הפרדהתיקוןסגירה

Nov 17, 2022

Presentation of the MX-System

For the first time, the MX-System enables completely control cabinet-free automation solutions in machine and system engineering. In this video, we show you how the modular plug-in system is structured and what it can be used for.

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MB1008-0000-0000 | Baseplate, 1-row, 8 data slots

MB1008-0000-0000 | Baseplate, 1-row, 8 data slots

The MB1008-0000-0000 baseplate has 8 data slots. The first slot is intended for the EtherCAT connection. This slot can only be used by an IPC or coupler module. The further 7 slots can be occupied with 1-row I/O or system modules. The baseplate has 3 connection points for the potential equalization.

MB1012-0000-0000 | Baseplate, 1-row, 12 data slots

MB1012-0000-0000 | Baseplate, 1-row, 12 data slots

The MB1012-0000-0000 baseplate has 12 data slots. The first slot is intended for the EtherCAT connection. This slot can only be used by an IPC or coupler module. The further 11 slots can be occupied with 1-row I/O or system modules. The baseplate has 3 connection points for the potential equalization.

MB2012-0000-0000 | Baseplate, 2-row, 12 combined data and power slots

MB2012-0000-0000 | Baseplate, 2-row, 12 combined data and power slots

The MB2012-0000-0000 baseplate has 12 combined data and power slots. The first slot is intended for the EtherCAT connection. This slot can only be used by an IPC or coupler module. The further slots can be occupied with any 1- or 2-row modules. The baseplate has 6 connection points for the potential equalization.

MB2018-0000-0000 | Baseplate, 2-row, 18 combined data and power slots

MB2018-0000-0000 | Baseplate, 2-row, 18 combined data and power slots

The MB2012-0000-0000 baseplate has 12 combined data and power slots. The first slot is intended for the EtherCAT connection. This slot can only be used by an IPC or coupler module. The further slots can be occupied with any 1- or 2-row modules. The baseplate has 6 connection points for the potential equalization.

MC6015-0030-1217 | IPC module, Industrial PC, Intel Atom® x6, M12, push-pull

MC6015-0030-1217 | IPC module, Industrial PC, Intel Atom® x6, M12, push-pull

MC-type modules are computer modules for the Beckhoff MX-System. They have the hardware and software features of an industrial PC, coupled with the robust and IP67-protected MX housing design.

MC6030-0080-2217 | IPC module, Industrial PC, Intel® Celeron®, Core™ i3/i5 of the 11th generation, M12, push-pull

MC6030-0080-2217 | IPC module, Industrial PC, Intel® Celeron®, Core™ i3/i5 of the 11th generation, M12, push-pull

MC-type modules are computer modules for the Beckhoff MX-System. They have the hardware and software features of an industrial PC, coupled with the robust and IP67-protected MX housing design.

MC9240-0000-1217 | IPC module, Industrial PC, ARM Cortex™-A53, M12, push-pull

MC9240-0000-1217 | IPC module, Industrial PC, ARM Cortex™-A53, M12, push-pull

MC-type modules are computer modules for the Beckhoff MX-System. They have the hardware and software features of an industrial PC, coupled with the robust and IP67-protected MX housing design.

MK1100-0002-1111 | Coupler module, EtherCAT coupler, M8

MK1100-0002-1111 | Coupler module, EtherCAT coupler, M8

The MK1100-0002-1111 coupler module enables the MX-System to be integrated into external EtherCAT control architectures. The coupler has one input and one output port. This enables topologies in which several MX-System stations can be distributed or used as an EtherCAT segment in a higher-level network.

MK9300-0002-1212 | Coupler module, PROFINET RT coupler, M12

MK9300-0002-1212 | Coupler module, PROFINET RT coupler, M12

The MK9300-0002-1212 coupler module enables the MX-System to be connected with PROFINET RT networks. The coupler has one input and one output port. This enables topologies in which several MX-System stations can be distributed or used as an EtherCAT segment in a higher-level network.

MK9500-0002-1212 | Coupler module, EtherNet/IP coupler, M12

MK9500-0002-1212 | Coupler module, EtherNet/IP coupler, M12

The MK9500-0002-1212 coupler module enables the MX-System to be connected with EtherNet/IP networks. The coupler has one input and one output port. This enables topologies in which several MX-System stations can be distributed or used as an EtherCAT segment in a higher-level network.

MR1307-0011-2242 | Relay module, 3-channel relay, 230 V AC, 7 A, M12, replaceable fuse

MR1307-0011-2242 | Relay module, 3-channel relay, 230 V AC, 7 A, M12, replaceable fuse

The MR1307-0011-2242 is a 3-phase relay output including load current measurement. The load currents are output via three separate M12 connectors, each of which can switch up to 10 A max. and must not exceed 15 A in total.

MR3107-2001-2245 | Relay module, 1-channel motor reversing starter, 7 A, B23, replaceable fuse

MR3107-2001-2245 | Relay module, 1-channel motor reversing starter, 7 A, B23, replaceable fuse

The MR3107-2001-2245 is a 3-phase direct motor starter with up to 7.0 A current carrying capacity per phase. The B23 connection is not only used for the motor currents but also for brake control and motor temperature measurement.

MR3107-2901-2245 | Relay module, 1-channel motor reversing starter, 7 A, B23, replaceable fuse, safe shutdown

MR3107-2901-2245 | Relay module, 1-channel motor reversing starter, 7 A, B23, replaceable fuse, safe shutdown

The MR3107-2901-2245 is a 3-phase direct motor starter with up to 7.0 A current carrying capacity per phase. The B23 connection is not only used for the motor currents but also for brake control and motor temperature measurement. Thanks to the integrated TwinSAFE solution, safe shutdown is possible via the module.

MR3203-1001-2244 | Relay module, 2-channel motor direct starter, 2.8 A, B17, replaceable fuse

MR3203-1001-2244 | Relay module, 2-channel motor direct starter, 2.8 A, B17, replaceable fuse

The MR3203-1001-2244 is a 2-channel, 3-phase direct motor starter with up to 2.8 A current carrying capacity per phase. The B17 connection is not only used for the motor currents but also for brake control and motor temperature measurement.

MR3203-1901-2244 | Relay module, 2-channel motor direct starter, 2.8 A, B17, replaceable fuse, safe shutdown

MR3203-1901-2244 | Relay module, 2-channel motor direct starter, 2.8 A, B17, replaceable fuse, safe shutdown

The MR3203-1901-2244 is a 2-channel, 3-phase direct motor starter with up to 2.8 A current carrying capacity per phase. The B17 connection is not only used for the motor currents but also for brake control and motor temperature measurement. Thanks to the integrated TwinSAFE solution, safe shutdown is possible via the module.

