CARLO GAVAZZI EM330 Instrucciones De Instalacion Y Uso página 4

Ocultar thumbs Ver también para EM330:
Tabla de contenido
Idiomas disponibles
  • ES

Idiomas disponibles

  • ESPAÑOL, página 61
11
11
T
T
13
13
B+
B+
12
12
A-
A-
GND
14
GND
14
Fig. 12
Connection diagram (Fig. 3–Fig. 13)
Figure
Three-phase system current, 4-wire, unbalanced load and three current transformers (TA). 315 mA fuse
Fig. 3
(F).
Three-phase system current, 4- wire, unbalanced load, three current transformers (TA) and three
Fig. 4
voltage transformers (TV)
Three-phase system current, 3-wire, unbalanced load and three current transformers (TA). 315 mA fuse
Fig. 5
(F).
Three-phase system current, 3-wire, unbalanced load, three current transformers (TA) and two voltage
Fig. 6
transformers (TV)
Two-phase system current, 3-wire and two current transformers (TA). 315 mA fuse (F).
Fig. 7
Fig. 8
Two-phase system current, 3-wire, two current transformers (TA) and two voltage transformers (TV)
Auxiliary power supply
Fig. 9
Digital input. Open contact = tariff 1, closed contact = tariff 2.
Fig. 10
Pulse output (two possible connections)
VDC: external voltage (direct current)
Out: output contact (transistor PNP open collector)
Fig. 11
GND: ground output contact (transistor PNP open collector)
Open collector outputs: the load resistance (Rc) must be designed so that the closed contact current is
under 100 mA (V
RS485 Modbus with Master
Note: additional instruments with RS485 are connected in parallel. The serial output must only be
Fig. 12
terminated on the last network device connecting terminals B+ and T. For connections longer than
1000 m or networks with more than 160 instruments, use a signal repeater.
Fig. 13
M-Bus with Master
8021422 | EM330
Modbus
Master
B+
A-
GND
is equal to 1 V dc). DC voltage (V
on
11
PC
12
M+ M-
Fig. 13
Description
) must be less than or equal to 80 V.
off
M-Bus
Master
11
12
©2014 | CARLO GAVAZZI Controls SpA| 4
PC
Tabla de contenido
loading

Este manual también es adecuado para:

Em330-din

Tabla de contenido