General Overview
Samsung Electronics
15
14
Samsung Electronics
2-5 Product Specifications
2-5-1 Outdoor Unit
Ty
p
e
EH
S
TD
M
P
LU
S(O
U
TD
O
O
R
U
N
IT
)
EH
S T
D
M PL
US(
O
U
TD
O
O
R U
N
IT
)
EH
S T
D
M PL
US(
O
U
TD
O
O
R U
N
IT
)
EH
S T
D
M PL
US(
O
U
TD
O
O
R U
N
IT
)
EH
S T
D
M PL
US(
O
U
TD
O
O
R U
N
IT
)
EH
S T
D
M PL
US(
O
U
TD
O
O
R U
N
IT
)
EH
S T
D
M PL
US(
O
U
TD
O
O
R U
N
IT
)
EH
S T
D
M PL
US(
O
U
TD
O
O
R U
N
IT
)
Model
Na
me
AE
0
4
4
M
X
TPE
H/
EU
AE
0
6
6
M
X
TPE
H/
EU
AE
0
9
0
M
X
TPE
H/
EU
AE
0
9
0
M
X
TP
G
H/
EU
AE
12
0
M
X
TPE
H/
EU
AE
12
0
M
X
TP
G
H/
EU
AE
16
0
M
X
TPE
H/
EU
AE
16
0
M
X
TP
G
H/
EU
Sy
st
em
M
o
d
e
-
H
ea
t P
u
m
p
(A
2W
)
H
ea
t Pu
m
p
(A
2W
)
H
ea
t Pu
m
p
(A
2W
)
H
ea
t Pu
m
p
(A
2W
)
H
ea
t Pu
m
p
(A
2W
)
H
ea
t Pu
m
p
(A
2W
)
H
ea
t Pu
m
p
(A
2W
)
H
ea
t Pu
m
p
(A
2W
)
A2
W
C
ondit
ion
#
1.
(A7
/W
35
) *1
Capac
it
y
H
eating
W
4,
400
6
,6
00
9,
000
9,
000
12
,000
12
,000
16
,000
16
,000
Bt
u
/h
15
,000
2
2,
50
0
30
,7
00
30
,7
00
40
,9
00
40
,9
00
54
,6
00
54
,6
00
Co
o
lin
g
W
5,
100
6,
70
0
8,
000
8,
000
12
,000
1
2,
000
1
4,5
00
14
,5
00
Bt
u
/h
17
,400
2
2,
90
0
27
,3
00
27
,3
00
40
,9
00
40
,9
00
49
,5
00
49
,5
00
Po
w
er I
n
p
ut
H
eating
W
93
0 1
,4
70
2,
12
0
2,
12
0
2,
720
2,
720
3,
950
3,
950
Co
o
lin
g
1,
03
0 1
,4
80
1,
850
1,
86
0
2,
90
0
2,
90
0
3,
84
0
3,
84
0
CO
P (
H
eating
)
W
/W
4.
73
4.4
9
4.
25
4.
25
4.4
1
4.4
1
4.0
5
4.0
5
EE
R (
C
ool
in
g)
W
/W
4.
95
4.
53
4.
32
4.
30
4.
14
4.
14
3.
78
3.
78
A2
W
C
ondit
ion
#
2.
(A7
/W
35
) *2
Capac
it
y
He
at
in
g
W
4,
000
6
,1
00
8,
000
8,
30
0
11
,2
00
11
,2
00
15
,000
15
,000
Bt
u
/h
13
,6
00
2
0,8
00
27
,3
00
28
,3
00
38
,2
00
38
,2
00
51
,2
00
51
,2
00
Co
o
lin
g
W
3,
50
0 4
,50
0
5,
60
0
5,7
00
8,
60
0
8,
60
0
10
,3
00
10
,3
00
Bt
u
/h
11
,9
00
1
5,
400
19
,1
00
19
,4
00
29
,3
00
29
,3
00
35
,1
00
35
,1
00
Po
w
er I
n
p
ut
He
at
in
g
W
1,
16
0 1
,83
0
2,
38
0
2,
50
0
3,
30
0
3,
30
0
4,
71
0
4,
71
0
C
o
o
ling
1,
030
1
,4
20
1,
79
0
1,
75
0
2,
79
0
2,
79
0
3,
59
0
3,
59
0
CO
P H
eatin
g
W
/W
3.