MR4307-1011-2242 | Relay module, 3-channel solid-state relay + 3-channel analog input, 230 V AC, 7 A, temperature, RTD (Pt1000), M12, replaceable fuse

MR4307-1011-2242 | Relay module, 3-channel solid-state relay + 3-channel analog input, 230 V AC, 7 A, temperature, RTD (Pt1000), M12, replaceable fuse

The MR4307-1011-2242 is a 3-channel load and temperature control solution. Each solid-state relay output switches up to 10 A, which is output via M12 connector. In addition, the module measures the application temperature for each channel via an additional M12 connector and can use this internally for direct temperature control by controlling the outputs accordingly. The function is rounded off by a residual current measurement so that insulation faults can be identified at an early stage and maintenance work can be carried out before a forced system shutdown.

MS1010-0021-1114 | System module, power infeed, 24 V DC, 48 V DC, 10 A, B17

MS1010-0021-1114 | System module, power infeed, 24 V DC, 48 V DC, 10 A, B17

The MS1010-0021-1114 module is a module for direct supply of 24 V DC and 48 V DC. It is equipped with a filter unit for both voltages. Connection is via a 5-pin B17 connector.

MS1010-0022-1214 | System module, power infeed + power output, 24 V DC, 48 V DC, 10 A, B17

MS1010-0022-1214 | System module, power infeed + power output, 24 V DC, 48 V DC, 10 A, B17

The MS1010-0022-1214 module is a module for direct supply of 24 V DC and 48 V DC. It is equipped with a filter unit for both voltages. Connection is via a 5-pin B17 connector. An output socket is also available in the B17 connector version for feed-through supply voltages.

MS1020-0051-1145 | System module, power infeed, 400 V AC, 600 V DC, 25 A, B23

MS1020-0051-1145 | System module, power infeed, 400 V AC, 600 V DC, 25 A, B23

The MS1020-0051-1145 module is a module for the direct supply of a 3-phase AC voltage and the DC link circuit for drive technology. Both voltages are connected in one cable by means of a 7-pin B23 connector. An additional module must be used for the EtherCAT connection.

MS1020-0052-1245 | System module, power infeed + power output, 400 V AC, 600 V DC, 25 A, B23

MS1020-0052-1245 | System module, power infeed + power output, 400 V AC, 600 V DC, 25 A, B23

The MS1020-0052-1245 module is a module for the direct supply of a 3-phase AC voltage and the DC link circuit for drive technology. Both voltages are connected in one cable by means of a 7-pin B23 connector. An additional module must be used for the EtherCAT connection. An output socket is also available in the B23 connector version for feed-through supply voltages.

MS1132-2201-2349 | System module, power infeed with main switch, red, 32 A, with fuse, power supply 24 V DC, 18 A, energy measurement and residual current measurement

MS1132-2201-2349 | System module, power infeed with main switch, red, 32 A, with fuse, power supply 24 V DC, 18 A, energy measurement and residual current measurement

The MS1132-2201-2349 module is a 3-phase power supply module with input fuses and red main switch for up to 32 A. A power supply unit with an output current of 18 A DC is already integrated to supply the 24 V DC control voltage. Furthermore, typical energy data such as current, voltage, active power, cos φ and frequency are recorded with this module.

MS1410-1001-1334 | System module, power infeed with main switch, black, 10 A, power supply 24 V DC, 7 A

MS1410-1001-1334 | System module, power infeed with main switch, black, 10 A, power supply 24 V DC, 7 A

The MS1416-1001-1334 module is a power supply module with black main switch that can be operated at a 230 V AC socket. A power supply unit with an output current of 7 A DC is already integrated to supply the 24 V DC control voltage.

MS1432-1101-2349 | System module, power infeed with main switch, black, 32 A, power supply 24 V DC, 18 A, energy measurement

MS1432-1101-2349 | System module, power infeed with main switch, black, 32 A, power supply 24 V DC, 18 A, energy measurement

The MS1432-1101-2349 module is a 3-phase power supply module with input fuses and black main switch for up to 32 A. A power supply unit with an output current of 18 A DC is already integrated to supply the 24 V DC system voltage. Furthermore, typical energy data such as current, voltage, active power, cos φ and frequency are recorded with this module.

MS2204-0002-1112 | System module, EtherCAT power infeed + forwarding, EtherCAT, 24 V DC, 4 A, M12

MS2204-0002-1112 | System module, EtherCAT power infeed + forwarding, EtherCAT, 24 V DC, 4 A, M12

The MS2204-0002-1112 EtherCAT power infeed module serves as the link between the EtherCAT protocol and the MX-System modules.

MS2210-0021-1114 | System module, EtherCAT power infeed, EtherCAT, 24 V DC, 48 V DC, 10 A, B17

MS2210-0021-1114 | System module, EtherCAT power infeed, EtherCAT, 24 V DC, 48 V DC, 10 A, B17

The MS2210-0021-1114 EtherCAT power infeed module serves as the link between the EtherCAT protocol and the MX-System modules. In addition to coupling the data communication, the integrated B17 hybrid connector is also used to feed the control voltage of 24 V DC and 48 V AC with up to 10 A into the MX-System.

MS2210-0022-1214 | System module, EtherCAT power infeed + forwarding, EtherCAT, 24 V DC, 48 V DC, 10 A, B17

MS2210-0022-1214 | System module, EtherCAT power infeed + forwarding, EtherCAT, 24 V DC, 48 V DC, 10 A, B17

The MS2200-2022-1214 bus coupler is the link between the EtherCAT protocol and the MX modules. In addition to coupling the data communication, the integrated B17 hybrid connector is also used to feed the control voltage of 24 V DC and 48 V AC with up to 10 A into the MX-System.

MS2306-0002-1111 | System module, EtherCAT power infeed + forwarding, EtherCAT P, 24 V DC, 6 A, M8

MS2306-0002-1111 | System module, EtherCAT power infeed + forwarding, EtherCAT P, 24 V DC, 6 A, M8

The EtherCAT power supply module MS2306-0002-1111 is the link between the EtherCAT protocol and the MX-System modules. The integrated EtherCAT-P M8 connector is used not only to couple the data communication but also to feed the control voltage of 24 V DC with a total of up to 6 A (2x 3 A) into the MX-System.

MS2610-1002-1334 | System module, EtherCAT power infeed + forwarding, EtherCAT, 260 V AC, 10 A, B17, power supply 24 V DC, 7 A

MS2610-1002-1334 | System module, EtherCAT power infeed + forwarding, EtherCAT, 260 V AC, 10 A, B17, power supply 24 V DC, 7 A

The MS2610-1002-1334 EtherCAT power infeed module serves as the link between the EtherCAT protocol and the MX-System modules. In addition to coupling the data communication, the integrated B17 hybrid connector is also used to feed AC voltages from 90 to 260 V AC with up to 10 A into the MX-System.

MS3010-1023-1114 | System module, power output, 24 V DC, 48 V DC, 10 A, B17, switchable

MS3010-1023-1114 | System module, power output, 24 V DC, 48 V DC, 10 A, B17, switchable

The MS3010-1023-1114 MX-System module is a power output for low voltages without communication output. Power is carried via the single-cable solution using B17 hybrid connectors. Up to 10 A each at 24 V and 48 V can be distributed to supply a remote control unit. The voltages are separately switchable and the output currents are measured.

