−
3
3
−
Models: MMY-MAP
0
806
T
∗
(J)P
∗
, MAP1006T
∗
(J)P
∗
, MAP1206
∗
(J)P
∗
and MAP14B6T
∗
(J)P
∗
P
O
W
E
R
S
U
P
P
L
Y
C
o
n
n
e
c
to
r
P
u
s
h
b
u
tt
o
n
s
w
it
c
h
R
o
ta
ry
s
w
it
c
h
2
-w
a
y
v
a
lv
e
c
o
il
P
u
ls
e
m
o
to
r
v
a
lv
e
(
M
a
in
)
C
o
m
p
re
s
s
o
r
R
e
la
y
c
o
n
n
e
c
to
r
D
ip
s
w
it
c
h
F
u
s
e
(
C
o
m
p
re
s
s
o
r)
3
1
.5
A
5
0
0
V
H
ig
h
p
re
s
s
u
re
s
w
it
c
h
S
W0
1
,S
W0
2
,S
W
0
3
6
3
H
1
,6
3
H
2
C
N
**
*
S
W
0
6
,S
W
0
7
,S
W
0
9
,S
W
1
0
S
W
1
1
,S
W
1
2
,S
W
1
3
,S
W
1
4
S
W
1
6
,S
W
1
7
,S
W
3
0
,S
W
8
0
0
F0
1
,F
0
2
S
W0
4
,S
W0
5
,S
W
1
5
S
V
2
,S
V
3
A
,S
V
3
B
,S
V
3
C
S
V
3
D
,S
V
4
1
,S
V
4
2
P
M
V
1
C
M
1
,C
M
2
C
N
-R
FM
F
a
n
m
o
to
r
P
ip
e
t
e
m
p
.
se
n
so
r
(D
isch
a
rg
e
)
TD
1
,T
D
2
O
il
te
m
p
.
s
e
n
s
o
r
TO
H
e
a
t
e
xch
a
n
g
e
t
e
m
p
.
se
n
so
r
TE
1
A
ir
t
e
m
p
.
s
e
n
s
o
r
TL
1
,T
L
3
L
iq
u
id
t
e
m
p
.
s
e
n
s
o
r
TK
1
,T
K
2
,T
K
4
,TK
5
P
re
s
s
u
re
s
e
n
s
o
r
(H
ig
h
)
P
D
P
S
P
re
s
s
u
re
s
e
n
s
o
r
(L
o
w
)
H
E
A
T
E
R
1
,H
E
A
TE
R
2
C
o
m
p
re
s
s
o
r
c
a
s
e
h
e
a
te
r
R
e
a
c
to
r
fo
r
c
o
m
p
re
s
s
o
r
L
-C
M
1
,L
-C
M
2
A
.H
E
A
T
E
R
A
c
c
u
m
u
la
to
r
c
a
s
e
h
e
a
te
r
(M
C
C
-1
6
6
9
)
(M
C
C
-1
6
7
3
)
F0
1
,F
0
2
F
u
s
e
(
In
te
rf
a
c
e
)
T
6
.3
A
2
5
0
V
(M
C
C
-1
6
0
8
A
)
F0
1
,F
0
2
,F
0
3
F
u
s
e
(
N
o
is
e
f
ilt
e
r)
T
6
.3
A
2
5
0
V
(M
C
C
-1
6
5
9
)
F
u
s
e
(
F
a
n
)
6
.3
A
7
5
0
V
D
C
TS
1
,T
S
3
P
ip
e
t
e
m
p
.
s
e
n
s
o
r
(S
u
c
ti
o
n
)
In
ve
rt
e
r
P
.C
.B
o
a
rd
(
C
o
m
p
re
ss
o
r)
N
o
is
e
f
ilt
e
r
P
.C
.B
o
a
rd
A
S
y
m
b
o
l
M
C
C
-1
6
0
8
B
M
C
C
-1
6
6
9
M
C
C
-1
6
0
8
A
M
C
C
-1
6
5
9
M
C
C
-1
6
7
3
P
a
rt
s
n
a
m
e
In
te
rf
a
c
e
C
o
n
tr
o
l
P
.C
.B
o
a
rd
In
v
e
rt
e
r
P
.C
.B
o
a
rd
(
F
a
n
)
P
.C
.B
o
a
rd
N
o
is
e
f
ilt
e
r
P
.C
.B
o
a
rd
B
S
y
m
b
o
l
P
a
rt
s
n
a
m
e
M
g
-C
T
T
M
a
g
n
e
t
c
o
n
ta
c
to
r
R
B
R
u
s
h
c
u
rr
e
n
t
p
ro
te
c
t
re
s
is
to
r
F
0
1
P
M
V
4
P
u
lse
m
o
to
r
va
lve
(
S
u
b
co
o
l)
TB
1
TB
2
Te
rm
in
a
l
b
lo
c
k
(p
o
w
e
r
s
u
p
p
ly
)
Te
rm
in
a
l
b
lo
c
k
(c
o
n
tr
o
l
w
ir
in
g
)
C
M
2
M
S
3
+
+
-
-
M
C
C
-1
6
6
