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中国区总部
Beckhoff Automation (Shanghai) Co., Ltd.

市北智汇园4号楼 静安区汶水路 299 弄 9-10 号
上海, 200072, 中国

+86 21 6631 2666
info@beckhoff.com.cn
www.beckhoff.com.cn

Sep 17, 2020

EtherCAT P: The one cable solution – One step closer to automation without control cabinets

EtherCAT P: The one cable solution – One step closer to automation without control cabinets

With EtherCAT P, Beckhoff combines communication and power in a single 4-wire standard Ethernet cable.

More about this video

EPP1004-0061 | EtherCAT P Box, 4-channel digital input, 24 V DC, 3 ms, M8

EPP1004-0061

The EPP1004-0061 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M8

EPP1008-0001

The EPP1008-0001 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M12

EPP1008-0002

The EPP1008-0002 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors.

EPP1008-0022 | EtherCAT P Box, 8-channel digital input, 24 V DC, 3 ms, M12

EPP1008-0022

The EPP1008-0022 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M8

EPP1018-0001

The EPP1018-0001 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M12

EPP1018-0002

The EPP1018-0002 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors.

M8

EPP1258-0001

The EPP1258-0001 EtherCAT P Box with digital inputs acquires fast binary control signals from the process level and transmits them, electrically isolated, to the controller. The signals 0 and 1 are furnished with a timestamp that shows the time of the last edge change with a resolution of 1 ns. With this technology, signal curves can be traced exactly in time and correlated with the distributed clocks system-wide. With this technology, machine-wide parallel hardware wiring of digital inputs or encoder signals for synchronization purposes is often no longer required. As a result, responses with equidistant time intervals, independent of the bus cycle time, are to a large extent possible.

M12

EPP1258-0002

The EPP1258-0002 EtherCAT P Box with digital inputs acquires fast binary control signals from the process level and transmits them, electrically isolated, to the controller. The signals 0 and 1 are furnished with a timestamp that shows the time of the last edge change with a resolution of 1 ns. With this technology, signal curves can be traced exactly in time and correlated with the distributed clocks system-wide. With this technology, machine-wide parallel hardware wiring of digital inputs or encoder signals for synchronization purposes is often no longer required. As a result, responses with equidistant time intervals, independent of the bus cycle time, are to a large extent possible.

EPP1518-0002 | EtherCAT P Box, 8-channel digital input, counter, 24 V DC, 1 kHz, M12

EPP1518-0002

The EPP1518-0002 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is indicated by LEDs; screw-type M12 connectors are used for the connection.

M8

EPP1809-0021

The EPP1809-0021 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M12

EPP1809-0022

The EPP1809-0022 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors.

EPP1816-0003 | EtherCAT P Box, 16-channel digital input, 24 V DC, 10 µs, IP 20 connector

EPP1816-0003

The EPP1816-0003 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is indicated by means of LEDs. The signal connection is established via spring-loaded connectors, optionally available in 1- and 3-pole versions. The module is supplied without connectors. Thanks to the compact plug level, the EPP1816-0003 can transfer 16 signals from the field via EtherCAT in a very small space. The sensors are supplied in a short-circuit proof manner from the control voltage US with 0.5 A. The load voltage UP is not used in the input module.

EPP1816-0008 | EtherCAT P Box, 16-channel digital input, 24 V DC, 10 µs, D-sub

EPP1816-0008

The EPP1816-0008 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is indicated by means of LEDs. The signal connection is established via a 25-pin D-sub connector. An IP-67 connector for connecting the inputs is available as an option. Thanks to the compact plug level, the EPP1816-0008 can transfer 16 signals from the field via EtherCAT in a very small space. The sensors are supplied in a short-circuit proof manner from the control voltage US with 0.5 A. The load voltage UP is not used in the input module.

EPP1816-3008 | EtherCAT P Box, 16-channel digital input, 24 V DC, 10 µs, D-sub, 2 x 3-axis accelerometers

EPP1816-3008

The EPP1816-3008 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is indicated by means of LEDs. The signal connection is established via a 25-pin D-sub connector. An IP-67 connector for connecting the inputs is available as an option. Thanks to the compact plug level, the EPP1816-3008 can transfer 16 signals from the field via EtherCAT in a very small space. The sensors are supplied in a short-circuit proof manner from the control voltage US with 0.5 A. The load voltage UP is not used in the input module.

M8

EPP1819-0021

The EPP1819-0021 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M12

EPP1819-0022

The EPP1819-0022 EtherCAT Box with digital inputs acquires binary control signals from the process level and transfers them, with electrical isolation, to the controller. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors.