MD3101-0100-2254 | Drive module, single-axis frequency inverter, 600 V DC, 1.5 A, B17, STO/SS1

MD3101-0100-2254 | Drive module, single-axis frequency inverter, 600 V DC, 1.5 A, B17, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit, thus forming a multi-axis system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD3103-0100-2254 | Drive module, single-axis frequency inverter, 600 V DC, 3 A, B17, STO/SS1

MD3103-0100-2254 | Drive module, single-axis frequency inverter, 600 V DC, 3 A, B17, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit, thus forming a multi-axis system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD3106-0100-2254 | Drive module, single-axis frequency inverter, 600 V DC, 6 A, B17, STO/SS1

MD3106-0100-2254 | Drive module, single-axis frequency inverter, 600 V DC, 6 A, B17, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit, thus forming a multi-axis system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD3112-0100-2254 | Drive module, single-axis frequency inverter, 600 V DC, 12 A, B17, STO/SS1

MD3112-0100-2254 | Drive module, single-axis frequency inverter, 600 V DC, 12 A, B17, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit, thus forming a multi-axis system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD3201-0100-2254 | Drive module, dual-axis frequency inverter, 600 V DC, 1.5 A, B17, STO/SS1

MD3201-0100-2254 | Drive module, dual-axis frequency inverter, 600 V DC, 1.5 A, B17, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit, thus forming a multi-axis system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD3203-0100-2254 | Drive module, dual-axis frequency inverter, 600 V DC, 3 A, B17, STO/SS1

MD3203-0100-2254 | Drive module, dual-axis frequency inverter, 600 V DC, 3 A, B17, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit, thus forming a multi-axis system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD3206-0100-2254 | Drive module, dual-axis frequency inverter, 600 V DC, 6 A, B17, STO/SS1

MD3206-0100-2254 | Drive module, dual-axis frequency inverter, 600 V DC, 6 A, B17, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit, thus forming a multi-axis system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD6015-0003-2345 | Drive module, DC link power supply, 15 A, B23, external brake resistor

MD6015-0003-2345 | Drive module, DC link power supply, 15 A, B23, external brake resistor

The DC link power supply unit generates the DC link voltage for supplying the axis modules and the option modules from the mains voltage. It contains all of the circuit components required for this, such as line filters, rectifiers and charging circuits for the integrated DC link capacitors.

MD6015-0003-2345 | Drive module, DC link power supply, 15 A, B23, external brake resistor

MD6015-0003-2345 | Drive module, DC link power supply, 15 A, B23, external brake resistor

The DC link power supply unit generates the DC link voltage for supplying the axis modules and the option modules from the mains voltage. It contains all of the circuit components required for this, such as line filters, rectifiers and charging circuits for the integrated DC link capacitors.

MD8103-0100-2254 | Drive module, single-axis servo drive, 3 A, B17, OCT, STO/SS1

MD8103-0100-2254 | Drive module, single-axis servo drive, 3 A, B17, OCT, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8103-0200-2254 | Drive module, single-axis servo drive, 3 A, B17, OCT, Safe Motion

MD8103-0200-2254 | Drive module, single-axis servo drive, 3 A, B17, OCT, Safe Motion

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8106-0100-2254 | Drive module, single-axis servo drive, 6 A, B17, OCT, STO/SS1

MD8106-0100-2254 | Drive module, single-axis servo drive, 6 A, B17, OCT, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8106-0200-2254 | Drive module, single-axis servo drive, 6 A, B17, OCT, Safe Motion

MD8106-0200-2254 | Drive module, single-axis servo drive, 6 A, B17, OCT, Safe Motion

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8112-0100-2254 | Drive module, single-axis servo drive, 12 A, B17, OCT, STO/SS1

MD8112-0100-2254 | Drive module, single-axis servo drive, 12 A, B17, OCT, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8112-0200-2254 | Drive module, single-axis servo drive, 12 A, B17, OCT, Safe Motion

MD8112-0200-2254 | Drive module, single-axis servo drive, 12 A, B17, OCT, Safe Motion

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8203-0100-2254 | Drive module, dual-axis servo drive, 3 A, B17, OCT, STO/SS1

MD8203-0100-2254 | Drive module, dual-axis servo drive, 3 A, B17, OCT, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8203-0200-2254 | Drive module, dual-axis servo drive, 3 A, B17, OCT, Safe Motion

MD8203-0200-2254 | Drive module, dual-axis servo drive, 3 A, B17, OCT, Safe Motion

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8206-0100-2254 | Drive module, dual-axis servo drive, 6 A, B17, OCT, STO/SS1

MD8206-0100-2254 | Drive module, dual-axis servo drive, 6 A, B17, OCT, STO/SS1

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD8206-0200-2254 | Drive module, dual-axis servo drive, 6 A, B17, OCT, Safe Motion

MD8206-0200-2254 | Drive module, dual-axis servo drive, 6 A, B17, OCT, Safe Motion

The axis module contains the DC link and the inverter for supplying the motor. Depending on the required number of axes, the axis modules are mounted on the baseplate behind the DC link power supply unit thus forming a multi-axis servo system. Axis modules of different ratings can be combined to enable an optimized design of the individual axes.

MD9000-2025-2250 | Drive module, capacitor module, 2025 µF

MD9000-2025-2250 | Drive module, capacitor module, 2025 µF

The MD9000-2025-2250 capacitor module expands the DC link capacity and is suitable for supporting the DC link. It is used to save energy: voltage peaks that occur when motors are braked, recorded and stored. As a result, the MD9000-2025-2250 minimizes the use of the braking resistor as much as possible and reduces power loss. Overall, the use of the storage module makes a reduction in the total connected load possible and also a smaller dimensioning of the fuse.

MS4210-1023-1114 | System module, EtherCAT power output, EtherCAT, 24 V DC, 48 V DC, 10 A, B17, switchable

MS4210-1023-1114 | System module, EtherCAT power output, EtherCAT, 24 V DC, 48 V DC, 10 A, B17, switchable

The MS4210-1023-1114 MX-System module is a power output for low voltages including EtherCAT communication. Power and data communication are combined via the single-cable solution using B17 hybrid connectors. Up to 10 A each at 24 V and 48 V can be distributed to supply a remote control unit. The voltages are separately switchable and the output currents are measured.

MS4306-1903-1111 | System module, EtherCAT power output, 1-port EtherCAT P, 24 V DC, 6 A, M8, safe shutdown

MS4306-1903-1111 | System module, EtherCAT power output, 1-port EtherCAT P, 24 V DC, 6 A, M8, safe shutdown

The module MS4306-1900-1111 is an EtherCAT power output for control voltages incl. EtherCAT communication. Power and data communication run combined via the EtherCAT-P single cable solution via M8 connector. Up to 6 A (2 x 3 A) on 24 V can be distributed to supply a remote control unit. The voltage can be switched off safely.

