User manual

Master Components - Coupler for Remote-Master

Product Catalogue all information for reference only - technical changes reserved - rev. 9 Page 30 of 171

5.3.1.5 Status Indication

LED2 green:

Communication-Indicator ......... Every second transfer from the remote-master (i.e. TCP/IP,

CAN, RS485) to the string toggles the LED. Therefore fast

flashing is possible. The LED will also flash when TCP/IP is not

connected since it needs to keep the emBRICK

-Slaves alive.

LED1 orange:

Main status indicator ................ Permanent flashing with 1Hz = Unit works correct.

Flashing six times with 6 Hz = Remanent data was loaded cor-

rectly.

Flashing six times with approx. 6 Hz = Remanent data was-

stored successfully.

Permanent flashing with approx. 20 Hz = Remanent data

wasnot stored successfully.

LED3 yellow:

TCP/IP indicator ........................ Permanent flashing with 1 Hz = a connection to a TCP/IP Host

(Remote-Master) is established.

Permanent flashing with 6 Hz = no connection to a

TCP/IP-Host has been established.

5.3.1.6 Dip-Switch

The DIP-switch position determines a value 0..15 as: Sw1 + Sw2 x2 + Sw3 x4 + Sw4 x8

Usage during power on:

DIP switch value 0: .................... Standalone mode (no remote request execution) / CAN mode

DIP switch value 1: .................... TCP/IP with DHCP (actually not implemented)

DIP switch value 2: .................... determines TCP/IP mode with fixed IP-Adress 192.168.100.234

DIP switch value 3: .................... determines TCP/IP mode with fixed IP-Adress 192.168.0.234

DIP switch value 4 … 7: .............. unused

DIP switch value 8 ... 15 ............ determines:

for TCP/IP: the IP-Adresses (192.168.3.10 ... 17)

Usage during operation:

teach offline-preset memory ..... change switch value from 0 to 1 and switch back to the old

value => this stores the actual output state of the bus into the

offline-preset-memory area in the EEPROM.

5.3.1.7 Application Note

In addition to the hints in chapter 4, the following hints will be applied:

 The actual state of the IOs can be saved/teached in an EEPROM. When the LWCS looses

the connection to the remote-master (in LAN or WLAN) mode, it will set the IOs back to this

previously teached state from the EEPROM.