9
(2
)
S
V
2
CN
32
1
S
V
3
C
S
V
3
B
C
N
8
0
0
(S
e
rv
ic
e
)
S
W
R
T
O
N
1
O
F
F
2
3
4
1
S
W
1
2
O
N
O
F
F
S
W
1
7
2
3
4
S
W
0
7
1
O
N
O
F
F
2
3
4
O
N
O
N
S
W
1
3
O
F
F
O
N
1
2
3
4
S
W
0
9
O
N
O
F
F
1
2
3
4
2
S
W
1
4
O
F
F
1
3
4
2
S
W
1
0
O
F
F
1
3
4
C
N
5
1
1
C
N
5
1
0
C
N
5
1
2
F
M
M
S
3
P
>
6
3
H
1
4
U
V
W
CN
30
1
+
C
N
8
5
2
M
C
C
-1
6
5
9
CN
32
2
S
V
3
A
S
V
3
D
C
N
1
0
1
C
N
5
3
5
C
N
8
5
1
C
N
6
0
0
S
W
0
4
S
W
0
2
D
6
0
0
D
6
0
1
D
6
0
2
S
W
0
1
C
N
3
0
C
N
3
1
C
N
3
2
S
W
0
3
D
6
0
3
D
6
0
4
S
W
0
5
S
W
1
5
C
N
5
2
3
C
N
5
3
4
C
N
5
0
5
C
N
5
0
3
C
N
5
0
7
C
N
5
2
0
T
K
5
T
K
4
T
L
1
T
E
1
T
O
T
S
1
T
D
2
C
N
5
0
1
C
N
5
1
4
C
N
5
1
3
P
D
3
C
N
5
0
2
C
N
5
0
0
P
S
3
3
1
t°
T
D
1
V
U
W
(W
H
I)
(P
N
K
)
(W
H
I)
(Y
E
L
)
(G
R
N
)
(W
H
I)
(Y
E
L
)
(R
E
D
)
5
3
1
2
1
1
2
1
2
2
1
1
3
2
1
CN
31
1
(W
HI)
(W
HI)
(W
HI)
(B
L
U
)
(W
H
I)
(B
L
U
)
(G
R
N
)
(B
L
U
)
(G
R
N
)
(R
E
D
)
(W
H
I)
3
1
6
3
2
4
1
5
2
1
CN
30
2
CN
30
3
CN
21
1
CN
21
2
CN
21
3
C
N
3
0
5
B
L
K
W
H
I
R
E
D
C
N
8
5
2
CN
19
CN
20
R
E
D
W
H
I
B
L
K
2
3
4
1
3
4
R
E
D
W
H
I
B
L
K
t°
t°
t°
t°
t°
t°
t°
(B
L
U
)
(B
L
U
)
(R
E
D
)
(W
H
I)
(R
E
D
)
6
3
H
2
P
>
(R
E
D
)
C
N
3
0
6
L
-C
M
2
*1
F0
1
F0
2
CN
13
CN
12
CN
11
CN1
0
2
(B
L
U
)
CN
1
0
2
(W
H
I)
-
C
N
1
4
M
C
C
-1
6
0
8
A
M
C
C
-1
6
0
8
B
C
M
1
CN
23
CN
24
C
N
2
2
C
N
3
1
7
C
N
3
3
4
C
N
5
0
C
N
1
3
H
E
A
T
E
R
1
A
.H
E
A
T
E
R
H
E
A
T
E
R
2
CN
31
2
S
V
4
1
S
V
4
2
O
N
O
F
F
O
N
1
2
O
F
F
1
2
3
1
O
N
O
F
F
2
3
1
O
F
F
O
N
2
3
M
C
C
-1
6
7
3
L
2
N
L
3
C
N
-R
T
B
2
C
N
0
1
C
N
0
3
C
N
3
0
0
M
5
P
M
V
1
C
N
5
0
8
F
0
1
F
0
2
C
N
5
3
0
4
(B
LU
)
(B
L
U
)
(R
E
D
)
C
N
3
3
1
(W
H
I)
C
N
3
3
5
(G
R
Y
)
(R
E
D
)
(W
H
I)
(W
H
I)
(B
L
U
)
BL
K
W
H
I
B
L
K
C
N
4
0
0
(W
H
I)
(B
L
K
)
3
1
3
1
3
1
3
1
3
1
7
5
3
1
+
-
CN
19
CN
20
CN
21
3
CN
21
2
CN
21
1
4
+
-
CN
11
CN
12
CN
13
F0
1
F0
2
M
C
C
-1
6
6
9
(1
)
4
R
E
D
W
H
I
B
L
K
RE
D
WH
I
BL
K
(B
LK
)
(R
ED
)
1
2
1
2
6
2
4
3
1
(R
E
D
)
1
3
C
N
3
0
4
C
N
1
1
C
N
1
2
W
HI
BL
K
B
LK
B
LK
WH
I
RE
D
R
B
6T3
4T2
3L2
5L3
Mg-CTT
F
0
3
F
0
2
F
0
1
CN
32
CN
33
CN
34
CN
42
CN
43
B
L
K
B
L
K
W
H
I
U
U
U
U
T
O
C
E
N
T
R
A
L
C
O
N