M8

EPP2008-0001

The EPP2008-0001 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A. The signal state of the channels is indicated by LEDs. The signal connection is established via screw-type M8 connectors.

M12

EPP2008-0002

The EPP2008-0002 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A. The signal state of the channels is indicated by LEDs. The signal connection is established via screw-type M12 connectors. Two channels are available per M12 socket.

EPP2008-0022 | EtherCAT P Box, 8-channel digital output, 24 V DC, 0.5 A, M12

EPP2008-0022

The EPP2008-0022 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A. The signal state of the channels is indicated by LEDs. The signal connection is established via screw-type M12 connectors. One channel is available per M12 socket.

M8

EPP2028-0001

The EPP2028-0001 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 2.0 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A. The signal state of the channels is indicated by LEDs. The signal connection is established via screw-type M8 connectors.

M12

EPP2028-0002

The EPP2028-0002 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 2.0 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A. The signal state of the channels is indicated by LEDs. The signal connection is established via screw-type M12 connectors. Two channels are available per M12 socket.

M8

EPP2038-0001

The EPP2038-0001 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 2.0 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A.

M12

EPP2038-0002

The EPP2038-0002 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 2.0 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A.

M8

EPP2308-0001

The EPP2308-0001 EtherCAT Box combines four digital inputs (four M8 sockets at the top) and four digital outputs (four M8 sockets at the bottom) on one device. The inputs have a 3.0 ms filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M12

EPP2308-0002

The EPP2308-0002 EtherCAT Box combines four digital inputs (two M12 sockets at the top) and four digital outputs (two M12 sockets at the bottom) on one device. The inputs have a 3.0 ms filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors. Two channels are available per M12 socket. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The outputs are supplied via UP. All outputs are short-circuit proof and protected against inverse polarity.

EPP2316-0003 | EtherCAT P Box, 8-channel digital input + 8-channel digital output, 24 V DC, 10 µs, 0.5 A, IP20 connector

EPP2316-0003

The EPP2316-0003 EtherCAT Box combines eight digital inputs (upper female header) and eight digital outputs (lower female header) on one device. The inputs have a 10 µs filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal status is displayed via the optional connector. The signal connection is established via spring-loaded connectors, optionally available in 1- and 3-pole versions. The module is supplied without connectors.

EPP2316-0008 | EtherCAT P Box, 8-channel digital input + 8-channel digital output, 24 V DC, 10 µs, 0.5 A, D-sub

EPP2316-0008

The EPP2316-0008 EtherCAT Box combines eight digital inputs and eight digital outputs in one device. The inputs have a 10 µs filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal status is displayed via the optional plug connector; the signal connection is established via a 25-pin D-sub connector. An IP-67 connector for connecting the inputs is available as an option.

M8

EPP2318-0001

The EPP2318-0001 EtherCAT Box combines four digital inputs (four M8 sockets at the top) and four digital outputs (four M8 sockets at the bottom) on one device. The inputs have a 10 µs filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors.

M12

EPP2318-0002

The EPP2318-0002 EtherCAT Box combines four digital inputs (two M12 sockets at the top) and four digital outputs (two M12 sockets at the bottom) on one device. The inputs have a 10 µs filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors. Two channels are available per M12 socket. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The outputs are supplied via UP. All outputs are short-circuit proof and protected against inverse polarity.

M8

EPP2328-0001

The EPP2328-0001 EtherCAT Box combines four digital inputs (four M8 sockets at the top) and four digital outputs (four M8 sockets at the bottom) on one device. The inputs have a 3.0 ms filter. The outputs handle load currents of up to 2.0 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors. The sum current of all outputs is limited to 4 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The outputs are supplied via UP. All outputs are short-circuit proof and protected against inverse polarity.

M12

EPP2328-0002

The EPP2328-0002 EtherCAT Box combines four digital inputs (two M12 sockets at the top) and four digital outputs (two M12 sockets at the bottom) on one device. The inputs have a 3.0 ms filter. The outputs handle load currents of up to 2.0 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors. Two channels are available per M12 socket. The sum current of all outputs is limited to 4 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors.

EPP2334-0061 | EtherCAT P Box, 4-channel digital combi, 24 V DC, 10 µs, 0.5 A, M8

EPP2334-0061

The EPP2334-0061 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuitry is internally hard-wired to the output driver so that once an output is set it is automatically also displayed in the input process image. The inputs have a 10 µs filter. The outputs process load currents up to 0.5 A, are short-circuit proof and protected against inverse polarity. The sum current of all outputs is limited to 3 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The inputs and outputs are supplied via UP. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors. Thanks to its compact design and the number of signals, the EPP2334-0061 is particularly suitable for connecting distributed, decentralized sensors and actuators to EtherCAT P.