MS4306-2903-1111 | System module, EtherCAT power output, 2-port EtherCAT P, 24 V DC, 6 A, M8, safe shutdown

MS4306-2903-1111 | System module, EtherCAT power output, 2-port EtherCAT P, 24 V DC, 6 A, M8, safe shutdown

The module MS4306-2900-1111 is an EtherCAT power output for control voltages incl. EtherCAT communication. Power and data communication run combined via the EtherCAT-P single cable solution via M8 connector. Up to 6 A (2x 3 A each) at 24 V can be distributed via the two connections to supply a remote control unit. The voltages can be safely switched off in each case.

MS6010-2100-2240 | System module, power supply, 48 V DC, 10 A, 400 V AC, Power Factor Correction

MS6010-2100-2240 | System module, power supply, 48 V DC, 10 A, 400 V AC, Power Factor Correction

The MS4110-4800-2240 is a three-phase, 48 V DC power supply with an output current of 10 A and an output power of 480 W. On the input side, the device features a wide-range input, active power factor correction (PFC) and inrush current limitation. The output behavior and the output power are individually adjustable.

MS6010-2100-2250 | System module, power supply, 48 V DC, 10 A, 600 V DC, Power Factor Correction

MS6010-2100-2250 | System module, power supply, 48 V DC, 10 A, 600 V DC, Power Factor Correction

The MS4110-4800-2250 module is a 600 V DC power supply with an output voltage of 48 V DC and an output current of 10 A at an output power of 480 W. On the input side, the device features a wide-range input, active power factor correction (PFC) and inrush current limitation. The output behavior and the output power are individually adjustable.

MS6018-1100-2240 | System module, power supply, 24 V DC, 18 A, 400 V AC, Power Factor Correction

MS6018-1100-2240 | System module, power supply, 24 V DC, 18 A, 400 V AC, Power Factor Correction

The MS4118-2400-2240 is a three-phase, 24 V DC power supply with an output current of 18 A and an output power of 432 W. On the input side, the device features a wide-range input, active power factor correction (PFC) and inrush current limitation. The output behavior and the output power are individually adjustable.

MS6018-1100-2250 | System module, power supply, 24 V DC, 18 A, 600 V DC, Power Factor Correction

MS6018-1100-2250 | System module, power supply, 24 V DC, 18 A, 600 V DC, Power Factor Correction

The MS4118-2400-2250 is a 600 V DC power supply with an output voltage of 24 V DC and an output current of 18 A at an output power of 432 W. On the input side, the device features a wide-range input, active power factor correction (PFC) and inrush current limitation. The output behavior and the output power are individually adjustable.

MS6020-2100-2240 | System module, power supply, 48 V DC, 20 A, 400 V AC, Power Factor Correction

MS6020-2100-2240 | System module, power supply, 48 V DC, 20 A, 400 V AC, Power Factor Correction

The MS4120-4800-2240 module is a 3-phase, 48 V DC power supply with an output current of 20 A and an output power of 960 W. On the input side, the device features a wide-range input, active power factor correction (PFC) and inrush current limitation. The output behavior and the output power are individually adjustable.

MS6020-2100-2250 | System module, power supply, 48 V DC, 20 A, 600 V DC, Power Factor Correction

MS6020-2100-2250 | System module, power supply, 48 V DC, 20 A, 600 V DC, Power Factor Correction

The MS4120-4800-2250 module is a 600 V DC power supply with an output voltage of 48 V DC and an output current of 20 A at an output power of 960 W. On the input side, the device features a wide-range input, active power factor correction (PFC) and inrush current limitation. The output behavior and the output power are individually adjustable.

MS7204-0000-1112 | System module, 4-port switch, Ethernet, 1 Gbit/s, M12, X-coded

MS7204-0000-1112 | System module, 4-port switch, Ethernet, 1 Gbit/s, M12, X-coded

The MS7204-0000-1112 switch module provides four Ethernet ports for decentralized connection of any Ethernet nodes in a network. With a transmission speed of 1 Gbit/s, it forwards incoming Ethernet frames directly to the target ports.

MS8132-0120-1212 | System module, PC UPS, 0.12 kW, M12, with 2 x PC/panel connection

MS8132-0120-1212 | System module, PC UPS, 0.12 kW, M12, with 2 x PC/panel connection

The MS8132-0120-1212 UPS module monitors the 24 V control voltage and detects an undervoltage. In the event of undervoltage, the M12 connectors on the front are powered from the battery. This means that an IPC module as well as an operating panel can be simultaneously supplied with 24 V. Port X1 has the Beckhoff OCT-UPS interface and is able to communicate with a corresponding device via this interface.

MS9230-1011-2109 | System module, baseplate expansion, EtherCAT, 24 V DC, 48 V DC, 400 V AC and 600 V DC

MS9230-1011-2109 | System module, baseplate expansion, EtherCAT, 24 V DC, 48 V DC, 400 V AC and 600 V DC

The MS9230-1011-2109 system module offers the possibility to extend a 2-row baseplate by 300 mm and to integrate electronic modules into the MX-System without having to use an external unit.

MO1008-0000-1111 | I/O module, 8-channel digital input, 24 V DC, M8

MO1008-0000-1111 | I/O module, 8-channel digital input, 24 V DC, M8

The MO1008-0000-1111 module with eight digital inputs acquires the binary control signals from the process level and transmits them, in an electrically isolated form, to the controller. The state of the signals is indicated at the display. The signals are connected via M8 screw type connectors.

MO1008-0000-1112 | I/O module, 8-channel digital input, 24 V DC, M12

MO1008-0000-1112 | I/O module, 8-channel digital input, 24 V DC, M12

The MO1008-0000-1112 module with eight digital inputs acquires the binary control signals from the process level and transmits them, in an electrically isolated form, to the controller. The state of the signals is indicated at the display. The signals are connected via M12 screw type connectors.

MO1034-0000-1112 | I/O module, 4-channel digital input, 24 V DC, potential-free, M12

MO1034-0000-1112 | I/O module, 4-channel digital input, 24 V DC, potential-free, M12

The MO1034-0000-1112 digital input module 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 module has four channels that indicate their signal state via light emitting diodes.

MO1088-0000-1111 | I/O module, 8-channel digital input, 24 V DC, ground switching, M8

MO1088-0000-1111 | I/O module, 8-channel digital input, 24 V DC, ground switching, M8

The MO1088-0000-1111 digital input module acquires the binary control signals from the process level and transmits them, in an electrically isolated form, to the higher-level automation unit. The module has eight channels that indicate their signal state via light emitting diodes.

MO1254-0000-1112 | I/O module, 4-channel digital input, 24 V DC, 1 µs, M12, timestamp

MO1254-0000-1112 | I/O module, 4-channel digital input, 24 V DC, 1 µs, M12, timestamp

The MO1254-0000-1112 digital input module acquires the fast binary 24 V control signals from the process level and transmits them, in an electrically isolated form, to the controller. The module has four channels that indicate their signal state via light emitting diodes. The signals are furnished with a time stamp that identifies the time of the last edge change with a resolution of 1 ns. With this XFC technology, signal characteristics 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.