45
3.
33
3.
36
3.
32
3.
39
3.
39
3.
18
3.
18
EE
R
C
o
o
lin
g
W
/W
3.
40
3.
17
3.
13
3.
26
3.
08
3.
08
2.
87
2.
87
A2/
W
35
*3
C
ap
ac
ity
H
ea
ti
n
g
W
4,
000
5,
80
0
7,
70
0
7,
70
0
11
,000
11
,000
13
,7
00
13
,7
00
CO
P
W
/W
3.
54
3.
31
3.
47
3.
47
3.
41
3.
41
3.
19
3.
19
A-
7/
W3
5
*3
C
ap
ac
it
y
H
ea
ti
n
g
W
3,
90
0 5
,7
00
7
,400
7,
400
10
,6
00
10
,6
00
14
,000
14
,000
CO
P
W
/W
2.
81
2.
79
2.
79
2.
79
2.
97
2.
97
2.
73
2.
73
Fi
el
d
Wi
ri
n
g
MC
A
A
1
8
.0
2
0
.0
2
2
.0
1
0
.0
2
8
.0
1
0
.0
3
2
.0
12
.0
MF
A
A
25
.0
25
.0
2
7.
5
1
6
.1
3
5
.0
1
6
.1
4
0
.0
16
.1
W
at
er
C
on
n
ec
ti
on
s
W
at
er
F
lo
w
Ra
te
Min/
St
d
/Ma
x
LP
M
7.
0/
12
.7
/4
2.0
7.0
/1
9.
0/
42
.0
7.
0/
26
.0
/4
2.0
7.0
/2
6.0
/4
2.0
12
.0
/34.6
/5
8.0
12
.0
/34.6
/5
8.0
12.0
/4
6.
2/
58.0
12.0
/4
6.
2/
58.0
Refrigera
nt
Pi
p
in
g
C
onn
ec
tio
ns
Li
q
u
id
p
ip
e
Φ
, m
m
(i
n
ch
)
9.
52
(3
/8)
9.
52 (
3/8)
9.
52 (
3/8)
9.
52 (
3/8)
9.
52 (
3/8)
9.
52
(3
/8)
9.
52 (
3/8)
9.
52 (
3/8)
G
as
p
ip
e(
A
2W
)
Φ
, m
m
(i
n
ch
)
15
.8
8 (
5/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
G
as
pip
e(
A
2A
)
Φ
, m
m
(i
n
ch
)
15
.8
8 (
5/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
15.
88
(5
/8)
Pi
pi
ng
lengt
h
(O
DU
-IDU
)
M
ax
.[E
quiv
.]
m
30
30
30
30
70
70
70
70
Le
ve
l dif
ferenc
e
(IDU
-IDU
)
M
ax
.
m
20
202
02
03
03
0
30
30
C
h
ar
g
el
es
s L
en
g
th
m
10
10
10
10
10
10
10
10
Ty
p
e
-
R41
0A
R4
10
A
R41
0A
R4
10
A
R41
0A
R4
10
A
R41
0A
R4
10
A
Fa
ct
or
y
Charging
kg
2.
6
2.
6
2.
4
2.
4 3.
5 3.
5 3.
5
3.
