Daikin EWAP460MBYN [165/452] Wiring diagram ewwd120 280mbynn
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Daikin EWAP460MBYN [165/452] Wiring diagram ewwd120 280mbynn

Daikin EWTP340MBYN [165/452] Wiring diagram ewwd120 280mbynn
ESIE 05-07 Wiring Layout
Part 1 – System Outline 1–153
3.13 Wiring Diagram: EWWD120~280MBYNN
Diagram
EXAMPLE:
Configurable switches for remote function
OBLIGATORY
(11) input terminals for fieldwiring
NOTES TO GO THROUGH BEFORE STARTING THE UNIT :
76
78
S6S S10S
Changeable Input 2
(ex. dual setpoint)
Changeable Input 1
(ex. remote start/stop)
(12) output terminals for fieldwiring
Maximum output current: Resistive: 2A, Inductive: 2A/Cos Phi 0,4
EXAMPLE
76 76
H3P
H2P
80
H5P
87
H1P
73
H4P
85 86
operation C1
alarm
72 81 88
contactor-
coil ev.
waterpump
Changeable DO2
(ex. 2nd evaporator pump)
pumpcontact (= general operation; without OP DICN)
76
Changeable Input 4
(ex. enable/disable cap. lim. 2)
Changeable Input 3
(ex. enable/disable cap. lim. 1)
79
3
S11S S12S
24VAC
OR
230VAC
24VAC
OR
230VAC
24VAC
OR
230VAC
24VAC
OR
230VAC
24VAC
OR
230VAC
0
to
1VDC
1
74
*
71 Front view of unit
S13S
F2U
Power Supply
3~50Hz 400V
F1U
L1
L1
F3U
L2 L3
PE
L3L2
PE
246
OP52Std
135
110
10
171
5
6
W
W
X
3
M
Z
K1M
K17S
2
U
U
4
V
V
1
2
1
3
4
3
M1C
Y
K2M
6
5
6
5
1
2
3
4
F1R
R1P
L1
K3M
3
4
1
2
5
6
172
L2
173
L3
E1HC
8
8
22
K1M
21
15
5
F7B
230VAC
400V
5
11
10
1
TR1
32
5
10A
S5E
12
15
11
5
9
3
31
60
155
156
L9
L9
15
60
POWER
U3
N4
V1F
Line
Load
U1
L2
F8B
SUPPLY
107
J1-GO
68
105
A1P
F8U
J1-G
69
106
F9B
61
5
2
32
24VAC
10
34
1
TR2
24VAC
OP57
12
V1
F6B
101
102
33
230VAC
31
111
(13)
OPTIONAL:
(14)
OP52 = main isolator switch
- recommended fuses gL/gG (aM also admitted)
according to IEC standard 269-2
(F1U,F2U,F3U = gL/gG)
Connections inside the
compressorswitchbox
(15)
COMPONENT
TERMINAL IN
COMPRESSOR-
SWITCHBOX 1
A1P
DIPSWITCH
ADDRESS = 2
Connection between PCB and remote user terminal
position of jumpers and dipswitches
In a DICN system only valid for the master unit.
For the slave units see the installation manual.
A2P
(16)
WIRENUMBER IN CABLE
BETWEEN COMPRESSOR
SWITCHBOX 1
AND MAIN SWITCHBOX
USERTERMINAL
REMOTE
SW
231
ON
SW
12 453
OFF
6
ADDRESS = 3
DIPSWITCH
ADDRESS = 1
DIPSWITCH
SW
12 453
OFF
6
ON
-
C-10
-
C-10
-
F-11
1114
K3A
12
14
12
11
K1A
K2A
14 11
654
OFF
ON
G-15
-
-
F-9
D-3
D-3
D-3
G-7
H-12
3231
51
63
43 44
64
52
1
5
13
3
21
6
14
4
2
22
K1M
K17S
R1P
B-10
-
12
14
D-10
B-11
98
95
11
97
96
31
43
D-5
D-5
D-5
I-11
I-11
5
13
3
1
21
32
44
6
14
4
2
22
D-5
D-5
D-5
I-11
H-11
K2M
5
13
3
1
21
6
14
4
2
22
K3M
1
21
J5-ID8
J12-NO2
10
K2A
6
A2
A1
6
5
Q1M
K3M
28
21
A1
A2
27
K2M
22
K2M
33
21
A1
A2
K3M
22
32
J12-C1
J12-NO1
A1P
DO
63
K17S
K1A
A2
127
A2P
A1
NO
C
DO
62
J5-ID5
J5-ID4
J5-IDC1
DI
A1P
J5-ID2
J5-ID1
J5-ID6
62
126
124 120122
