
transmilled
to
the
required
dutch
or
brake
servo
pisJon
unit
in
response
to
the
individu
af
running
conditions
after
re
ejving
signals
from
the
va
uum
diaphragm
downshift
solenoid
governor
V
dlvc
and
or
manual
linkage
Page 267 of 537
The
control
valve
assembly
consists
of
the
following
valves
See
Figure
AT
20
I
Pressure
regulator
valve
PRV
2
Manual
valve
MNV
3
I
st
2nd
shift
valve
FSV
4
2nd
3rd
shift
valve
SSV
5
Pressure
modifier
valve
PMV
6
Vacuum
throttle
valve
VTV
7
Throttle
back
up
valve
TBV
8
Solenoid
downshift
valve
SDV
9
Second
lock
valve
SL
V
10
2nd
3rd
timing
valve
TMV
Pressure
regulator
valve
PRV
The
pressure
regulator
valve
re
ceives
valve
spring
force
force
from
the
plug
created
by
the
throttle
pres
sure
16
and
line
pressure
7
and
force
of
the
throttle
pressure
18
With
the
interaction
of
those
forces
the
PRY
regulates
the
line
pressure
7
to
that
most
suitable
for
individual
driving
conditions
The
oil
from
the
oil
pump
is
ap
plied
to
the
ring
shaped
area
through
orifice
20
As
a
result
the
PRV
is
depressed
downward
and
moves
from
port
7
up
to
such
extent
that
the
space
to
the
next
drain
port
marked
with
X
in
Figure
AT
10
opens
slightly
Thus
the
line
pressure
7
is
balanced
with
the
spring
force
there
by
balancing
the
PRV
In
this
opera
tion
Ihe
space
from
port
7
to
the
subsequent
converter
oil
pressure
14
circuit
has
also
been
opened
As
a
result
the
converter
is
filled
with
pressurized
oil
in
circuit
14
and
this
oil
is
further
used
for
lubrication
of
the
rear
unit
Moreover
part
of
the
oil
is
branched
and
used
for
lubrication
of
the
front
unit
for
the
front
and
rear
clutches
When
Ihe
accelerator
pedal
is
de
presscd
the
throttle
pressure
16
in
creases
as
described
in
the
preceding
paragraph
oil
pressure
is
applied
to
the
plug
through
orifice
21
and
this
pressure
is
added
to
the
spring
force
As
a
result
the
PRV
is
contrarily
forced
upward
space
to
the
drain
port
is
reduced
and
Ihe
line
pressure
7
increases
Automatic
Transmission
11
AT095
Fig
AT
10
Pressure
regulator
ualue
When
the
range
is
selected
at
R
Reverse
the
line
pressure
6
is
applied
10
the
plug
in
a
manner
identi
caito
the
throttle
pressure
16
and
is
added
10
the
spring
force
Consequent
ly
the
line
pressure
7
further
in
creases
When
vehicle
speed
increases
and
the
governor
pressure
rises
the
theot
tle
pressure
18
is
applied
to
the
port
on
the
top
of
the
PRV
and
pressure
is
applied
contrarily
against
the
spring
force
As
a
result
the
line
pressure
7
decreases
Moreover
at
individual
con
ditions
the
line
pressure
7
is
equal
to
the
line
pressure
6
and
the
throttle
pressure
16
is
equal
to
18
Manual
valve
MNV
The
manual
lever
turning
motion
is
converted
to
reciprocating
motion
of
the
manual
valve
through
a
pin
and
the
MNV
is
positioned
so
that
the
line
pressure
7
is
distributed
to
the
indi
vidual
line
pressure
circuits
at
each
P
R
N
D
2
or
I
range
as
shown
below
P
range
7
4
SDV
and
TBV
5
FSV
12
TBV
and
Low
reverse
brake
R
range
7
4
same
as
above
5
same
as
above
6
PRY
and
SSV
F
C
and
band
release
N
range
D
range
7
7
None
I
Governor
valve
FSV
and
rear
clutch
2
SLY
3
SL
V
and
SSV
2
range
7
I
Same
as
above
2
SL
V
9
Band
applied
4
SDV
and
TBV
I
range
7
I
Same
as
above
4
Same
as
above
5
FSV
Moreover
1
2
3
4
5
and
6
are
always
drained
at
a
position
where
the
line
pressure
is
not
dis
tributed
from
7
u
JJX
g4Vhl
dIillillt
1
dlMIi
W
ld
IiIb