M8

EPP2338-0001

The EPP2338-0001 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image. The inputs have a 10 µs filter. The outputs process load currents up to 0.5 A, are short-circuit proof and protected against inverse polarity. The sum current of all outputs is limited to 3 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The inputs and outputs are supplied via UP. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M12

EPP2338-0002

The EPP2338-0002 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pins 2 and 4 of M12) is to be used as an input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image. The inputs have a 10 µs filter. The outputs process load currents up to 0.5 A, are short-circuit proof and protected against inverse polarity. The sum current of all outputs is limited to 3 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The inputs and outputs are supplied via UP. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors.

M8

EPP2338-1001

The EPP2338-1001 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image. The inputs have a 3.0 ms filter.

M12

EPP2338-1002

The EPP2338-1002 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pins 2 and 4 of M12) is to be used as an input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image. The inputs have a 3.0 ms filter.

EPP2339-0003 | EtherCAT P Box, 16-channel digital combi, 24 V DC, 3 ms, 0.5 A, IP 20 connector

EPP2339-0003

The EPP2339-0003 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image.

M8

EPP2339-0021

The EPP2339-0021 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image.

M12

EPP2339-0022

The EPP2339-0022 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 2 and 4 of the M12) is to be used as input or output. The input circuitry is internally hard-wired to the output driver so that once an output is set it is automatically also displayed in the input process image.

M8

EPP2349-0021

The EPP2349-0021 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image.

M12

EPP2349-0022

The EPP2349-0022 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 2&4 of the M12) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image.

EPP2624-0002 | EtherCAT P Box, 4-channel relay output, 25 V AC, 30 V DC, 0.5 A AC, 2 A DC, M12

EPP2624-0002

The EPP2624-0002 EtherCAT Box has four relays. Each relay has a make contact, which can be controlled potential-free by the PLC via EtherCAT. The relay contacts can be operated at up to 25 V AC or 30 V DC. The signal state of the individual channels is indicated by LEDs. The signal connection is established via screw-type M12 connectors. The power supply is passed through.

M8

EPP2809-0021

The EPP2809-0021 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A.

M12

EPP2809-0022

The EPP2809-0022 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable. The outputs are short-circuit proof. The sum current of all outputs is limited to 3 A.

M16

EPP2816-0004

The EPP2816-0004 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable. The outputs are short-circuit proof. An output short-circuit is recognized and passed on to the control level. The sum current of all outputs is limited to 3 A.

D-sub, 25-pin

EPP2816-0008

The EPP2816-0008 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable. The outputs are short-circuit proof. An output short-circuit is recognized and passed on to the control level. The sum current of all outputs is limited to 3 A.

D-sub, 9-pin

EPP2816-0010

The EPP2816-0010 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable. The outputs are short-circuit proof. An output short-circuit is recognized and passed on to the control level. The sum current of all outputs is limited to 3 A.

EPP2817-0008 | EtherCAT P Box, 24-channel digital output, 24 V DC, 0.5 A, D-sub

EPP2817-0008

The EPP2817-0008 EtherCAT Box is designed for processing digital/binary signals. It connects the binary control signals from the automation device on to the actuators at the process level. The outputs can handle output currents up to 0.5 A max. Short-term overload is acceptable.

M8

EPP2308-0001

The EPP2308-0001 EtherCAT Box combines four digital inputs (four M8 sockets at the top) and four digital outputs (four M8 sockets at the bottom) on one device. The inputs have a 3.0 ms filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M12

EPP2308-0002

The EPP2308-0002 EtherCAT Box combines four digital inputs (two M12 sockets at the top) and four digital outputs (two M12 sockets at the bottom) on one device. The inputs have a 3.0 ms filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors. Two channels are available per M12 socket. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The outputs are supplied via UP. All outputs are short-circuit proof and protected against inverse polarity.

EPP2316-0003 | EtherCAT P Box, 8-channel digital input + 8-channel digital output, 24 V DC, 10 µs, 0.5 A, IP20 connector

EPP2316-0003

The EPP2316-0003 EtherCAT Box combines eight digital inputs (upper female header) and eight digital outputs (lower female header) on one device. The inputs have a 10 µs filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal status is displayed via the optional connector. The signal connection is established via spring-loaded connectors, optionally available in 1- and 3-pole versions. The module is supplied without connectors.