MO1512-0000-1112 | I/O module, 2-channel digital input, counter, 24 V DC, 1 kHz, M12

MO1512-0000-1112 | I/O module, 2-channel digital input, counter, 24 V DC, 1 kHz, M12

The MO1512-0000-1112 module is an up/down counter and transmits the counter value in an electrically isolated form to the higher-level automation device. When used as a single-channel up/down counter (32-bit), the pulse is set via the clock input; the counting direction is specified via the U/D input. Furthermore, the input can also be used as a gate input for triggering the counter. In 2-counter mode, two separate counters are available (Clock and Clock1 inputs), which can be parameterized as up or down counters. The signal states of the inputs are indicated by light emitting diodes. The MO1512-0000-1112 is particularly suitable for simple counting tasks such as the connection of a flow meter.

MO2008-0000-1111 | I/O module, 8-channel digital output, 24 V DC, 0.5 A, M8

MO2008-0000-1111 | I/O module, 8-channel digital output, 24 V DC, 0.5 A, M8

The MO2008-0000-1111 is intended for processing digital/binary signals. It switches the binary control signals from the automation device to the actuators at the process level. The 8 outputs each process an output current of up to max. 0.5 A. A short-term overload is possible. The outputs are short-circuit proof. The total current of all outputs is limited to 4 A. The signal state of the channels is indicated by the display. The signals are connected via M8 screw type connectors. Each output channel reports an open load or short-circuit error to the PLC via diagnostic. This diagnostic feature can be switched off channel by channel. Module-related undervoltage detection of the supply voltage takes place.

MO2008-0000-1112 | I/O module, 8-channel digital output, 24 V DC, 0.5 A, M12

MO2008-0000-1112 | I/O module, 8-channel digital output, 24 V DC, 0.5 A, M12

The MO2008-0000-1112 is intended for processing digital/binary signals. It switches the binary control signals from the automation device to the actuators at the process level. The 8 outputs each process an output current of up to max. 0.5 A. A short-term overload is possible. The outputs are short-circuit proof. The total current of all outputs is limited to 4 A. The signal state of the channels is indicated by the display. The signals are connected via M12 screw type connectors. Each output channel reports an open load or short-circuit error to the PLC via diagnostic. This diagnostic feature can be switched off channel by channel. Module-related undervoltage detection of the supply voltage takes place.

MO2024-0000-1112 | I/O module, 4-channel digital output, 24 V DC, 2 A, M12

MO2024-0000-1112 | I/O module, 4-channel digital output, 24 V DC, 2 A, M12

The MO2024-0000-1112 is intended for processing digital/binary signals. It switches the binary control signals from the automation device to the actuators at the process level. The 4 outputs each process an output current of up to max. 2 A. A short-term overload is possible. The outputs are short-circuit proof. The signal state of the channels is indicated by the display. The signals are connected via M12 screw type connectors. Each output channel reports an open load or short-circuit error to the PLC via diagnostic. This diagnostic feature can be switched off channel by channel. Module-related undervoltage detection of the supply voltage takes place.

MO2088-0000-1111 | I/O module, 8-channel digital output, 24 V DC, 0.5 A, ground switching, M8

MO2088-0000-1111 | I/O module, 8-channel digital output, 24 V DC, 0.5 A, ground switching, M8

The MO2088-0000-1111 digital output module connects the binary 24 V DC control signals from the automation device on to the actuators at the process level with electrical isolation. The module contains eight channels whose signal state is indicated by LEDs.

MO2252-0000-1112 | I/O module, 2-channel digital output, 24 V DC, 0.5 A, M12, timestamp

MO2252-0000-1112 | I/O module, 2-channel digital output, 24 V DC, 0.5 A, M12, timestamp

The MO2252-0000-1112 digital output module connects the binary control output signals at the process level with electrical isolation. The outputs of the module are switched with high precision to match the transferred timestamp, which has a resolution of 10 ns. This technology enables output switching times to be specified precisely across the system. The distributed clocks are used for reference.

MO5162-0000-1112 | I/O module, 2-channel encoder interface, incremental, 24 V DC HTL, 100 kHz, M12, 2 x ABC

MO5162-0000-1112 | I/O module, 2-channel encoder interface, incremental, 24 V DC HTL, 100 kHz, M12, 2 x ABC

The MO5162-0000-1112 is an interface for the connection of two 24 V incremental encoders (24 V HTL) with A, B and C track. Input frequencies up to 100 kHz can be evaluated. Two additional 24 V digital inputs per channel are available for saving, locking and setting the counter value. Furthermore, there is an option to set the counter value to a specified value or to lock the counter directly via the process data. Alternatively, the MO5162-0000-1112 can be used as an up/down counter. The encoder can be supplied with 24 V directly via the connection points of the module.

MO3501-0008-1112 | I/O module, 1-channel analog input, measuring bridge, full bridge, 24 bit, 20 ksps, M12

MO3501-0008-1112 | I/O module, 1-channel analog input, measuring bridge, full bridge, 24 bit, 20 ksps, M12

The MO3501-0008-1112 is designed for the evaluation of measuring bridges in full-bridge configuration. It features an adjustable bridge supply and extensive self-test and connection test methods. All parameters can be set in the CoE. This allows weighing processes and load measurements with strain gauges to be carried out with high accuracy and sampling rate.

MO2262-0000-1112 | I/O module, 2-channel digital output, 24 V DC, 0.5 A, M12, oversampling

MO2262-0000-1112 | I/O module, 2-channel digital output, 24 V DC, 0.5 A, M12, oversampling

The MO2262-0000-1112 digital output module connects the binary control output signals at the process level with electrical isolation. The outputs are controlled with an adjustable integral multiple (oversampling factor: n) of the bus cycle frequency (n microcycles per bus cycle). For each bus cycle, the module receives a process data block that is output consecutively. The timebase of the module can be synchronized precisely with other EtherCAT devices via distributed clocks. An output pattern with a significantly higher pulse sequence than the bus cycle time is thus output precisely with the system-wide timebase. This procedure enables the temporal resolution of the digital output signals to be increased to n times the bus cycle time. The maximum output rate is 1 Msamples/s.

MO2502-0000-1112 | I/O module, 2-channel PWM output, 24 V DC, 0.5 A, M12

MO2502-0000-1112 | I/O module, 2-channel PWM output, 24 V DC, 0.5 A, M12

The MO2502-0000-1112 output module modulates the pulse width of a binary signal, and outputs it electrically isolated. The mark/space ratio is preset by a 16-bit value from the automation device. The output stage is protected against overload and short-circuit. The module contains two channels whose signal state is indicated by LEDs. The LEDs are driven in time with the outputs, and show the duty factor by their brightness.