It
i
B
J
jd
l
tJj
fitMi
td
j
L@
x
x
j
j
P
R
N
17
l
AT7
AT096
Fig
AT
11
Manual
ualvp
Page 273 of 537
HYDRAULIC
SYSTEM
AND
MECHANICAL
OPERATION
The
operating
system
of
oil
pres
sure
in
each
range
is
described
below
The
oil
pressure
in
each
circuit
shown
in
the
illustration
is
classified
as
follows
according
to
the
function
fhe
numeraJs
show
the
circuit
num
bers
Pressure
source
of
the
line
7
Operating
Iinc
prcssure
for
friction
elements
123456
8910
1112
Auxiliary
line
pressurc
13
Throttle
system
pressure
16
17
18
19
Others
14
15
Oil
pump
discharge
hole
7
Cd
Torque
converter
pressure
14
Rear
iutch
prc
surc
1
FTOOI
c1
tL
h
prc
ur
It
J
1
011
pump
Sllctlon
hole
M
IIJ1iIII
Automatic
Transmission
Fig
AT
21
Identification
of
oil
channels
in
oil
pump
AT105
Oil
pump
suction
hole
ATl06
Fig
AT
22
Identification
of
oil
channels
in
case
front
face
I
o
Oil
pump
dischar
hole
7
I9JM
c
Torque
converter
f
Os
I
1L
0
ervo
Ie
ease
pressure
14
0
pressure
10
Rear
clutch
Servo
t
ightening
ho
L
pressure
l
0
1
pressure
9
lJ
L
I
c
I
Front
clutch
IT
0
LIO
reverse
brake
pressure
12
U
r
FT
II
pressure
11
rrOil
pump
suction
hol
J
C
Jf
JC
O
Governor
pressure
15
Governor
feed
pressure
l
An07
Fig
AT
23
Identification
of
oil
channels
in
case
face
AT
13
Page 274 of 537
Automatic
Transmission
P
RANGE
PARK
The
operation
of
clutches
and
band
are
functionally
the
same
as
in
Neu
tral
In
parking
however
when
the
parking
pawl
meshes
in
a
gear
which
is
splined
to
the
output
shaft
the
output
shaft
is
mechanically
locked
from
rotating
Free
Lock
AT086
Fig
AT
24
Parlling
mechanum
The
oil
discharged
from
the
oil
Low
Band
ervo
On
pump
is
fed
to
each
part
in
a
similar
Gw
Clutch
Parkin
Range
atia
Il
Yer5e
r
pawl
manner
to
that
of
the
N
range
The
Fron
Rear
brakt
Operation
Release
clutch
oil
having
the
line
pressure
7
which
Park
on
has
been
introduced
into
the
manual
valve
Il
reaches
the
I
st
2nd
shift
Re
er
2
132
on
on
on
valve
CID
through
the
line
pressure
circuit
5
As
the
1st
2nd
shift
Neutral
valve
s
force
to
th
right
hand
ide
PI
L
w
2
3
on
by
the
spring
the
line
pressure
5
and
Drive
P2
Second
14S3
on
on
12
actuates
the
low
and
reverse
brake
through
the
groove
Also
Ihe
03
Top
1
000
on
on
parking
pawl
engages
with
the
outer
2
Second
1
458
teeth
of
the
oil
distributor
by
means
of
the
manual
lever
mechanically
12
Second
1458
on
on
locking
the
output
shaft
II
Low
2
453
on
AT
14
Page 276 of 537
R
RANGE
REVERSE
In
R
range
the
front
clutch
and
the
low
and
reverse
brake
are
applied
The
power
flow
is
through
the
input
shaft
front
clutch
and
connecting
shell
to
the
sun
gear
Clockwise
rota
tion
of
the
sun
gear
causes
counter
clockwise
rotation
of
the
rear
planeta
ry
gears
With
the
connecting
drum
held
stationary
by
the
low
and
reverse
brake
the
rear
planetary
gears
rotate
the
rear
internal
gear
and
drive
the
flange
counterclockwise
The
rear
drive
flange
splined
to
the
output
shaft
rotates
the
output
shaft
counterclock
wise
at
a
reduced
speed
with
an
increase
in
torque
for
reverse
gear
Automatic
Transmission
R
Fig
AT
26
Power
tranamis
ion
during
R
range
m
i
1
A
TOBS
Fig
A
T
21
Optrationof
each
mechanism
during
R
range
When
the
manual
valve
V
is
posi
Clutch
Low
Band
servo
One
tioned
at
R
range
the
oil
having
the
Gear
Partina
Ranae
re
ne
way
line
pressure
7
is
directed
to
line
ralio
Front
Rear
brake
Openlion
Relulie
clutch
plwl
pressure
circuits
5
and
6
The
