EL2212
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2-channel digital output terminal 24…72 V DC with overexcitation, multi-timestamp
Information | |
About product | The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to protect the load. The switch-off process is also accelerated considerably by the pole reversal of the voltage. Both channels can be activated independently of each other.The EL2212 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. With multi-timestamping as many events can be read per channel in each EtherCAT cycle, as were pre-loaded in the internal buffer. The EL2212 supports particularly fast switching of inductive loads, such as valves or relays. 24…72 V supplies are connected to the power contacts and passed through to the load when switched on. After an adjustable waiting period the terminal begins to control the current channel-wise in order to |
I/O attributes | |
Bus type | E-bus |
I/O type | DO |
Signal Type | 24 V DC |
Number of channels | 2 |
Special features / functions | Outputs connectable in high-resistance mode |
DC, XFC, Oversampling | DC, multi-timestamping |
Intrinsically safe (Ex i) | No |
Safety (Sil3 / Cat. 4, PL e, SC) | No |
Temperature range | 0…+55 °C |
Connection technology | 4-wire |
IP class | IP20 |