S14PH
63
63
P>
5
K1A
A2
A1
126
77
J5-ID7
J5-IDC1
60
11
95
K3A
12
96
125
14
12
K2A
121
14
123
11
2
4
12
R1P
64
11
64
14
J5-ID3
A1P
DI
75
78
DO
10
A1
A2
14
K1M
13
K2M
Y15S
39
K3M
13
14
13
14
K1M
J12-C1
24
39
Y16S
39
10
7
A2
A1
K3A
S3T
7
5
K1A
A1P
J12-NO3
14
23
15
11
J7-ID10
J7-IDC9
79
J7-ID9 J7-ID11
DI
85
A1P
86
5
Changeable
Input 1
Changeable
Input 2
Changeable
Input 3
Changeable
Input 4
61
22
1A
S5E
S1PH
P>
2
1
61
84
4
583
77
98
97
K17S
76
78
76
79
7676
85 86
J18-NO13
J15-NO8
J17-NO12
J14-NO7
1
1
72
72 74
74
81
81
88
88
J14-C7
A1P
J17-C12
DO
3
DO
A1P
3
71
71
+t°
R5T
J15-C8
DO
A1P
73
73
80
43
44
K1M
80
J18-C13
DO
A1P
87
87
+t°
R3T
+t°
R4T
AI
J6-B6
A1P
J6-GND
AI
J3-B4
J3-BC4
J3-B5
A1P
J3-BC5
-
L-11
Tx-
GND
Tx+
VG0
GND
VG1
TX+
TX-
A2P
J11
TX+
TX-
156155
A1P
E8
E8
G
POWER
SUPPLY
A2P
G0
4-20mA
3
WHT
1
2
B3P
B3=Signal
1
3
Y1E
R9T
+t°
K2M
44
43
B1
NTC
153
AVSS
ID
154
V3C
n=2
AVSS
A2P
V2C
n=2
2
4
BRN
Vb-
Power Supply
backup EEVDr
Vb+
+VDC=24V
5T+ 5T- 3T+ 3T- 4T+ 4T-
3x224gL
F1U,F2U,F3U
F9B
K17S
F6B
F7B
F8U
F1R
2*1A T2*1A T
44 70
3x100gL
2A aM
2*4A
2A
3*1A
2A
2*4A
2A aM
3x160gL
3*1A
2*1A T2*1A T
115110
3x224gL
2*4A
2A aM
2A
2*4A
2A aM
2A
3*1A 3*1A
FUSES +
OVERCURRENT
F15U
-- -- 2A 2A
60
1
3
4
2
4-20mA
B2P
3
BRN
2
2
1
3
1
R8T
+t°
4-20mA
WHT
B1P
2P-
2P+
1P+
WHT
1P- 8T+
EKCLWS: only for DICN
and on master unit
8T-
J2-B3
AI
J2-B1
J2 +VDC
J2-B2
A1P
J2-GND
Changeable DO1
(ex. condensor pump)
M
F8B
---- 2A2A
K7A
A2
A1
K7A
12
11
1114
-
B-9
12
K7A
J13-NO4
10
Y11S
12
35
35
J13-C4
J4-Y2J4-Y1J4-VG0
J4-VG
A2-
A1+
TCO1
A2-
A1+
TCO2
140
141
DO
A0
61
A1P
A1P
M
M1S
36
36
37
37
38
38
TCO1
T1
T1
TCO2
L1
L1
64
K1M
63
22
A1P
J6-GND
J6-B7
AI
R1F-
R1F+
J2-Vdc
R1
R1F
for EWWD180..280:BLK
WHT
S8L
>
75
61
N
J
S3T
E1HC
L
M
K
ORG
YLW
BLU
M
M1S
H
I
3
2
Y11S
---
A
E
Q1M
---
11
12
13
8
7
10
10
5
1
36
38
37
6
9
4
5
10
35
8
5
J
ORG
YLW
BLU
M
M1S
H
I
2
3
1
36
38
37
pumpcontact
77
S9L
75
>
lL
204 203
kK
11
12
OP57 A1
for EWWD120:RED
R
.
.
152
8T+
8T-
Changeable AI1
(ex. Setp. signal 0-1V)
+
GND
M1C
11
2
2
Only for EWWD120..180 Models
Only for EWWD240..280 Models
Only for EWWD240..280 Models
Only for EWWD120..180 Models
Only for EWWD240..280 Models
Only for EWWD240..280 Models
User terminal
and
Emergency stop
15
For EWWD 120 Only
1
For EWWD 180..280 Only
1
OP57 = A-meter, V-meter
W 240 W 280W 180W 120
X4A2
= not mounted in switchbox(7)
= option(6)
(5) = Field supply
U - Z : main terminals in compressor switchbox
A - N : other terminals in compressor switchbox
71 -88 : terminal on field rail
L1,L2,L3 : main terminals
1 - 70 : terminals on main rail
= terminal number 15(4)
15
(1)
(3)
15
= wire number 15
(2) = earth wiring
(8) = PCB
F1(9) = connection continues on field 'F1'
1
(10) = several wiring possibilities

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