pressure
in
the
circuit
5
actuates
the
Park
on
on
low
and
reverse
brake
after
being
Ruene
2
182
on
on
on
introduced
into
line
pressure
circuit
Neutral
12
through
the
I
st
2nd
shift
valve
ID
The
pressure
in
the
circuit
op
DI
Low
2
458
on
on
erates
the
release
side
of
the
band
servo
and
the
front
c1u
tch
after
being
Driowe
D2
Second
1
458
on
on
led
to
line
pressure
circuit
0
D3
Top
1
000
on
on
on
through
the
2nd
3rd
shift
valve
@
2
Second
1
458
The
throttle
pressure
I
6
and
the
line
on
on
pressure
6
which
vary
with
the
12
Second
S8
on
on
degree
of
accelerator
pedal
depression
II
Low
2
458
both
act
the
pressure
regulator
on
on
on
valve
CD
and
press
against
its
valve
CD
increasing
line
pressure
7
In
Rn
range
the
governor
pressure
is
absent
making
all
such
valves
as
the
1st
2nd
shift
valve
ID
lnd
3rd
shift
valvc
@
and
pressurc
modifier
valve
inoperative
AT16
Page 278 of 537
N
RANGE
NEUTRAL
In
N
range
none
of
the
clutches
and
band
are
applied
thus
no
power
is
transmitted
to
the
output
shaft
The
pressure
of
oil
discharged
from
the
oil
pump
is
regulated
by
the
pressure
regulator
valve
Dto
maintain
the
line
pressure
7
and
the
oil
is
led
to
the
manual
valve
@
vacuum
throt
tie
valve
@
and
solenoid
down
shift
valve
@
The
oil
is
further
introduced
into
the
torque
converter
at
its
op
erating
pressure
14
and
a
portion
of
this
oil
is
distributed
to
each
part
as
the
front
lubricant
The
oil
which
has
been
discharged
from
the
torque
con
verter
is
also
distributed
to
eacn
part
as
the
rear
lubricant
As
the
oil
pump
rotates
at
the
same
speed
as
the
engine
the
oil
pump
discharge
increases
with
engine
speed
But
the
surplus
oil
is
returned
to
the
oil
pan
by
the
pressure
regula
tor
valve
D
Automatic
Transmission
Geu
Clutch
Low
4
Band
crvo
One
Pultin
R
atio
WI
pawl
Front
Rear
brake
Operation
Release
clutch
Park
on
on
Reverse
2
182
on
on
on
Neutral
Dt
Low
2
458
on
on
Drive
D2
Second
1
458
on
on
m
Top
1
000
on
on
on
on
2
Second
1
458
on
on
12
Sec
ond
1
458
on
on
II
Low
2
458
on
on
AT
la
Page 280 of 537
Automatic
Transmission
R
RANGE
REVERSE
R
In
R
range
the
front
dutch
and
the
low
and
reverse
brake
are
applied
The
power
flow
is
through
the
input
shaft
front
clutch
and
connecting
shell
to
the
sun
gear
Clockwise
rota
tion
of
the
sun
gear
causes
counter
clockwise
rotation
of
the
rear
planeta
ry
gears
With
the
connecting
drum
held
Slationary
by
the
low
and
reverse
brake
the
rear
planetary
gears
rotate
the
rear
internal
gear
and
drive
the
flange
counterclockwise
The
rear
drive
flange
splined
to
the
output
shaft
rotates
the
output
shaft
counterclock
wise
at
a
reduced
speed
with
an
increase
in
torque
for
reverse
gear
f
When
Ihe
manual
valve
CV
is
posi
tioned
at
R
range
Ihe
oil
having
Ihe
line
pressure
7
is
directed
to
line
pressure
circuits
5
and
6
The
pressure
in
the
circuit
5
actuates
the
low
and
reverse
brake
after
being
introduced
into
line
pressure
circuit
12
through
the
I
st
2nd
shift
valve
@
The
pressure
in
Ihe
circuit
op
erates
the
release
side
of
the
band
servo
and
the
front
clutch
after
being
led
to
line
pressure
circuit
10
through
the
2nd
3rd
shift
valve
@
The
throtlle
pressure
16
and
the
line
pressure
6
which
vary
with
the
degree
of
acceJerator
pedal
depression
both
act
on
the
prcssure
regulator
valve
CD
and
press
against
its
valve
CD
increasing
line
pressure
7
In
R
range
the
governor
pressure
is
absent
making