EPP2316-0008 | EtherCAT P Box, 8-channel digital input + 8-channel digital output, 24 V DC, 10 µs, 0.5 A, D-sub

EPP2316-0008

The EPP2316-0008 EtherCAT Box combines eight digital inputs and eight digital outputs in one device. The inputs have a 10 µs filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal status is displayed via the optional plug connector; the signal connection is established via a 25-pin D-sub connector. An IP-67 connector for connecting the inputs is available as an option.

M8

EPP2318-0001

The EPP2318-0001 EtherCAT Box combines four digital inputs (four M8 sockets at the top) and four digital outputs (four M8 sockets at the bottom) on one device. The inputs have a 10 µs filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors.

M12

EPP2318-0002

The EPP2318-0002 EtherCAT Box combines four digital inputs (two M12 sockets at the top) and four digital outputs (two M12 sockets at the bottom) on one device. The inputs have a 10 µs filter. The outputs handle load currents of up to 0.5 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors. Two channels are available per M12 socket. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The outputs are supplied via UP. All outputs are short-circuit proof and protected against inverse polarity.

M8

EPP2328-0001

The EPP2328-0001 EtherCAT Box combines four digital inputs (four M8 sockets at the top) and four digital outputs (four M8 sockets at the bottom) on one device. The inputs have a 3.0 ms filter. The outputs handle load currents of up to 2.0 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors. The sum current of all outputs is limited to 4 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The outputs are supplied via UP. All outputs are short-circuit proof and protected against inverse polarity.

M12

EPP2328-0002

The EPP2328-0002 EtherCAT Box combines four digital inputs (two M12 sockets at the top) and four digital outputs (two M12 sockets at the bottom) on one device. The inputs have a 3.0 ms filter. The outputs handle load currents of up to 2.0 A, are short-circuit proof and protected against inverse polarity. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors. Two channels are available per M12 socket. The sum current of all outputs is limited to 4 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors.

EPP2334-0061 | EtherCAT P Box, 4-channel digital combi, 24 V DC, 10 µs, 0.5 A, M8

EPP2334-0061

The EPP2334-0061 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuitry is internally hard-wired to the output driver so that once an output is set it is automatically also displayed in the input process image. The inputs have a 10 µs filter. The outputs process load currents up to 0.5 A, are short-circuit proof and protected against inverse polarity. The sum current of all outputs is limited to 3 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The inputs and outputs are supplied via UP. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors. Thanks to its compact design and the number of signals, the EPP2334-0061 is particularly suitable for connecting distributed, decentralized sensors and actuators to EtherCAT P.

M8

EPP2338-0001

The EPP2338-0001 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image. The inputs have a 10 µs filter. The outputs process load currents up to 0.5 A, are short-circuit proof and protected against inverse polarity. The sum current of all outputs is limited to 3 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The inputs and outputs are supplied via UP. The signal state is displayed by LEDs; the signals are connected via screwable M8 connectors.

M12

EPP2338-0002

The EPP2338-0002 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pins 2 and 4 of M12) is to be used as an input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image. The inputs have a 10 µs filter. The outputs process load currents up to 0.5 A, are short-circuit proof and protected against inverse polarity. The sum current of all outputs is limited to 3 A. The connected sensors are supplied via an internal, short-circuit proof driver block with a total of 0.5 A for all sensors. The inputs and outputs are supplied via UP. The signal state is displayed by LEDs; the signals are connected via screwable M12 connectors.

M8

EPP2338-1001

The EPP2338-1001 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image. The inputs have a 3.0 ms filter.

M12

EPP2338-1002

The EPP2338-1002 EtherCAT Box has eight digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pins 2 and 4 of M12) is to be used as an input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image. The inputs have a 3.0 ms filter.

EPP2339-0003 | EtherCAT P Box, 16-channel digital combi, 24 V DC, 3 ms, 0.5 A, IP 20 connector

EPP2339-0003

The EPP2339-0003 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image.

M8

EPP2339-0021

The EPP2339-0021 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image.

M12

EPP2339-0022

The EPP2339-0022 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 2 and 4 of the M12) is to be used as input or output. The input circuitry is internally hard-wired to the output driver so that once an output is set it is automatically also displayed in the input process image.

M8

EPP2349-0021

The EPP2349-0021 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 4 of the M8) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image.

M12

EPP2349-0022

The EPP2349-0022 EtherCAT Box has 16 digital channels, which can each be operated as an input or output. It is not necessary to configure whether a channel (pin 2&4 of the M12) is to be used as input or output. The input circuit is permanently connected to the output driver internally so that a set output is also automatically displayed in the input process image.

