The Terminal enables within an EtherCAT Terminal network the integration of any DeviceNet devices and can either be master (EL6752) or slave (EL6752-0010).
The EL6851 EtherCAT Terminal is a DMX master terminal and enables connection of up to 32 devices without repeater. The DMX master terminal can send up to 512 bytes of data (this can be set via the terminal). At 250 kbit/s a maximum data rate of 44 kHz is therefore possible. The RS485 interface in the EL6851 is electrically isolated and guarantees high interference immunity.
The EL9210 potential feed terminal with fuse and diagnostics enables the setup of different potential groups with a fused standard voltage of 24 V DC. The supply voltage is taken up via the front terminal contacts, fused and passed through to the adjacent terminals via the internal power contacts. The fuse is a 6.3 A fuse, which can be replaced at the front.
The EL9505 power supply terminal takes the input voltage (24 V DC) and uses it to generate an output voltage of 5 V DC at 0.5 A, which can be tapped at the terminal.
The EL9508 power supply terminal takes the input voltage (24 V DC) and uses it to generate an output voltage of 8 V DC at 0.5 A, which can be tapped at the terminal.
The EL9510 power supply terminal takes the input voltage (24 V DC) and uses it to generate an output voltage of 10 V DC at 0.5 A, which can be tapped at the terminal.
The EL9512 power supply unit terminal generates an output voltage of 12 V DC from the 24 V DC input voltage. The output voltage can be accessed at the terminal.
The EL9540 system terminal contains an overvoltage filter for the 24 V field supply. The filter protects the EtherCAT Terminal from line-bound surge voltages that can occur due to high-energy, dynamic disturbances such as switching overvoltages at inductive consumers or indirect lightning strikes at the supply lines.
The EL9550 system terminal contains an overvoltage filter for the 24 V field and system supply. The filter protects the EtherCAT Terminal from line-bound surge voltages that can occur due to high-energy, dynamic disturbances such as switching overvoltages at inductive consumers or indirect lightning strikes at the supply lines.