Esquema: Esquema eléctrico
Esquema eléctrico
Ilustración
En esta ilustración se muestra la conexión estándar de la unidad.
LED LAMP
KEYBOARD
OK
J19 (RUN/FAIL)
J10 (HEAT 1/2)
230V
RAIL
L1L2 L3 N PE
Mains
230V
Fig. 9
J1 (DIODE)
J17 (TEMP.)
1
RGB RE
EVAP.1
2
RGB GR
GND
3
RGB BU
EVAP.2
4
GND
GND
COND.
J29 (ANT.)
GND
1 GND
RESERV
2 ANT.
GND
J34 (GND)
J27 (RH)
1
GND
+5V
GND
J25 (KEYB.)
SDA
1
3.3V
SCK
2
PG2
3
PG3
J3 (EEV)
4
PG4
+12V
5
N.C.
COIL 4
COIL 3
J28 (USB)
COIL 2
1
VCC 5V
COIL 1
2
D-
3
D+
J2 (EEV)
4
GND
+12V
+12V
J4 (RS485)
COIL 4
1
RS485_A
COIL 3
2
N.C.
COIL 2
3
N.C.
COIL 1
4
RS485_B
MAIN
5
N.C.
CONTROLLER
J36 (CAP 1)
6
N.C.
BOARD
230V N
7
N.C.
8
GND
J35 (FAN 1)
J22 (RH/T)
INT. FAN
1
+V
230V N
2
TH (GND)
N.C.
3
TH
4
GND
5
RH
J5 (CAP 2)
230V N
1
RUN
2
RUN
J37 (FAN 2)
3
FAIL
INT. FAN
4
FAIL
230V N
N.C.
1
1: +
2
1: GND
J39 (CAP 3)
3
2: +
230V N
4
2: GND
J8 (230V)
J38 (FAN 3)
1
MAINS N
INT. FAN
2
MAINS L
230V N
3
COMP. N
N.C.
4
COMP. L
5
EX.FAN N
6
EX.FAN L
7
VALVE N
8
VALVE L
Resistance coversion
Temp. °C
Kohm
TEMP.
5
6,96
SENSOR
10
5,44
(EVAPO.)
15
4,29
20
3,40
t
25
2,72
30
2,19
35
1,77
TEMP.
SENSOR
1
(COND.)
2
3
t
4
5
6
7
8
1
2
3
4
1
rH%
2
3
4
HUMIDITY
5
SENSOR
1
CAPACITOR
2
3
4
5
6
1
2
1
2
3
4
1
FAN
2
1
2
3
4
1
2
SOLENOID
VALVE
1
2
3
4
COMPRESSOR
29