EPP3174-0002 | EtherCAT P Box, 4-channel analog input, multi-function, ±10 V, 0/4…20 mA, 16 bit, differential, M12

EPP3174-0002

The EPP3174-0002 EtherCAT P Box has four analog inputs which can be individually parameterised, so that they process signals either in the -10…+10 V or the 0/4…20 mA range. The voltage or input current is digitised with a resolution of 16 bits, and is transmitted (electrically isolated) to the higher-level automation device. The four input channels have differential inputs and possess a common, internal ground potential. The input filter and therefore the conversion times are configurable in a wide range. If required, the inputs can be scaled differently, and automatic limit monitoring is also available. EtherCAT is used for parameterisation purposes. The parameters are stored in the module.

EPP3184-0002 | EtherCAT P Box, 4-channel analog input, multi-function, ±10 V, 0/4…20 mA, 16 bit, single-ended, M12

EPP3184-0002

The EPP3184-0002 EtherCAT P Box has four analog inputs which can be individually parameterised, so that they process signals either in the -10/0…+10 V or the 0/4…20 mA range. The voltage or input current is digitised with a resolution of 16 bits, and is transmitted (electrically isolated) to the higher-level automation device. The four input channels are single-ended inputs and possess a common, internal ground potential. The input filter and therefore the conversion times are configurable in a wide range. If required, the inputs can be scaled differently, and automatic limit monitoring is also available. EtherCAT is used for parameterisation purposes. The parameters are stored in the module.

EPP3204-0002 | EtherCAT P Box, 4-channel analog input, temperature, RTD (Pt100), 16 bit, M12

EPP3204-0002

The EPP3204-0002 EtherCAT P Box with analog inputs allows resistance sensors to be connected directly. The module’s circuitry can operate the sensors using 2-, 3- or 4-wire connection techniques. Linearisation over the full temperature range is realised with the aid of a microprocessor. The temperature range can be selected freely. The module can also be used for simple resistance measurement with the output in ohms. The module’s standard settings are: resolution 0.1°C in the temperature range of Pt100 sensors in 2-wire connection. Sensor malfunctions such as broken wires are indicated by error LEDs. The module is quite versatile, but the default values are selected in such a way that in most cases it is not necessary to perform configuration. The input filter and associated conversion times can be set within a wide range; several data output formats may be chosen. If required, the inputs can be scaled differently. Automatic limit monitoring is also available. Parameterisation is carried out via EtherCAT.

EPP3314-0002 | EtherCAT P Box, 4-channel analog input, temperature, thermocouple, 16 bit, M12

EPP3314-0002

The EPP3314-0002 EtherCAT P Box with analog inputs permits four thermocouples to be directly connected. The module’s circuit can operate thermocouple sensors using the 2-wire technique. Linearisation over the full temperature range is realised with the aid of a microprocessor. The temperature range can be selected freely. The error LEDs indicate a broken wire. Compensation for the cold junction is made through a temperature measurement in the connecting plugs. This means that standard extension leads can be connected. The EPP3314-0002 can also be used for mV measurement.

EPP3632-0001 | EtherCAT P Box, 2-channel analog input, IEPE/accelerometer, 16 bit, 50 ksps, M8

EPP3632-0001

The EPP3632-0001 EtherCAT P Box is a 2-channel oversampling interface for up to two IEPE sensors with 2-wire connection. The current of the integrated constant current source can be set to 2, 4 or 8 mA separately for each channel depending on the sensor and cable length. The input signal is sampled according to the oversampling principle with up to 50 ksamples per second per channel. The measured values can be correlated to other parts of the system through distributed clocks. Except for filtering, the EPP3632-0001 does not pre-process the vibration amplitude values. This is done by the retrieving controller. The interface can be adapted to application-specific requirements by means of adjustable filters and supply currents. The TC3 Condition Monitoring library offers extensive algorithms for signal evaluation in the controller, enabling full utilisation of the performance and flexibility benefits of the PC platform.

EPP3744-0041 | EtherCAT P Box, 4-channel analog input + 8-channel digital combi, pressure, 0…1000 hPa (0…+1 bar), M8

EPP3744-0041

The EPP3744-0041 EtherCAT P Box, equipped with six digital inputs, two digital outputs and four pressure inputs, acquires these signals and transmits them – electrically isolated – to the controller. The signal status is indicated by LEDs; the digital signals are connected via 4-pin M8 plug connectors.

EPP3744-1041 | EtherCAT P Box, 4-channel analog input + 8-channel digital combi, pressure, 0…7000 hPa (0…+7 bar), M8

EPP3744-1041

The EPP3744-1041 EtherCAT P Box, equipped with six digital inputs, two digital outputs and four pressure inputs, acquires these signals and transmits them – electrically isolated – to the controller. The signal status is indicated by LEDs; the digital signals are connected via 4-pin M8 plug connectors.

