© MOOG 2019
This document is subject to MOOG INTELLECTUAL AND PROPRIETARY INFORMATION LEGEND . The details are on page II.
22
MRJ06301
Figure 1-20 TB-1 Functions
N
a
m
e
IN
/O
U
T
F
u
n
c
ti
o
n
C
o
m
m
e
n
ts
1
-M
F
B
Si
g
n
a
l
Pi
n
A
o
r
D
,
B
to
C
,
M
EB
Se
rv
o
v
a
lv
e
(M
F
B)
M
e
c
h
a
n
ic
a
l
F
e
e
d
b
a
c
k
2
+
M
F
B
Si
g
n
a
l
Pi
n
A
o
r
D
,
B
to
C
,
M
EB
Se
rv
o
v
a
lv
e
C
o
n
n
e
c
ti
o
n
A
t
o
D
o
r
D
t
o
A
a
llo
w
p
h
a
s
e
re
v
e
rs
a
l
3
F
G
N
D
(C
a
b
le
Sh
ie
ld
)
C
a
b
le
Sh
ie
ld
g
ro
u
n
d
,
M
F
B
Se
rv
o
v
a
lv
e
D
o
n
o
t
g
ro
u
n
d
t
h
e
s
h
ie
ld
a
t
th
e
s
e
rv
o
v
a
lv
e
4
F
G
N
D
(C
a
b
le
Sh
ie
ld
)
C
a
b
le
Sh
ie
ld
g
ro
u
n
d
,
EF
B
Se
rv
o
v
a
lv
e
D
o
n
o
t
g
ro
u
n
d
t
h
e
s
h
ie
ld
a
t
th
e
s
e
rv
o
v
a
lv
e
5
2
4
V
D
C
O
U
T
Pi
n
A
,
EF
B
Se
rv
o
v
a
lv
e
(EF
B
)El
e
c
tri
c
a
l
F
e
e
d
b
a
c
k
V
a
lv
e
Po
w
e
r.
M
a
x
1
.5
A
a
v
a
ila
b
le
6
G
N
D
O
U
T
Pi
n
E
o
r
D
,
EF
B
Se
rv
o
v
a
lv
e
T
h
e
p
o
la
ri
ty
i
s
re
v
e
rs
e
d
d
e
p
e
n
d
in
g
o
n
t
h
e
c
o
n
n
e
c
ti
o
n
o
f
p
in
D
/
E
C
o
n
n
e
c
ti
o
n
e
x
a
m
p
le
7
P
G
N
D
Pi
n
B,
EF
B
Se
rv
o
v
a
lv
e
8
EF
B
Si
g
n
a
l
O
U
T
Pi
n
D
o
r
E,
EF
B
Se
rv
o
v
a
lv
e
EF
B
Si
g
n
a
l
:
±
1
0
V
O
U
T
M
F
B
Se
rv
o
v
a
lv
e
9
V
a
lv
e
Sp
o
o
l(-)
Pi
n
C
,
EF
B
Se
rv
o
v
a
lv
e
1
A
10
V
a
lv
e
Sp
o
o
l(+
)
Pi
n
F
,
EF
B
Se
rv
o
v
a
lv
e
2
D
3
Sh
ie
ld
11
M
o
n
it
o
r
1
M
o
n
it
o
r
O
u
t
1
±
1
0
V
D
C
O
U
T
.
Si
g
n
a
l
s
e
le
c
ta
b
le
12
M
o
n
it
o
r
2
M
o
n
it
o
r
O
u
t
2
±
1
0
V
D
C
O
U
T
.
