– 7 –
3. Wiring Diagrams
8, 10, 12, 14HP Model: MMY-MUP0801*, MUP1201*, MUP1401*
16, 18, 20HP Model: MMY-MUP1601*, MUP1801*, MUP2001*
22, 24HP Model: MMY-MUP2201*, MUP2401
Co
nn
e
c
to
r
Pro
te
ctive ear
th
Te
rm
in
a
l
Fi
e
ld
wi
ri
ng
T
e
rm
in
al
blo
c
k
P.
C
.Bo
ar
d
RE
D
:R
E
D
WHI
:W
H
IT
E
YE
L:Y
E
L
L
O
W
BL
U:
BL
U
E
BL
K:
BL
A
C
K
GR
Y
:GR
A
Y
O
R
N
:O
RAN
G
E
GR
N:
G
R
EEN
Colo
r i
n
d
icat
io
n
Inverter P.C.Board (Compressor)
Noi
se
fi
lte
r
P
.C.B
o
ar
d
Sym
b
ol
MC
C
-1
7
29
MC
C
-1
7
48
MC
C
-1
7
34
MC
C
-1
7
47
Pa
rt
s
n
a
m
e
In
te
rf
ac
e Co
nt
ro
l P
.C
.B
oa
rd
In
ve
rt
e
r P
.C.
B
o
ar
d
(F
an
)
P.
C.Boa
rd
Co
n
n
e
ct
o
r
Pu
sh
b
u
tt
o
n
s
w
itc
h
R
o
ta
ry
sw
itch
2-w
ay
v
a
lve
c
o
il
P
ul
se mo
to
r va
lv
e
(M
a
in)
Co
m
p
re
ss
o
r
Di
p
s
w
itc
h
63A
6
00V
AC
4-w
ay
v
a
lve
c
o
il
Hi
g
h p
res
su
re sw
itc
h
SW0
1
,SW
0
2
,S
W0
3
63
H
1,
6
3H
2
CN
**
*
F0
1
,F0
2
SW0
4
,SW
0
5
,S
W0
6
S
V
3D
,S
V
3F,
S
V
4
1,
S
V
42
PMV
1
C
M
1,
C
M
2
4W
V
1
SW100,
S
W101,S
W102
,S
W103
SW104,
S
W105,S
W106
FM1
,FM2
F
a
n
m
o
to
r
D
is
cha
rg
e tem
p
.
sen
so
r
TD
1,
T
D
2
Oil te
m
p
. sen
so
r
TO
Heat exch
anger
temp.
sensor
TE
1
,T
E
2,
T
E
3
Ai
r te
mp
. se
nso
r
TL
1,
TL2
,T
L
3
Liq
uid
t
em
p
. s
ens
o
r
TK
1,
T
K
2
P
res
sur
e se
ns
o
r (
H
ig
h)
PD
PS
P
re
ss
u
re
s
e
n
sor
(
L
ow
)
HEA
T
E
R
1
,HEA
T
E
R
2
C
om
p
re
ssor c
a
se
h
e
a
te
r
Re
a
ct
o
r f
o
r
co
m
p
re
ss
o
r
L
-C
M
1,
L-
C
M
2
(M
CC
-1
72
9)
F
u
se
(
C
o
m
p
re
sso
r)
(MC
C
-1
7
4
7
)
F0
1
,F0
2
Fu
se
(
In
te
rfa
ce
)
T
6
.3
A 25
0V
AC
(MC
C
-1
7
4
8
)
F0
1
,F0
2
,F0
3
F
use
(N
o
ise
f
ilte
r)
T
6
.3
A 25
0V
AC
(M
CC
-1
73
4)
F
u
se
(
F
an
)
6.