EPP3752-0000 | EtherCAT P Box, 2-channel, 2 x 3-axis accelerometers

EPP3752-0000

The EPP3752-0000 EtherCAT P Box has two internal 3-axis accelerometers with 10 bits and a selectable measuring range of ±2 g, ±4 g, ±8 g and ±16 g. The sampling frequency is 1 Hz to 5 kHz. Possible applications include the recording of vibrations and shocks/oscillations, and furthermore inclination measurements in all three axes. Since measurement is carried out with two sensors that are positioned at an angle of 90° to each other, the control system can check measured data for plausibility. Extended integrated filter functions allow measured data to be pre-processed and appropriately scaled in order to filter disturbances and to relieve the workload of the control system.

EPP4314-1002 | EtherCAT P Box, 2-channel analog input + 2-channel analog output, multi-function, ±10 V, ±20 mA, 16 bit, differential, M12

EPP4314-1002

The EPP4314-1002 EtherCAT P Box combines two analog inputs, two analog outputs and two digital inputs which can be individually parameterized, so that they process/generate signals either in the ±10 or ±20 mA range. The resolution for the current signals is 16 bit.

EPP4374-0002 | EtherCAT P Box, 2-channel analog input + 2-channel analog output, multi-function, ±10 V, 0/4…20 mA, 16 bit, differential, M12

EPP4374-0002

The EPP4374-0002 EtherCAT P Box combines two analog inputs and two analog outputs which can be individually parameterised, so that they process/generate signals either in the -10…+10 V or the 0/4…20 mA range. The resolution of the current signals is 16 bits, that of the voltage signals also 16 bits, signed.

EPP4174-0002 | EtherCAT P Box, 4-channel analog output, multi-function, ±10 V, 0/4…20 mA, 16 bit, differential, M12

EPP4174-0002

The EPP4174-0002 EtherCAT P Box has four analog outputs which can be individually parameterised, so that they generate signals either in the -10 to +10 V or the 0/4 to 20 mA range. The voltage or output current is supplied to the process level with a resolution of 15 bit (default), and is electrically isolated. The output scaling can be changed if required.

EPP4314-1002 | EtherCAT P Box, 2-channel analog input + 2-channel analog output, multi-function, ±10 V, ±20 mA, 16 bit, differential, M12

EPP4314-1002

The EPP4314-1002 EtherCAT P Box combines two analog inputs, two analog outputs and two digital inputs which can be individually parameterized, so that they process/generate signals either in the ±10 or ±20 mA range. The resolution for the current signals is 16 bit.

EPP4374-0002 | EtherCAT P Box, 2-channel analog input + 2-channel analog output, multi-function, ±10 V, 0/4…20 mA, 16 bit, differential, M12

EPP4374-0002

The EPP4374-0002 EtherCAT P Box combines two analog inputs and two analog outputs which can be individually parameterised, so that they process/generate signals either in the -10…+10 V or the 0/4…20 mA range. The resolution of the current signals is 16 bits, that of the voltage signals also 16 bits, signed.

EPP5001-0002 | EtherCAT P Box, 1-channel encoder interface, SSI, M23

EPP5001-0002

The EPP5001-0002 EtherCAT Box is an SSI master for direct connection of an absolute encoder with SSI (synchronous serial interface). Single-turn and multi-turn encoders are supported. An 8-pin M12 socket is used as encoder connection. The encoder is supplied with 24 V directly via the M12 socket of the Box. Extensive parameterization options allow optimum adaptation to different encoder types.

M12

EPP5101-0002

The EPP5101-0002 EtherCAT Box is an interface for direct connection of incremental encoders with differential signals (RS422) or TTL single-ended signals. Input frequencies up to 1 kHz can be evaluated. The C input can optionally be used as a latch input. The encoder is supplied with 5 V directly via the M12 socket of EPP5101-0002.

D-sub, 15-pin

EPP5101-0011

The EPP5101-0011 EtherCAT Box is an interface for direct connection of incremental encoders with differential signals (RS422) or TTL single-ended signals. Input frequencies up to 1 kHz can be evaluated. Two additional 24 V digital inputs are available for saving, locking and setting the counter value. The fault signal output of an encoder can be connected and evaluated via the status input. The encoder is supplied with 5 V directly via the D-sub socket of EPP5101-0011.

M12

EPP5101-1002

The EPP5101-1002 EtherCAT Box is an interface for direct connection of incremental encoders with differential signals (RS422) or TTL single-ended signals. Input frequencies up to 1 kHz can be evaluated. The C input can optionally be used as a latch input. The encoder is supplied with 24 V directly via the M12 socket of EPP5101-1002.