all
slldl
valves
as
the
J
SI
2nd
shift
valve
@
2nd
3rd
shift
valvc
@
and
pressure
modifier
valve
j
inoperative
C
Fig
AT
26
Power
transmi
ion
during
R
range
A
TOS5
Fig
AT
27
Operation
attach
mechanism
during
R
range
G
Clutch
Low
A
Band
servo
One
Parkin
Ran
no
wa
plwl
ratio
Front
Rear
brake
Operllioo
Rdr
ue
clutch
k
on
on
Revctte
1
181
on
on
on
Neutnl
DI
Low
1
418
on
on
Driw
D2
Second
1
458
on
on
DJ
Top
1
000
on
on
on
on
2
Second
1
458
on
on
12
Second
1
458
on
on
I
II
Low
2
458
on
on
AT
16
Page 284 of 537
D
RANGE
LOW
GEAR
Automatic
Transmission
The
low
gear
in
D
range
is
somewhat
different
from
that
in
I
range
The
rear
c1utdl
is
applied
as
III
I
range
but
the
one
way
clutch
holds
the
connecting
drum
The
power
now
is
the
same
as
in
1
J
range
That
is
the
power
now
takes
place
through
Ihe
input
shaft
and
into
the
rear
clutch
The
input
shaft
is
splined
to
the
rear
clutch
drum
and
drives
it
Rotation
of
Ihe
rear
clutch
drives
the
rear
clutch
hub
and
front
internal
gear
The
front
internal
gear
rotales
the
front
planetary
gears
clockwise
to
cause
the
sun
gear
to
rotate
counter
clockwise
Counterclockwise
rotation
of
the
sun
gear
turns
the
rear
planetary
gears
clockwise
With
the
rear
plane
tary
carrier
held
stationary
by
the
one
way
clutch
the
clockwise
rotation
of
the
rear
planetary
gears
rotates
the
rear
internal
gear
and
drives
the
flange
clockwise
The
internal
drive
flange
is
splined
to
the
outpul
shaft
and
rotates
the
output
shaft
clockwise
When
the
manual
valve
is
posi
tioned
at
D
the
line
pressure
7
introduced
into
the
manual
valve
is
led
to
the
line
pressure
circuits
l
2
and
3
The
pressure
in
the
circuit
I
acluates
the
rear
clutch
and
the
gover
nor
and
al
the
same
time
operates
the
1st
2nd
shift
valve
CID
to
change
the
speed
The
circuit
2
leads
to
the
second
lock
valve
@
The
circuit
3
actuates
the
2nd
3rd
shift
valve
@
for
the
2nd
3rd
speed
change
and
at
the
same
lime
locks
the
second
lock
valve
@
The
throttle
pressure
16
which
changes
with
the
degree
of
accelerator
pedal
depression
presses
Ihe
pressure
regulator
valve
CD
and
increases
the
line
pressure
7
When
Ihe
speed
of
the
vehicle
has
increased
the
governor
pressure
15
introduced
from
the
line
pressure
circuit
I
actuates
the
I
SI
2nd
shift
valve
CID
2nd
3rd
shift
valve
@
and
pressure
modifier
valve
ID
When
the
governor
pressure
is
high
the
pressure
modifier
valve
ID
acls
in
such
a
direction
as
to
compress
the
spring
and
the
throttle
pressure
is
led
to
the
throttle
pressure
18
This
ATOSO
Fig
AT
30
Power
transmission
during
D
J
range
liIIl
I
IW
L
AT08l
Fig
AT
31
Operation
of
each
mechanism
during
VJ
range
Clutch
low
Band
servo
On
Parking
Cur
Ran
Rllelle
way
pawl
ratio
Front
Rur
brake
Operation
Rekase
ch
lch
Park
on
on
RellerK
2
t82
on
on
on
Neutral
01
low
2
S8
on
on
Orivt
02
Second
1
458
on
on
OJ
Top
1000
on
on
on
on
2
Second
1
458
on
00
t2
Second
1
458
on
on
t
tt
low
2
458
on
on
pressure
acts
against
the
force
of
the
spring
of
the
pressure
regulator
valve
CD
and
also
against
the
throttle
pres
sure
16
thus
lowering
the
line
pres
sure
7
The
governor
pressure
also
increases
with
the
speed
of
Ihe
vehicle
exerting
a
pressure
on
one
side
of
the
lst
2nd
shift
valve
and
counter
acts
the
Ihrottle
pressure
19
line
pressure
AT
20
l
and
the
spring
which
are
exerting
against
t
1e
governor
pressure
There
fore
when
the
governor
pressure
ex
ceeds
Ihis
pressure