MO2262-0000-1112 | I/O module, 2-channel digital output, 24 V DC, 0.5 A, M12, oversampling

MO2262-0000-1112 | I/O module, 2-channel digital output, 24 V DC, 0.5 A, M12, oversampling

The MO2262-0000-1112 digital output module connects the binary control output signals at the process level with electrical isolation. The outputs are controlled with an adjustable integral multiple (oversampling factor: n) of the bus cycle frequency (n microcycles per bus cycle). For each bus cycle, the module receives a process data block that is output consecutively. The timebase of the module can be synchronized precisely with other EtherCAT devices via distributed clocks. An output pattern with a significantly higher pulse sequence than the bus cycle time is thus output precisely with the system-wide timebase. This procedure enables the temporal resolution of the digital output signals to be increased to n times the bus cycle time. The maximum output rate is 1 Msamples/s.

MO2338-0000-1112 | I/O module, 8-channel digital combi, 24 V DC, 0.5 A, M12

MO2338-0000-1112 | I/O module, 8-channel digital combi, 24 V DC, 0.5 A, M12

The MO2338-0000-1112 has eight digital channels, each of which can be operated as inputs or outputs. No configuration is required; the input circuitry is internally hardwired to the output driver, so a set output is automatically indicated in the input process image. The inputs have a wire break detection which can be activated or deactivated per channel. The outputs each process an output current of up to max. 0.5 A. A short-term overload is possible. The outputs are short-circuit proof. The signal state of the channels is indicated by the display. The signals are connected via M12 screw type connectors. A possible short circuit at the outputs is signaled to the PLC via diagnostics Each output channel reports an open load or short-circuit error to the PLC via diagnostic. This diagnostic feature can be switched off channel by channel. Module-related undervoltage detection of the supply voltage takes place.

MO2521-0124-1112 | I/O module, 1-channel pulse train output, incr. enc. simulation, 24 V DC, 1 A, M12, with capture/compare input/ouput

MO2521-0124-1112 | I/O module, 1-channel pulse train output, incr. enc. simulation, 24 V DC, 1 A, M12, with capture/compare input/ouput

The MO2521-0124-1112 output module changes the frequency of a binary signal and output it electrically isolated. The frequency is preset by a 16 bit value from the automation device. The signal state of the module is indicated by light emitting diodes. The LEDs are clocked with the outputs and each displays an active output.

MO2596-0000-1112 | I/O module, 1-channel LED output, 24 V DC, 3 A, M12

MO2596-0000-1112 | I/O module, 1-channel LED output, 24 V DC, 3 A, M12

The MO2596-0000-1112 LED strobe control module contains a flexible power supply unit that supplies the LED with the required current and voltage. Applications from continuous light to short light pulses in the kHz range are thus possible. Each individual flash can be triggered in a controlled manner by the control system via the distributed clocks/timestamp function. The MO2596-0000-1112 has a trigger output for triggering cameras and high-quality, fast current and voltage control, so that line scan cameras, for example, also benefit from constant illumination. Extensive real-time diagnostics, e.g. for input current/voltage and output current/voltage allow detailed monitoring of the LED light intensity. Thus, overdrive applications with short high-current pulses through the LED are possible. If a specifiable load corridor is exited, e.g., due to load errors, the MO2596-0000-1112 switches off to protect the LED (resettable).

MO2624-0000-1112 | I/O module, 4-channel relay output, 125 V AC, 30 V DC, 0.5 A AC, 2 A DC, M12

MO2624-0000-1112 | I/O module, 4-channel relay output, 125 V AC, 30 V DC, 0.5 A AC, 2 A DC, M12

The MO2624-0000-1112 output module has four relays, each with a single contact. The relay contact can be used up to 125 V AC or 30 V DC. The signal state of the module is indicated by light emitting diodes. The MO2624-0000-1112 features potential-free contacts.

MO3004-2255-1112 | I/O module, 2-channel analog input + 2-channel analog combi, multi-function, ±10 V, ±20 mA, 12 bit, single-ended, 1 ksps, M12

MO3004-2255-1112 | I/O module, 2-channel analog input + 2-channel analog combi, multi-function, ±10 V, ±20 mA, 12 bit, single-ended, 1 ksps, M12

The MO3004-2255-1112 offers two flexible analog channels for simple automation tasks. As MO30xx it is suitable for standard tasks with 12 bit resolution, 1 ksps sampling rate and 0.3% measurement uncertainty.

MO3114-2233-1112 | I/O module, 2-channel analog input + 2-channel analog output, multi-function, ±200 mV…±30 V, ±20 mA, ±50 mA, 16 bit, single-ended, 10 ksps, galvanically isolated, M12

MO3114-2233-1112 | I/O module, 2-channel analog input + 2-channel analog output, multi-function, ±200 mV…±30 V, ±20 mA, ±50 mA, 16 bit, single-ended, 10 ksps, galvanically isolated, M12

The MO3113-0223-1112 offers 3 flexibly applicable analog channels for demanding automation tasks. As MO31xx module it is equipped with 16-bit resolution, 10 ksps sampling rate per channel and 0.1% measurement/output uncertainty and offers 2 analog inputs (±200 mV...30 V/±20/50 mA) and 1 analog output (±10 V/±20 mA). The main difference between the MO311x and the MO310x concerns the galvanically isolated inputs in case differential measurements have to be made on different potentials. Input and output are routed via the same M12 connection. This allows measurement and control tasks to be performed simultaneously on one module. All settings are made via EtherCAT from the controller, status information is displayed on the module via LED. The 24 V sensor supply can be provided from the module if required.

MO3204-6666-1112 | I/O module, 4-channel analog input, temperature, RTD/TC, 16 bit, 1 ksps, M12

MO3204-6666-1112 | I/O module, 4-channel analog input, temperature, RTD/TC, 16 bit, 1 ksps, M12

The MO3204-6666-1112 allows the direct connection of up to 4 temperature sensors. The module can measure resistance and voltage in the specified measuring ranges for each channel so that all RTD sensors (Pt100, Pt1000, ...) and thermocouples (type K, J, ...) matching the measuring range can be connected. The measured value (resistance or voltage) can be output directly via EtherCAT or converted directly by the module into the temperature at the measuring point via the transformation selectable in the CoE.

MO3601-0007-1112 | I/O module, 1-channel analog input, IEPE/accelerometer, 24 bit, 20 ksps, M12

MO3601-0007-1112 | I/O module, 1-channel analog input, IEPE/accelerometer, 24 bit, 20 ksps, M12

The MO3601-0007-1112 is designed for the evaluation of IEPE sensors, which are mainly used for vibration diagnosis and acoustics. All parameters can be set on a channel-by-channel basis, such as the constant current supply, which can be set to 0/2/4 mA. When the constant current supply is switched off, normal voltage measurement is also possible. The input characteristic is flexibly adjustable from DC to 10 Hz in the CoE. The module basically measures AC/DC voltage, but the internal scaler function can be used if, for example, an output in acceleration [m/s²] is desired.