EPP5151-0002 | EtherCAT P Box, 1-channel encoder interface, incremental, 24 V DC HTL, 1 MHz, M12

EPP5151-0002

The EPP5151-0002 EtherCAT Box is an interface to 24 V DC single-ended signals. Input frequencies up to 1 kHz can be evaluated. Two additional 24 V digital inputs are available for saving, locking and setting the counter value. The fault signal output of an encoder can be connected and evaluated via the status input. The encoder is supplied with 24 V directly via the D-sub socket of EPP5151-0002.

EPP6001-0002 | EtherCAT P Box, 1-channel communication interface, serial, RS232/RS422/RS485, M12

EPP6001-0002

The EPP6001-0002 serial interface module allows the connection of devices with an RS232 or RS422/RS485 interface. The module transmits the data in a fully transparent manner to the higher-level automation device. The active serial communication channel functions independently of the higher-level bus system in full duplex mode at up to 115,200 baud, while a 864 byte receive buffer and a 128 byte send buffer are available. The 1-channel version has an increased end device power supply of up to 1 A, the connector assignment depends on the selected interface. The two integrated digital inputs/outputs allow the connection of additional sensors/actuators in order, for example, to trigger the reading process of the barcode reader or, depending on the result, to initiate an action. In conjunction with the TwinCAT Virtual Serial COM Driver the EPP6001-0002 can be used as a normal Windows COM interface.

EPP6002-0002 | EtherCAT P Box, 2-channel communication interface, serial, RS232/RS422/RS485, M12

EPP6002-0002

The EPP6001-0002 serial interface module allows the connection of devices with an RS232 or RS422/RS485 interface. The module transmits the data in a fully transparent manner to the higher-level automation device. The active serial communication channel functions independently of the higher-level bus system in full duplex mode at up to 115,200 baud, while a 864 byte receive buffer and a 128 byte send buffer are available. The connector assignment depends on the interface. For each channel, RS232 or RS422/RS485 can be selected. In conjunction with the TwinCAT Virtual Serial COM Driver the EPP6001-0002 can be used as a normal Windows COM interface.

EPP6090-0000 | EtherCAT P Box, display with navigation switch, operating hours counter

EPP6090-0000

The EPP6090-0000 display box has an illuminated, low-reflection LC display with two lines of 16 characters. It can be used, for example, for displaying status messages or diagnostic information. A non-resettable operating hours counter is integrated and can be displayed and also read out via the controller.

EPP6228-0022 | EtherCAT P Box, 8-channel communication interface + 8-channel digital input, IO-Link, master, Class A, M12

EPP6228-0022

The EPP6228 IO-Link module enables connection of up to eight IO-Link devices. These can be IO-Link box modules, actuators, sensors or combinations of both. Point-to-point connection between the module and the connected device. The EtherCAT P Box is parameterized via the EtherCAT Master. IO-Link is designed as an intelligent link between the fieldbus level and the sensor, wherein parameterization information can be exchanged bidirectionally via the IO-Link connection. The parameterization of the IO-Link devices with service data can take place from TwinCAT via ADS or, very conveniently, via the integrated IO-Link configuration tool. In addition to the IO-Link channels, the EPP6228 features eight digital inputs on pin 2 of the respective M12 socket.

EPP7041-1002 | EtherCAT P Box, 1-channel motion interface, stepper motor, 48 V DC, 1.5 A, M12, with incremental encoder

EPP7041-1002

The EPP7041-1002 EtherCAT P Box is intended for the direct connection of different Stepper Motors. The PWM output stages for two motor coils with compact design are located in the module together with two inputs for limit switches and cover a wide voltage and current range. The EPP7041-1002 can be adjusted to the motor and the application by changing just a few parameters. 64-fold micro-stepping ensures particularly quiet and precise motor operation. Connection of an incremental encoder enables a simple servo axis to be realised. Two digital inputs and a digital 0.5 A output enable connection of end switches and a motor brake.

EPP7041-3002 | EtherCAT P Box, 1-channel motion interface, stepper motor, 48 V DC, 5 A, for high-speed applications, M12, with incremental encoder

EPP7041-3002

The EPP7041-3002 EtherCAT P Box is intended for the direct connection of different stepper motors. The PWM output stages for two motor coils cover a wide voltage and current range. The EPP7041-3002 can be adjusted to the motor and the application by changing just a few parameters. 256-fold micro-stepping ensures particularly quiet and precise motor operation. Connection of an incremental encoder enables a simple servo axis to be realised. Two digital inputs and a digital 0.5 A output enable connection of end switches and a motor brake.

