Blower
Relay (RL26)
230 Vrms
MOT_
FWRW
Motor revolution direction
Relay (RL12)
- - - -
√
STBY
neutral cut off
Relay (RL1 )
- - - -
DCO_1
13 Vdc auxiliary output - 13 Vdc 500 mA - 1
√
TRIAC
Motor triac control
Relay (RL13)
230Vrms 8 A F 5
√
SR_1
Brahma Circuit
Relay (RL25)
(Dry Contact)
- - - -
√
SR_2
Relay (RL24)
(Dry Contact)
- - - -
√
- - -
REF.
DESCRIP-
TION
SUPPLIER I V F P Q S PF
L
@
R
@
Z
@
DCR X/R
θ
A
Contactor
VE1095A0 /
GE– CL01A400T
30
mA
230 V ~
50 Hz
2 W 6 Var 6.5 Va 0.31 13 H
2 kΩ 9.4 kΩ 770 Ω
4.42
77.2°
B
Solenoid
valve
VE1135A0 /
RPE – SERIES R
30
mA
230 V ~
50 Hz
4.7 W 4.5 Var 6.5 Va
0.72
9 H
4.7 kΩ 7.4 kΩ 4.3 kΩ
1.19 50°
C Pump
VL1038A0 /
A.R.S. – MPP1
185
mA
140 V ~
50 Hz
21 W 30 Var 36 Va
0.58
1.75 H 660 Ω 1.3 kΩ 580 Ω
1.66 59°
E Fan
VN1162A0 /
SUNON –
DP200A
130
mA
230 V ~
50 Hz
21
W
19 Var 28 Va
0.75
3.4 H 1.1 kΩ
1.6 k
626 Ω
1.11 48.1°
F Motor
MT1012A0 /
SISME
1.62 240V
60 Hz 388W 30.5 kΩ
G
DRY.Maxi
solenoid
VE1135-VE1140-
VE1014
RPE SERIES R
230V 50 Hz 8VA
LEGEND
I Load current consumption
V Voltage applied to the load
F Frequency
P Load active power
Q Load reactive power
S Load apparent power
PF Power Factor (PF=P/S)
@ 100Hz measured inductance
@ 100Hz measured resistance
@ 100Hz measured impedance
DCR Measured resistance in DC
X/R Q=|X/R| (X=reactance, R=resistance)
θ
Angle between real axis and the impedance vector
BLW
√
Brahma Circuit
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