Si
g
n
a
l
s
e
le
c
ta
b
le
EF
B
Se
rv
o
v
a
lv
e
13
G
N
D
M
o
n
it
o
r
G
ro
u
n
d
G
ro
u
n
d
f
o
r
M
o
n
it
o
r
1
a
n
d
2
5
A
14
N
O
T
U
SE
7
B
15
N
O
T
U
SE
9
C
16
N
O
T
U
SE
8
D
17
N
O
T
U
SE
6
E
1
0
F
18
G
N
D
4
Sh
ie
ld
19
D
C
D
T
I
N
(+
)
IN
Pi
n
C
o
r
D
:
D
C
D
T
F
e
e
d
b
a
c
k
s
ig
n
a
l
(+
)
(D
C
D
T
)
Pa
ri
s
o
n
c
o
re
p
o
s
it
io
n
f
e
e
d
b
a
c
k
s
e
n
s
o
r
20
+
1
0
V
D
C
O
U
T
Pi
n
A
:
D
C
D
T
Po
w
e
r
v
o
lt
a
g
e
(+
1
0
V
)
T
h
e
l
e
v
e
l
o
f
th
e
f
e
e
d
b
a
c
k
s
ig
n
a
l
c
h
a
n
g
e
s
d
e
p
e
n
d
in
g
o
n
t
h
e
t
y
p
e
o
f
D
C
D
T
(m
a
x
im
u
m
:
±
1
0
V
)
C
o
re
Po
s
iti
o
n
(D
C
D
T
)
21
D
C
D
T
I
N
(-)
IN
Pi
n
D
o
r
C
:
D
C
D
T
F
e
e
d
b
a
c
k
s
ig
n
a
l
(-)
T
h
e
p
o
la
ri
ty
i
s
re
v
e
rs
e
d
d
e
p
e
n
d
in
g
o
n
t
h
e
c
o
n
n
e
c
ti
o
n
o
f
p
in
C
/
D
2
0
A
22
-1
0
V
D
C
O
U
T
Pi
n
B
:
D
C
D
T
Po
w
e
r
v
o
lt
a
g
e
(-1
0
V
)
2
2
B
23
F
G
N
D
(C
a
b
le
Sh
ie
ld
)
C
a
b
le
Sh
ie
ld
g
ro
u
n
d
,
D
C
D
T
D
o
n
o
t
g
ro
u
n
d
t
h
e
s
h
ie
ld
a
t
th
e
A
c
tu
a
to
r
o
r
D
C
D
T
1
9
C
2
1
D
24
A
C
C
I
N
IN
Pi
n
2
,
Po
te
n
ti
o
m
e
te
r
(A
C
C
Po
t)
A
c
c
u
m
u
la
to
r
p
o
s
it
io
n
f
e
e
d
b
a
c
k
s
e
n
s
o
r
2
3
Sh
ie
ld
25
A
C
C
V
L
T
O
U
T
Pi
n
1
o
r
3
,
Po
te
n
ti
o
m
e
te
r
A
va
ila
bl
e
ac
cu
m
ul
at
or
ty
pe
: I
nt
ern
al
re
si
st
an
ce
1
k
Ω
o
r
m
ore
26
G
N
D
Pi
n
3
o
r
1
,
Po
te
n
ti
o
m
e
te
r
A
C
C
Po
s
iti
o
n
(PO
T
)
27
F
G
N
D
(C
a
b
le
Sh
ie
ld
)
C
a
b
le
Sh
ie
ld
g
ro
u
n
d
,
A
c
c
u
m
u
la
to
r
D
o
n
o
t
g
ro
u
n
d
t
h
e
s
h
ie
ld
a
t
th
e
A
c
c
u
m
u
la
to
r
2
5
1
2
4
2
28
M
o
n
it
o
r
3
M
o
n
it
o
r
O
u
t
3
±
1
0
V
D
C
O
U
T
.
Si
g
n
a
l
s
e
le
c
ta
b
le
2
6
3
29
M
o
n
it
o
r
4
M
o
n
it
o
r
O
u
t
4
±
1
0
V
D
C
O
U
T
.
Si
g
n
a
l
s
e
le
c
ta
b
le
2
7
Sh
ie
ld
30
G
N
D
M
o
n
it
o
r
G
ro
u
n
d
G
ro
u
n
d
f
o
r
M
o
n
it
o
r
3
a
n
d
4
31
~
40
N
O
T
U
SE
O
U
T
O
U
T
T
B
-1
:
A
n
a
lo
g
I
/O
T
e
rm
in
a
ls
(M
o
o
g
Pr
o
d
u
c
ti
o
n
a
n
d
T
ra
n
s
d
u
c
e
rs
)
T
e
rm
N
o
.
O
U
T
±
1
0
,
2
0
,
5
0
,
1
0
0
m
A
IN
Sp
o
o
l
Si
g
n
a
l
:
4
-2
0
m
A