EPP7342-0002 | EtherCAT P Box, 2-channel motion interface, DC motor, 48 V DC, 4.5 A, M12, with incremental encoder

EPP7342-0002

The EPP7342 EtherCAT P Box enables direct operation of two DC motors. The speed or position is specified by the automation device via a 16-bit value. By connection of an incremental encoder (24 V DC, single-ended), a simple servo axis can be realised. The output stage is protected against overload and short-circuit. The EtherCAT P Box has two channels that indicate their signal state via light emitting diodes. The LEDs enable quick local diagnosis.

EPP1111-0000 | EtherCAT P Box, ID switch

EPP1111-0000

The EPP1111 EtherCAT P Box has three decimal ID switches for assigning an ID to a group of EtherCAT components. This group can be present in any position in the EtherCAT P network, as a result of which variable topologies and Hot Connect groups can be realised in a simple manner.

EPP1321-0060 | EtherCAT P Box, 1-port EtherCAT-to-EtherCAT P feed-in

EPP1321-0060

The 1-channel EtherCAT to EtherCAT P supply module in IP 67 enables the flexible conversion from EtherCAT to EtherCAT P. The current carrying capacity of 3 A per US and UP of the EtherCAT P segment enables the use of a large number of sensors and actuators. For larger or more branched machines or systems a power supply boost may be required. The EPP1332-0001 EtherCAT P junction with voltage refresh feature can be used for feeding in US or UP at any desired point.

EPP1322-0001 | EtherCAT P Box, 2-port EtherCAT-to-EtherCAT P feed-in

EPP1322-0001

The EPP1322-0001 EtherCAT P junction in IP 67 are available for flexible topology configurations. The current carrying capacity of 3 A per EtherCAT P segment for US and UP already enables a wide range of sensors and actuators to be used. For larger or more branched machines/systems a power supply boost may be required. The EPP1332-0001 EtherCAT P junction with refresh feature can be used for feeding in US or UP at any point in the system.

EPP1332-0001 | EtherCAT P Box, 2-port EtherCAT P junction, with refresh

EPP1332-0001

The EPP1322-0001 EtherCAT P junction in IP 67 are available for flexible topology configurations. The current carrying capacity of 3 A per EtherCAT P segment for US and UP already enables a wide range of sensors and actuators to be used. For larger or more branched machines/systems a power supply boost may be required. The EPP1332-0001 EtherCAT P junction with refresh feature can be used for feeding in US or UP at any point in the system.

EPP1342-0001 | EtherCAT P Box, 2-port EtherCAT P junction

EPP1342-0001

The EPP1322-0001 EtherCAT P junction in IP 67 are available for flexible topology configurations. The current carrying capacity of 3 A per EtherCAT P segment for US and UP already enables a wide range of sensors and actuators to be used. For larger or more branched machines/systems a power supply boost may be required. The EPP1332-0001 EtherCAT P junction with refresh feature can be used for feeding in US or UP at any point in the system.

EPP9001-0060 | EtherCAT P/EtherCAT connector, with power transmission

EPP9001-0060

The EPP9001-0060 EtherCAT P Box converts the incoming EtherCAT P signal (red M8 socket, EtherCAT-P-coded) into an EtherCAT signal (green M8 socket). In addition, the voltage output from the US and UP voltages can be found on the EtherCAT P Box (black M8 socket). The EPP9001-0060 is an active EtherCAT device, i.e. it appears in the EtherCAT process image of the EtherCAT master, e.g. TwinCAT.

EPP9022-0060 | EtherCAT P Box, with voltage diagnostics

EPP9022-0060

The EPP9022-0060 EtherCAT P Box can be used for diagnosing and measuring the voltages US and UP and currents IS and IP, both temporarily during commissioning and permanently during operation. Even without an EtherCAT master, the voltage range is displayed on the box by LEDs (green, yellow and red). In a running EtherCAT network, the values of US, UP, IS and IP can also be read out as process data in the master. The voltage levels for the LED displays can be adjusted by CoE.

EPP9022-9060 | EtherCAT P Box, with voltage diagnostics, TwinSAFE SC

EPP9022-9060

The EPP9022-9060 EtherCAT P Box in space-saving form factor can be used for diagnosing and measuring the voltages US and UP and currents IS and IP, both temporarily during commissioning and permanently during operation. Even without an EtherCAT master, the voltage range is displayed on the box by LEDs (green, yellow and red). In a running EtherCAT network, the values of US, UP, IS and IP can also be read out as process data in the master. The voltage levels for the LED displays can be adjusted by CoE. In addition the EPP9022-9060 is equipped with an M8 power socket to which an external multimeter can be connected for measuring the voltages.