5
C
on
tr
o
l M
et
h
o
d
-
EEV
EE
V
EEV
EE
V
EEV
EE
V
EEV
EE
V
Ou
td
oo
r U
n
it
Po
w
er
S
up
p
ly
Φ
, #
, V
, H
z
1,
2,
22
0-
24
0,
50
1,
2,
22
0
-2
40
,5
0
1,
2,
22
0
-2
40
,5
0
3,
4,
38
0
-4
15
,5
0
1,
2,
22
0
-2
40
,5
0
3,
4,
38
0
-4
15
,5
0
1,
2,
22
0
-2
40
,5
0
3,
4,
38
0-4
15
,5
0
C
om
p
re
ss
or
Ty
p
e
-
Rot
ar
y C
o
mp
Rot
ar
y C
o
mp
Rot
ar
y C
o
mp
Rot
ar
y C
o
mp
Rotar
y C
o
mp
Rotar
y C
o
mp
Rotar
y C
o
mp
Rotar
y C
o
mp
Fa
n
Ty
pe
-
Pr
o
pe
lle
r F
an
Pr
o
pe
lle
r F
an
Pr
o
pe
lle
r F
an
Pr
o
pe
lle
r F
an
Pr
o
pe
lle
r F
an
Pr
o
pe
lle
r F
an
Pr
o
pe
lle
r F
an
Pr
o
pe
lle
r F
an
Discharge
dire
ct
ion
H
orizon
ta
l
H
orizon
ta
l
H
orizon
ta
l
H
or
izon
ta
l
H
orizon
ta
l
H
orizon
ta
l
H
orizon
ta
l
H
orizon
ta
l
A
ir Fl
ow
R
at
e
Ξσ
͠Ξ
ΚΟ
45
4
7
67
67
10
3
10
3
12
3
12
3
Q
uan
tit
y
ͶͲ
1
1 1 1 2 2 2
2
Sou
n
d
Sou
n
d P
res
su
re
H
eating
Εͳ
͙Ͳ
͚
47
4
8
51
51
52
52
55
55
Co
o
lin
g
Εͳ
͙Ͳ
͚
46
4
7
50
50
51
5
1
54
54
Sou
n
d P
ow
er
Εͳ
͙Ͳ
͚
65 6
7
69
69
70
70
73
73
Ex
te
rn
al
Di
men
sion
Net
W
ei
g
ht
ΜΘ
61
61
74
76
10
7
10
7
10
7
10
7
Ship
ping
W
eight
ΜΘ
64
.5
64
.5
82
84
11
5
11
5
11
5
11
5
Net
Dimen
sion
s (
W
xHxD
)
ΞΞ
88
0 x 7
93 x 3
10
88
0 x 7
93 x 3
10
94
0 x 9
98 x 3
30
94
0 x 9
98 x 3
30
94
0 x 1
,4
20 x 3
30
94
0 x 1
,4
20 x 3
30
94
0 x 1
,4
20 x 3
30
94
0 x 1
,4
20 x 3
30
Sh
ippi
ng
Di
men
sion
s (
W
xHxD
)
ΞΞ
1,
02
3 x 9
11 x 4
13
1,
02
3 x 9
11 x 4
13
995 x 1
,1
78 x 4
26
995 x 1
,1
78 x 4
26
995 x 1
,5
98 x 4
26
995 x 1
,5
98 x 4
26
995 x 1
,5
98 x 4
26
995 x 1
,5
98 x 4
26
O
p
er
ating
Te
mp
. Range
A2
W
H
eating
ఁ
-2
5~
35
-2
5~
35
-2
5~
35
-2
5~
35
-2
5~
35
-2
5~
35
-2
5~
35
-2
5~
35
Co
o
lin
g
ఁ
10
~
46
10
~
46
10
~
46
10
~
46
10
~
46
10
~
46
10
~
46
10
~
46
D.