T
R
O
L
L
E
R
T
O
I
N
D
O
O
R
U
N
IT
T
O
O
U
T
D
O
O
R
U
N
IT
G
R
Y
R
E
D
A
1
A
2
C
oi
l
Mg
-CTT
G
R
Y
CN1
0
1
(W
H
I)
CN
1
0
2
(B
L
U
)
RE
D
GR
Y
T
B
1
RE
D
R
E
D
2T1
1L1
CN
31
CN
41
R
E
D
L
1
4
S
W
3
0
4
4
S
W
1
6
S
W
1
1
S
W
0
6
C
N
5
0
9
C
o
n
n
e
c
to
r
fo
r
o
p
ti
o
n
a
l
P
.C
.B
o
a
rd
(B
L
K
)
C
N
2
3
C
N
2
1
C
N
9
0
3
T
S
3
(P
U
R
)
2
1
t°
C
N
5
3
1
C
N
5
3
2
T
K
2
T
K
1
(B
L
K
)
(G
R
N
)
1
3
3
1
t°
t°
3
4
P
M
V
4
5
C
N
3
0
3
M
(R
E
D
)
6
2
4
3
1
A1
A2
M
S
3
V
U
W
B
L
K
W
H
I
R
E
D
L
-C
M
1
CN
12
CN
01
C
N
9
0
2
T
L
3
(P
N
K
)
1
2
t°
C
N
8
5
1
(W
H
I)
1
2
3
4
U
4
U
5
U
2
U
3
U
1
U
6
S
S
C
N
8
5
1
(R
E
D
)
C
N
8
5
2
(W
H
I)
2
3
4
5
2
3
4
5
2
3
4
5
F0
1
4
4
2
3
4
5
C
N
3
3
2
(B
L
U
)
YE
L
BL
U
C
N
2
3
C
N
2
1
1
2
3
4
5
1
2
3
4
5
1
3
1
3
1
3
1
3
3
1
2
1
1
3
2
4
1
3
2
4
C CNN
3 311
4 4
( (WW
H HII))
1
2
O
F
F
O
N
S
W
8
0
0
O
F
F
O
N
S
W
8
0
0
O
F
F
O
N
1
2
S
W
8
0
0
1
2
1
2
T
e
rm
in
a
l
C
o
n
n
e
c
to
r
P
.C
.b
o
a
rd
T
e
rm
in
a
l
b
lo
c
k
P
ro
te
c
ti
v
e
e
a
rt
h
F
ie
ld
w
ir
in
g
C
N
-R
V
U
C
o
mp
re
s
s
o
r
te
rmi
n
a
l
W
*N
o
is
e
f
ilt
e
r
P
.C
.
b
o
a
rd
s
a
re
i
n
s
ta
lle
d
o
n
a
b
a
c
k
o
f
t
e
rm
in
a
l
b
lo
c
k
.
*1
T
h
e
in
st
a
lla
tio
n
o
f
th
e
o
p
tio
n
a
l b
o
a
rd
is
u
p
t
o
f
o
u
r
p
ie
ce
s.
M
C
C
-16
59
M
C
C
-1
673
T
B
1
T
B
2
M
g-
C
T
T
P
ar
ts
la
yo
ut
M
C
C
-16
69
(C
M
1)
M
C
C
-1
66
9
(C
M
2)
L2
L3
N
L1
U
3
U
4
U
2
S
U
1
U
5
U
6
S
R
E
D
:R
E
D
W
H
I:
W
H
IT
E
Y
E
L
:Y
E
L
L
O
W
B
L
U
:B
L
U
E
B
L
K
:B
L
A
C
K
G
R
Y
:G
R
A
Y
P
N
K
:P
IN
K
O
R
N
:O
R
A
N
G
E
B
R
N
:B
R
O
W
N
G
R
N
:G
R
E
E
N
P
U
R
:P
U
R
P
L
E
C
o
lo
r
in
d
ic
a
ti
o
n
N
F
C
m
o
du
le
(M
C
C
-1
66
7)
T8
∗
50Hz 380-415V
3N~
T7
∗
60Hz 380V 3N~
Summary of Contents for MMY-MAP0806HT7(J)P
Page 306: ...For HT8 J P E HT8 J P TR model 305 ...
Page 307: ...For T8 J P T7 J P T8P SG T8 J P ID T8 J P T model 306 ...
Page 313: ... 312 For HT8 J P E HT8 J P TR model ...
Page 314: ... 313 For T8 J P T7 J P T8P SG T8 J P ID T8 J P T model ...
Page 320: ... 319 For HT8 J P E HT8 J P TR model ...
Page 321: ... 320 For T8 J P T7 J P T8P SG T8 J P ID T8 J P T model ...
Page 350: ......