62
3.6 DIP switch configuration
Use the DIP switches to configure the Modbus device address (SW 1) and the RS–485
serial settings (SW 2). The photo shows the factory default settings.
SW1 – The following table specifies the binary coding of the Modbus device address
via DIP switches. The factory default slave address is 1 (i.e. SW 1.1 in the ‘on’ position
and SW 1.2 to SW 1.8 in the ‘off’ position). As an example the DIP switch coding for
Modbus address 175 is shown (10101111 in binary).
SW 1.1 SW 1.2 SW 1.3 SW 1.4 SW 1.5 SW 1.6 SW 1.7 SW 1.8
Weight
2
0
(LSB)
2
1
2
2
2
3
2
4
2
5
2
6
2
7
(MSB)
Address
increment
1
2
4
8
16
32
64
128
Example address 175
ON
ON
ON
ON
OFF
ON
OFF
ON
Summary of Contents for Transclinic 14i+
Page 2: ......
Page 74: ...74 2 2 1...
Page 75: ...75 2 2 ISO 7000 0434B X1 X4 X2...
Page 76: ...76 X1 X4 X1 X4 X2 15 2 3 Transclinic DC 2 PV Modbus RTU SCADA PLC RS485 0 P DC 0 PV...
Page 79: ...79 3 DIP 5 40 80 31 50 40 PV 1 kV...
Page 82: ...82 3 2 PV PV X1 X4 X2 2 X1 X4 PV PV X2 PV PV PV PCS DC PV IEC 60947 DC 21B PCS...
Page 83: ...83 PV Transclinic X1 X4 X2...
Page 86: ...86 PV PV X2 PV X2 2 1 PV X1 X4 3 3 X3 PV 0 0 Vdc 1 24 Vdc 2 X3 Transclinic 24 Vdc X3...
Page 87: ...87 X3 0 2 2 5 mm2 0 2 4 mm2 7 mm 0 4 0 5 Nm 0 6 3 5 mm Transclinic X3 EMC 3m...
Page 89: ...89 Transclinic 2 5 Adc DC DC X6 EMC 3m...
Page 100: ...100 5 OFF Transclinic OFF OFF 15 5 40 31 80 40 50 PV 2 1 X1 X4 X2 DIN RS 485...
Page 101: ...101...
Page 103: ...103 LVD 2006 95 EC EMC 2004 108 EC CE WEEE 012 19 EU WEEE...
Page 105: ...105...
Page 110: ......