H
ot
Wa
te
r
ఁ
-2
5~
43
-2
5~
43
-2
5~
43
-2
5~
43
-2
5~
43
-2
5~
43
-2
5~
43
-2
5~
43
A2
A
H
eating
ఁ
-2
5~
24
-2
5~
24
-2
5~
24
-2
5~
24
-2
5~
24
-2
5~
24
-2
5~
24
-2
5~
24
Co
o
lin
g
ఁ
10
~
46
10
~
46
10
~
46
10
~
46
10
~
46
10
~
46
10
~
46
10
~
46
NO
TE
* Sp
e
c
if
ic
ati
o
ns m
a
y b
e
su
bj
e
c
t to ch
a
n
g
e
w
ith
o
u
t p
ri
o
r n
o
ti
ce.
*1
) A
2
W Co
n
d
it
io
n #
1
: (H
e
a
ti
n
g
) W
a
te
r I
n
/O
u
t 30
ఁ
/3
5
ఁ
, O
u
td
o
o
r A
ir 7
ఁ͑
[D
B
]/
6
ఁ͑
[W
B
]; (
C
o
o
li
n
g
) W
a
te
r I
n
/O
u
t 23
ఁ
/1
8
ఁ
, O
u
td
o
o
r A
ir 3
5
ఁ͑
[D
B
].
*2
) A
2
W Co
n
d
it
io
n #
2
: (H
e
a
ti
n
g
) W
a
te
r I
n
/O
u
t 4
0
ఁ
/4
5
ఁ
, O
u
td
o
o
r A
ir 7
ఁ͑
[D
B
]/
6
ఁ͑
[W
B
]; (
C
o
o
li
n
g
) W
a
te
r I
n
/O
u
t 1
2
ఁ
/7
ఁ
, O
u
td
o
o
r A
ir 3
5
ఁ͑
[D
B
].
*3
) A
2
W Co
n
d
it
io
n : (A
2
W
3
5
) W
a
te
r I
n
/O
u
t -/
3
5
ఁ
, O
u
td
o
o
r A
ir 2
ఁ͑
[D
B
]/
1
ఁ͑
[W
B
]; (A
-7
/W
3
5
) W
a
te
r I
n
/O
u
t -/
3
5
ఁ
, O
u
td
o
o
r A
ir -
7
ఁ͑
[D
B]
/-
(*
Pe
a
k
C
a
p
a
c
it
y
)
4
) S
e
le
c
t w
ir
e
si
ze
b
a
se
d o
n
th
e v
a
lu
e o
f M
C
A
5
) S
o
u
n
d p
re
ssu
re
l
e
ve
l is o
b
ta
in
e
d
i
n
a
n
a
n
e
c
h
o
ic
r
o
o
m
.
- S
o
u
n
d p
re
ssu
re
l
e
ve
l is a r
e
la
ti
ve v
a
lu
e, d
e
p
e
n
d
in
g o
n
th
e d
is
ta
n
ce a
n
d a
c
o
u
st
ic
e
n
v
ir
o
n
m
e
n
t.
- S
o
u
n
d p
re
ssu
re
l
e
ve
l m
a
y d
if
fe
r d
e
p
e
n
d
in
g o
n
o
p
e
rati
o
n co
n
d
it
io
n
.
- d
B
A = A
-we
ig
hte
d
s
o
u
n
d p
re
ssu
re
l
e
ve
l
- R
e
fe
re
n
ce a
c
o
u
st
ic
p
re
ssu
re
0 d
B
= 20
u
P
a
6
) S
o
u
n
d p
o
we
r l
e
ve
l is a
n
a
b
so
lu
te v
a
lu
e th
at a s
o
u
n
d s
o
u
rce g
e
n
e
ra
te
s.
- d
B
A = A
-we
ig
hte
d
s
o
u
n
d p
o
we
r l
e
ve
l
- R
e
fe
re
n
c
e p
o
we
r : 1
p
W
- M
e
asu
re
d
a
cco
rd
in
g
to IS
O 3
7
4
1
7
) T
h
e
se p
ro
d
u
c
ts
co
nt
a
in R
4
1
0
A (
G
W
P
=
2
,0
8
8
) w
h
ic
h is f
lu
o
ri
n
ate
d
g
re
e
n
h
o
u
se
g
a
s.