3
A
750
V
D
C
T
S
1
,T
S
3
S
uc
tio
n
t
e
m
p
.
se
ns
o
r
Mg
-C
T
T
1
,Mg
-C
T
T
2
Ma
g
n
e
t c
o
n
ta
ct
o
r
RB
Rus
h
cu
rr
en
t
pr
o
tect
r
e
si
st
o
r
F0
1
P
M
V
4
Pu
lse
m
o
tor
v
a
lv
e
(S
u
b
co
o
l)
TB
1
CN
0
1
,C
N
0
2
T
e
rm
in
a
l blo
ck(
P
o
w
e
r su
pp
ly
)
T
er
m
in
a
l blo
ck(
co
n
tr
o
l wir
ing)
Sy
m
b
ol
Pa
rt
s
n
a
m
e
P
ul
se mo
to
r va
lv
e
(S
ub
(R
))
PMV
3
P
M
V
2
Pu
lse
m
o
tor
v
a
lv
e
(S
u
b
(L
))
T
G1,
T
G
2
,T
G
3
G
a
s t
e
m
p
. s
e
ns
o
r
MC
C
-1
7
54
US
B
iso
la
te
P.C
.B
oa
rd
NFC
ta
g
NFC
CN8
60
(YE
L)
4
1
4
3
2
4
CN8
51
(WH
I)
1
4
3
2
4
NF
C
ta
g
MC
C
-1
7
5
4
2
5
4
3
USB
Type
-C
*1
T
h
e
in
st
a
lla
ti
on
of
t
h
e
o
p
ti
o
n
a
l b
o
ard
i
s
u
p
t
o
f
o
u
r p
ie
c
e
s
.
SW
01
SW
0
2
SW
0
3
SW
04
SW
0
5
SW
06
SW
R
T
(S
e
rv
ic
e
)
CN
8
0
0
M
C
C-
173
4
(
1
)
(BL
K)
Con
ne
cto
r f
or
opt
ion
al
P.C.
Bo
ard
CN50
9
L1
RE
D
RE
D
TB1
GR
Y
A1
A2
RED
RED
BL
K
WH
I
3
1
1
3
4
2
6
(WHI)
CN40
0
BL
K
WH
I
(BL
U)
(WH
I)
(RE
D)
F02
F01
CN50
8
PM
V1
5
CN3
00
L3
N
CN3
02
5
PM
V3
L2
MCC
-1
7
4
7
*1
(RE
D)
2
4
3
CN3
05
(WHI)
(RE
D)
(GR
N)
(BL
U)
(GR
N)
(BL
U)
(WH
I)
(RE
D)
3
CN50
0
3
CN5
13
CN51
4
CN5
01
CN6
00
FM
1
CN5
12
CN51
0
CN51
1
Uv
Uh
Uv
Uh
(RE
D)
㹋
CN3
03
5
PM
V
4
CN
3
7
8
(W
H
I)
CN38
1
(WH
I)
CN
5
0
2
(W
H
I)
t°
21
(Y
E
L
)
TO
CN
5
0
7
TOO
UT
DO
OR
UNIT
5
1
4
2
3
6
(W
H
I)
SV3F
SV3D
SV41
CN
32
4
23
45
6
CN
91
0
(W
H
I)
5
RB
CN0
1
CN0
2
BL
K
WHI
RE
D
BL
U
3
2
2
2
S
Uc
Uc
S
5
4
3
2
HEA
TE
R1
2
1
2
1
t°
21
TD
1
t°
43
TK
1
65
87
3
2
1
4
TG1
TG
2
5
7
6
9
8
TE1
TE2
t°
43
TS
1
t°
65
TS
3
2
t°
TL
1
t°
TL2
t°
TL
3
10
9
8
7
1
4
3
1
3
4
2
6
1
3
4
2
6
(WH
I)
CN30
1
5
PM
V2
1
3
4
2
6
M
C
C-
173
4
(
2
)
FM
2
(W
H
I)
CN8
0
2
12
CN
0
1
(R
ED
)
12
CN
0
2
(W
H
I)
CN3
0
1
(W
H
I)
+
-
F0
1
YE
L
B
L
U
(YEL
)
CN1
0
0
4
3
12
(W
H
I)
CN8
0
3
(Y
E
L
)
CN
1
0
1
12
3
3
4
TD
2
TK
2
21
43
TG3
1
3
2
5
4
TE3
CN
3
8
0
(B
L
K
)
CN3
84
(BL
U)
1
2
(B
L