MO4004-1122-1112 | I/O module, 2-channel analog combi + 2-channel digital combi, 24 V DC, 0.5 A, multi-function, ±10 V, ±20 mA, 12 bit, single-ended, 1 ksps, M12

MO4004-1122-1112 | I/O module, 2-channel analog combi + 2-channel digital combi, 24 V DC, 0.5 A, multi-function, ±10 V, ±20 mA, 12 bit, single-ended, 1 ksps, M12

The MO4004-1122-1112 is a universal module for typical I/O standard signals. Each channel simultaneously provides digital function (24 V DC) and analog function (10 V or 20 mA), either as output or input.

MO5001-0000-1112 | I/O module, 1-channel encoder interface, SSI, M12

MO5001-0000-1112 | I/O module, 1-channel encoder interface, SSI, M12

The MO5001-0000-1112 is an SSI master and enables the direct connection of an absolute encoder with SSI (synchronous serial interface). Both singleturn and multiturn encoders are supported. The 24 V supply of the encoder can be provided directly via the module connection points. Extensive parameterization allow optimum adaptation to different encoder types.

MO5021-0000-1112 | I/O module, 1-channel encoder interface, SinCos, 1 VPP, M12

MO5021-0000-1112 | I/O module, 1-channel encoder interface, SinCos, 1 VPP, M12

The MO5021-0000-1112 is used for the direct connection of a measuring probe or encoder with sinusoidal, differential voltage output 1 VPP. Input frequencies of max. 250 kHz can be evaluated. The current counter reading can be zeroed (reset) or stored separately via the C track of the encoder, which is also called reference mark. The 5 V supply to the encoder is provided directly via module connection points. The MO5021-0000-1112 features amplitude and frequency error detection of the input signals.

MO5112-0000-1112 | I/O module, 2-channel encoder interface, incremental, 5 V DC (DIFF RS422, TTL, open collector), 5 MHz, M12, 2 x AB/1 x ABC

MO5112-0000-1112 | I/O module, 2-channel encoder interface, incremental, 5 V DC (DIFF RS422, TTL, open collector), 5 MHz, M12, 2 x AB/1 x ABC

The MO5112-0000-1112 is an interface for the direct connection of two incremental encoders with A and B track or one encoder with A, B and C track. Encoders with differential signals (RS422) or single-ended signals (TTL and Open Collector) can be connected. Input frequencies up to 5 MHz can be processed. In 2-channel mode, one 24 V digital input per channel is available for storing, blocking and setting the counter status; in 1-channel operation, both inputs can be used. It is also possible to set the counter to a predefined value or to lock the counter directly through the process data. The 5 V, 12 V or 24 V supply of the encoder can be provided directly via the terminal connection points.

MO6910-0000-1110 | I/O module, communication interface, TwinSAFE, TwinSAFE Logic

MO6910-0000-1110 | I/O module, communication interface, TwinSAFE, TwinSAFE Logic

The MO6910-0000-1110 module represents the new generation of dedicated safety controllers and migrates the functionality of the EL6910 EtherCAT Terminal to an MX module. While the EL6900 as its predecessor provided only function blocks based on Boolean values, the EL6910 offers a wide variety of certified function blocks that enable the safe processing of analog values and thus the implementation of even more complex safety applications.

MO2962-0000-1112 | I/O module, 2-channel relay output, 24 V DC, M12, TwinSAFE, TwinSAFE Logic

MO2962-0000-1112 | I/O module, 2-channel relay output, 24 V DC, M12, TwinSAFE, TwinSAFE Logic

The MO2962-0000-1112 TwinSAFE component provides two safe relay outputs. The outputs are controlled by a TwinSAFE Logic-capable component via FSoE. The module has safety parameters to specifically adapt the functionality to the respective safety requirements (e.g. testing of the individual channels).

MO2934-0000-1112 | I/O module, 4-channel digital output, 24 V DC, 2 A, M12, TwinSAFE, TwinSAFE Logic

MO2934-0000-1112 | I/O module, 4-channel digital output, 24 V DC, 2 A, M12, TwinSAFE, TwinSAFE Logic

The MO2934-0000-1112 TwinSAFE component provides four safe digital outputs (four outputs for 24 V DC actuators with up to 2 A). The outputs are controlled by a TwinSAFE Logic-capable component via FSoE. The module has safety parameters to specifically adapt the functionality to the respective safety requirements (e.g. testing of the individual channels).

MO2904-0000-1112 | I/O module, 4-channel digital output, 24 V DC, 0.5 A, M12, TwinSAFE, TwinSAFE Logic

MO2904-0000-1112 | I/O module, 4-channel digital output, 24 V DC, 0.5 A, M12, TwinSAFE, TwinSAFE Logic

The MO2904-0000-1112 TwinSAFE component provides four safe digital outputs (four outputs for 24 V DC actuators with up to 0.5 A). The outputs are controlled by a TwinSAFE Logic-capable component via FSoE. The module has safety parameters to specifically adapt the functionality to the respective safety requirements (e.g. testing of the individual channels).

MO1918-0000-1112 | I/O module, 8-channel digital input, 24 V DC, 0.5 A, M12, TwinSAFE, TwinSAFE Logic

MO1918-0000-1112 | I/O module, 8-channel digital input, 24 V DC, 0.5 A, M12, TwinSAFE, TwinSAFE Logic

The MO1938-0000-1112 TwinSAFE component provides safe digital inputs and outputs (outputs with up to 0.5 A). The module also has eight fail-safe inputs for sensors with potential-free contacts for 24 V DC.

MO7342-0000-1122 | I/O module, 2-channel motion interface, DC motor, 48 V DC, 3.5 A, M12, with incremental encoder

MO7342-0000-1122 | I/O module, 2-channel motion interface, DC motor, 48 V DC, 3.5 A, M12, with incremental encoder

The MO7342-0000-1122 enables direct operation of two 48 V DC motors. The speed or position is specified by the automation device via a 16 bit value. Connection of an incremental encoder enables a simple servo axis to be realized. The output stage is protected against overload and short-circuit, the common thermal overload warning applies to both output stages together. The module has two channels that indicate their signal state via light emitting diodes. The LEDs enable quick local diagnosis.

MO7342-0000-1112 | I/O module, 2-channel motion interface, DC motor, 24 V DC, 3.5 A, M12, with incremental encoder

MO7342-0000-1112 | I/O module, 2-channel motion interface, DC motor, 24 V DC, 3.5 A, M12, with incremental encoder

The MO7342-0000-1112 enables direct operation of two 24 V DC motors. The speed or position is specified by the automation device via a 16 bit value. Connection of an incremental encoder enables a simple servo axis to be realized. The output stage is protected against overload and short-circuit, the common thermal overload warning applies to both output stages together. The module has two channels that indicate their signal state via light emitting diodes. The LEDs enable quick local diagnosis.

