4. Electrical Wiring Diagram
4.1 Supply Voltage Input Connection of the Device
Power Supply Connection
a
L
N
7
8
(-)
EXTERNAL
FUSE
(1A T)
Supply Voltage
V ±
230V
( %15) 50/60Hz ,
V
115V
(
±
%15) 50/60Hz,
V ±
24V
( %15) 50/60Hz ,
W ±
24V
( %15) 50/60Hz ,
Z
10..30 V
- 1.5 W
Must be determined in order.
Note-1 : External fuse is recommended.
4.2 Device Label and Connection Diagram
230VV CONNECTION DIAGRAM
230VV
16(8)A@250VV
5A@250VV
1HP COMP.
ALARM
c
Make sure that the power supply voltage is the same
indicated on the instrument.
Switch on the power supply only after that all the electrical
connections have been completed.
Supply voltage range must be determined in order. While
(+)
installing the unit, supply voltage range must be controlled
and appropriate supply voltage must be applied to the unit.
c
Supply
There is no power supply switch on the device. So a power
Switch
supply switch must be added to the supply voltage input.
c
Power switch must be two poled for seperating phase and
neutral, On/Off condition of power supply switch is very
important in electrical connection.
External fuse that on Vpower supply inputs must be on
phase connection.
External fuse that on Zpower supply inputs must be on (+)
connection.
INPUT SCALE
(-50°C, 150°C; -58°F,302°F)
16(8)A@250VV
5A@250VV
1HP COMP.
ALARM
16A T Fuse
5A T Fuse
Temperature Sensor
TC, NTC, PTC, PT-100
or PT-1000
Supply Voltage Input
V ±
230V
( %15) 50/60Hz
V ±
115V
( %15) 50/60Hz
V ±
24V
( %15) 50/60Hz
W ±
24V
( %15) 50/60Hz
Z
10...30 V
Must be determined in order.
Process and Alarm
Relay Outputs
230VV
230VV
Input
6