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 EL9515 power supply terminal takes the input voltage (24 V DC) and uses it to generate an output voltage of 15 V DC at 0.5 A, which can be tapped at the terminal.
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.
The EL9187 potential distribution terminal provides 8 terminal points with the 0 V potential at the front on the terminal contacts. The 0 V power contact is connected to the front-side terminal contacts and is passed through to the adjacent terminal.
The KL1002 digital input terminal acquires the binary 24 V DC control signals from the process level and transmits them, in an electrically isolated form, to the higher-level automation unit. The Bus Terminal contains two channels that indicate their signal state by means of light emitting diodes.
The KL1154 digital input terminal acquires the binary 24 V DC control signals from the process level and transmits them, in an electrically isolated form, to the higher-level automation unit. The Bus Terminal contains four channels that indicate its signal state by means of light emitting diodes.