MO7221-9018-1124 | I/O module, 1-channel motion interface, servomotor, 48 V DC, 7 A, B17, OCT, Safe Motion

MO7221-9018-1124 | I/O module, 1-channel motion interface, servomotor, 48 V DC, 7 A, B17, OCT, Safe Motion

The MO7221-9018-1124 servomotor module with integrated absolute value interface offers high servo performance in a very compact design. The fast control technology, based on field-orientated current and PI speed control, supports fast and highly dynamic positioning tasks. The monitoring of numerous parameters, such as overvoltage and undervoltage, overcurrent, module temperature or motor load via the calculation of a I²T model, offers maximum operational reliability.

MO7221-9018-1114 | I/O module, 1-channel motion interface, servomotor, 24 V DC, 7 A, B17, OCT, Safe Motion

MO7221-9018-1114 | I/O module, 1-channel motion interface, servomotor, 24 V DC, 7 A, B17, OCT, Safe Motion

The MO7221-9018-1114 servomotor module with integrated absolute value interface offers high servo performance in a very compact design. The fast control technology, based on field-orientated current and PI speed control, supports fast and highly dynamic positioning tasks. The monitoring of numerous parameters, such as overvoltage and undervoltage, overcurrent, module temperature or motor load via the calculation of a I²T model, offers maximum operational reliability.

MO7221-9016-1124 | I/O module, 1-channel motion interface, servomotor, 48 V DC, 7 A, B17, OCT, STO/SS1

MO7221-9016-1124 | I/O module, 1-channel motion interface, servomotor, 48 V DC, 7 A, B17, OCT, STO/SS1

The MO7221-9016-1124 servomotor module with integrated absolute value interface offers high servo performance in a very compact design. The fast control technology, based on field-orientated current and PI speed control, supports fast and highly dynamic positioning tasks. The monitoring of numerous parameters, such as overvoltage and undervoltage, overcurrent, module temperature or motor load via the calculation of a I²T model, offers maximum operational reliability.

MO7221-9016-1114 | I/O module, 1-channel motion interface, servomotor, 24 V DC, 7 A, B17, OCT, STO/SS1

MO7221-9016-1114 | I/O module, 1-channel motion interface, servomotor, 24 V DC, 7 A, B17, OCT, STO/SS1

The MO7221-9016-1114 servomotor module with integrated absolute value interface offers high servo performance in a very compact design. The fast control technology, based on field-orientated current and PI speed control, supports fast and highly dynamic positioning tasks. The monitoring of numerous parameters, such as overvoltage and undervoltage, overcurrent, module temperature or motor load via the calculation of a I²T model, offers maximum operational reliability.

MO7062-9016-1122 | I/O module, 2-channel motion interface, stepper motor, 48 V DC, 3 A, M12, with incremental encoder, STO

MO7062-9016-1122 | I/O module, 2-channel motion interface, stepper motor, 48 V DC, 3 A, M12, with incremental encoder, STO

The MO7062-9016-1122 module is intended for the direct connection of two 48 V stepper motors in the mid power range up to 3 A. Through parameterization, the module can be adjusted to the motor and the application requirements. Extremely high micro-stepping ensures particularly quiet and precise motor operation.

MO7062-9016-1112 | I/O module, 2-channel motion interface, stepper motor, 24 V DC, 3 A, M12, with incremental encoder, STO

MO7062-9016-1112 | I/O module, 2-channel motion interface, stepper motor, 24 V DC, 3 A, M12, with incremental encoder, STO

The MO7062-9016-1112 module is intended for the direct connection of two 24 V stepper motors in the mid power range up to 3 A. Through parameterization, the module can be adjusted to the motor and the application requirements. Extremely high micro-stepping ensures particularly quiet and precise motor operation.

MO6695-0000-1112 | I/O module, communication interface, EtherCAT bridge, M12, D-coded

MO6695-0000-1112 | I/O module, communication interface, EtherCAT bridge, M12, D-coded

The MO6695-0000-1112 EtherCAT bridge module enables real-time data exchange between EtherCAT Terminal strands with different masters. Asynchronous communication via AoE, FoE, EoE, NPI, etc. is also supported. Synchronization of distributed clocks is possible in both directions. The MO6695-0000-1112 is based on the EL6692 and therefore offers a flexible CoE configuration, a device emulation option and a significant increase in data throughput. A convenient configuration interface is available in the TwinCAT System Manager, as with the EL6692. The bridge module can also be used for integrating a subordinate PC system as an EtherCAT slave.

MO6652-0000-1112 | I/O module, 2-port communication interface, EtherNet/IP, scanner, M12, D-coded

MO6652-0000-1112 | I/O module, 2-port communication interface, EtherNet/IP, scanner, M12, D-coded

The MO6652-0000-1112 EtherNet/IP-Master module (scanner) has a switched 2-port Ethernet connection and can thus be operated in a line with further Ethernet/IP nodes. The process data are configured by an EtherCAT master, allowing different process data and different sizes. The MO6652-0000-1112 supports both multicast and unicast connections. Up to 16 simple EtherNet/IP-Slave devices can be connected via one generic node.

MO6631-0000-1112 | I/O module, 2-port communication interface, PROFINET RT, controller, M12, D-coded

MO6631-0000-1112 | I/O module, 2-port communication interface, PROFINET RT, controller, M12, D-coded

The MO6631-0000-1112 PROFINET RT controller (master) module supports the complete real-time function (RT) as well as extensive diagnostic possibilities. All services in accordance with Conformance Class B are supported. Up to 15 PROFINET RT devices can be projected on the module.

MO6224-0039-1112 | I/O module, 4-channel communication interface, IO-Link, master, Class B, M12, TwinSAFE

MO6224-0039-1112 | I/O module, 4-channel communication interface, IO-Link, master, Class B, M12, TwinSAFE

The MO6224-0039-1112 IO-Link module enables the connection of up to four IO-Link devices. These can be actuators, sensors or a combination of both. An additional supply voltage is available on the Class B ports for IO-Link devices with higher power requirements. The connection to the field devices is made via a point-to-point connection. For this purpose, the module has an M12 output socket for each channel.

MO6224-0020-1112 | I/O module, 4-channel communication interface, IO-Link, master, Class A, M12

MO6224-0020-1112 | I/O module, 4-channel communication interface, IO-Link, master, Class A, M12

The MO6224-0020-1112 IO-Link module enables the connection of up to four IO-Link devices. These can be actuators, sensors or a combination of both. The connection to the field devices is made via a point-to-point connection. For this purpose, the module has an M12 output socket for each channel.

MO6022-0000-1112 | I/O module, 2-channel communication interface, serial, RS422/RS485, M12, B-coded

MO6022-0000-1112 | I/O module, 2-channel communication interface, serial, RS422/RS485, M12, B-coded

The MO6022-0000-1112 serial interface enables the connection of devices with two RS422/RS485 interfaces. The devices connected to the module communicate with the automation device via the Coupler. The active communication channel operates independently of the higher-level EtherCAT system in full duplex mode with 300 baud up to 115.2 kbaud. The RS422/RS485 interfaces guarantee high interference immunity through electrically isolated signals.