K
)
SV42
CN
3
2
7
HEA
TE
R2
2
1
(RED)
CN306
BLK
WH
I
RE
D
M
C
C-
172
9
(
1
)
-
(WHI
)
CN1
01
L-C
M1
RE
D
WH
I
BLK
-
+
C
N203
CN2
0
2
CN2
0
1
CN
0
5
CN0
4
-
+
+
3
CM
1
MS
CN2
2
21
(WH
I)
CN21
(RED
)
4
2
23
4
5
21
12
3
RE
D
M
g
-C
T
T
2
BLK
WH
I
RB
(BL
U)
CN10
2
2
4
23
4
5
M
C
C-
172
9
(
2
)
4
W
V
U
(WH
I)
CN1
01
L-C
M2
-
+
CN2
0
3
CN
2
0
2
CN
2
0
1
CN
0
5
CN0
4
CM
2
CN2
2
21
(WH
I)
CN21
(RED)
2
21
(BL
U)
CN10
2
CN0
3
CN
0
2
CN
0
1
F0
2
F0
1
C
N851
(W
H
I)
CN8
5
2
(W
HI
)
CN
1
0
3
(Y
E
L
)
Mg
-C
T
T
2
Co
il
A1
A
2
-
+
3
MS
3
MS
3
MS
C
N851
(W
H
I)
23
4
5
CN8
5
2
(W
HI
)
23
4
5
12
3
(Y
E
L
)
CN
1
0
3
㹋
㹋
㹋
12
OF
F
ON
SW
8
0
0
12
OF
F
ON
SW
8
0
0
12
OF
F
ON
SW
8
0
0
12
OF
F
ON
SW
8
0
0
Mg-
C
T
T
1
Coi
l
RE
D
WH
I
W
BLK
V
U
RE
D
WH
I
W
BLK
V
U
RE
D
WH
I
W
BLK
V
U
3
YE
L
3
4
4
CN8
0
2
(W
H
I)
2
3
4
5
CN8
0
3
(W
H
I)
2
3
4
5
F0
1
(R
ED
)
CN
0
1
12
CN
0
2
(W
H
I)
12
12
3
CN1
0
0
(YEL
)
12
3
CN
1
0
1
(Y
E
L
)
CN3
0
1
(W
H
I)
1
(BL
K)
(BL
K)
t°
t°
5
2
3
4
5
2
3
4
1
2
(O
R
N
)
4WV1
CN
3
1
7
3
1
t°
t°
t°
t°
t°
t°
CN
0
1
CN
0
2
CN0
3
F0
1
F0
2
PS
PD
63
H
1
P>
63
H
2
P>
1
T
21
L
1
Mg
-C
T
T
1
5L
3
2
T
42
L
3
6T
3
1
T
21
L
1
5L
3
2
T
42
L
3
6T
3
+
-
+
-
MC
C
-1
7
48
CN
0
1
U
C
N04
CN
0
3
CN
0
2
CN
10
3
(WH
I)
-
+
CN
1
0
2
(W
H
I)
(W
H
I)
CN
1
0
1
23
45
6
CN
2
1
CN
2
2
CN
2
3
CN
1
1
CN
1
2
CN
1
3
CN
1
5
CN
14
F01
F02
F03
CN
0
5
CN
2
4
TOI
ND
OO
R
UNIT
TOCE
NT
RA
L
CON
TR
OL
LER
CN30
4
(RE
D)
CN33
1
(WHI)
CN33
2
(BL
U)
CN33
5
(GR
Y)
CN20
0
(YE
L)
UU
U
SW
1
0
1
SW
1
0
4
4
4
SW
1
0
0
23
ON
OF
F
1
1
23
1
2
1
23
4
SW
1
0
3
1
2
34
SW
1
0
2
2
34
SW
1
0
5
1
1
2
OF
F
ON
OF
F
ON
OF
F
ON
OF
F
ON
OF
F
ON
OF
F
ON
SW
1
0
6
U
C
o
m
p
re
s
s
or
t
e
rmi
n
al
S
R
T
W
(B
L
K
)
V
(W
HI
)
U
(R
E
D
)
YE
L
B
L
U
YE
L
BL
U
50H
z
60H
z
POWE
R S
UP
PL
Y
HT8* 380-415V 3N
HT7* 380V 3N
16,18,20
22.24HP
16,18,20
22.24HP
22,24HP
8-20HP
SW800
12
ON
OFF
16,18,20
22.24HP
22,24HP
22,24HP
24HP