the
speed
is
shifted
from
the
I
st
gear
to
the
2nd
gear
The
further
the
accelerator
pedal
is
depressed
the
higher
becomes
the
throttle
pressure
19
increasing
the
governor
pressure
and
shifting
the
speed
change
point
to
the
higher
side
Page 286 of 537
D
RANGE
2ND
GEAR
Automatic
Transmission
t
In
this
case
the
rear
c1ut
h
IS
applied
and
the
band
brake
holds
the
fronl
dUh
h
drum
the
connecting
shell
and
the
sun
gear
from
rotating
The
power
flow
lakes
place
through
the
input
shaft
into
the
rear
clutch
and
the
front
internal
gear
With
the
sun
gear
held
stationary
the
front
planeta
ry
gears
rotate
around
the
sun
gear
carrying
the
front
planet
carrier
with
them
The
fronl
planet
carrier
being
splined
to
the
output
shaft
causes
clockwise
rotation
of
the
output
shaft
at
a
reduced
speed
compared
with
the
speed
of
the
input
shaft
with
an
increase
in
torque
As
the
low
and
reverse
brake
is
not
applied
the
clock
wise
rotation
of
the
output
shaft
causes
clockwise
rotation
of
rear
inter
nal
gear
and
the
rear
planet
carrier
also
rotates
around
the
sun
gear
in
a
clockwise
direction
The
one
way
clutch
will
act
to
allow
the
clockwise
rotation
of
connecting
drum
When
the
car
speed
increases
while
running
at
D
range
I
st
gear
the
st
2nd
shift
valve
ID
moves
allow
ing
the
line
pressure
I
to
be
intro
duced
into
the
line
pressure
8
Ihrough
itself
The
line
pressure
8
is
further
led
to
the
line
pressure
9
through
the
second
lock
valve
@
and
by
locking
the
band
servo
obtains
the
2nd
gear
condition
Fig
AT
33
Power
transmission
during
Dz
range
A
T079
Fig
AT
34
Operation
of
each
mechanism
during
D
range
Clutch
Low
Band
servo
On
Patking
G
Range
reverse
w
pawl
ratio
Fronl
Rur
brake
Optrltion
Release
clutch
PlIk
on
on
Revtne
2
182
on
on
on
Neutral
01
Low
2
4S8
on
on
Drive
02
Second
1
4S8
on
on
OJ
Top
1
000
on
on
on
on
2
Second
1
4S8
on
on
12
Second
1
4S8
on
on
1
II
Low
2
4S8
on
on
AT
22
Page 288 of 537
D
RANGE
TOP
GEAR
Automatic
Transmission
In
3rd
gear
position
the
front
and
rear
dUlches
are
engaged
The
power
now
takes
place
through
the
input
shaft
into
rear
clutch
drum
The
rear
clutch
drum
rotates
the
steel
drive
plates
of
the
rear
clutch
and
the
lined
drive
plates
of
the
rear
clutch
and
the
lined
drive
plates
of
the
front
clutch
The
rear
clutch
directs
the
power
flow
through
the
rear
clutch
hub
and
front
internal
gear
to
the
front
pl
net
carrier
The
front
clutch
directs
Ihe
power
now
through
the
connecting
shell
to
the
sun
gear
Wilh
the
sun
gear
and
the
rear
clutch
hub
driven
at
the
same
speed
the
front
planet
assembly
is
forced
to
rotate
the
output
shaft
at
the
same
speed
in
the
direction
to
provide
the
top
gear
When
the
car
speed
further
in
creases
while
running
at
D2
range
2nd
gear
and
the
governor
pressure
15
exceeds
the
combined
force
of
the
spring
of
the
2nd
3rd
shift
valve
@
and
the
throttle
pressure
19
the
2nd
3rd
shift
valve
@
moves
and
the
line
pressure
8
acts
to
release
the
front
clutch
and
band
servo
through
the
line
pressure
10
OJ
a
Fig
AT
36
Power
transmission
during
DJ
range
A
T083
Fig
AT
3
Operation
of
aeh
mf
hani5m
UDJ
range
Clulch
Low
Band
KrVO
One
Parking
em
Ral
8t
reverK
w
pawl
ratio
Front
Rear
brake
Operation
Rdene
clutch
Park
on
on
Reverse
2
182
on
on
on
Neutral
01
Low
24S8
on
on
Drive
02
Second
1
4S8
on
on
03
Top
1
000
on
on
on
on
1
Second
t
4S8
on
on
12
Second
1
458
on
on
t
I
Lo
2
458
on
on
AT
24