B&R from Foxmere

- Part Number
- Description
- Availability
- X20SM1426
- The stepper motor module is used to control stepper motors with a rated voltage of 24 VDC at a motor current up to 1 A (1.2 A peak). Additionally, this module has four digital inputs that can be used as limit switches or as encoder inputs. Due to the individual adjustment of the coil currents, the motor is only operated with the current it actually needs. This simplifies the selection of the available motors and prevents unnecessary heating. Because this affects energy consumption and thermal load, the effects are positive on the service life of the complete system. Complete flexibility is achieved through the use of independently adjustable holding, maximum and nominal current values. The current for microsteps is automatically adjusted to the configured current values. The automatic motor identification system is an enormous help during standstills. The stepper motor modules can identify the connected motors using their coil characteristics and generate feedback in the form of an analog value. This makes it possible to detect not only wiring errors, but also incorrect motor types being used mistakenly. "Stall detection" is integrated to analyze the motor load. Detection of the stall is defined via a configurable threshold. This allows an overload or motor standstill to be detected precisely in many different types of applications.
- Available
- X20SM1436
- The stepper motor module is used to control stepper motors with a nominal voltage of 24 to 39 VDC (±25%) at a motor current up to 3 A (3.5 A peak). In addition, this module has 4 digital inputs that can be used as limit switches or encoder inputs. Due to the individual adjustment of the coil currents, the motor is only operated with the current it actually needs. This simplifies the selection of the available motors and prevents unnecessary heating. Because this affects energy consumption and thermal load, the effects are positive on the service life of the complete system. Complete flexibility is achieved through the use of independently adjustable holding, maximum and nominal current values. The current for microsteps is automatically adjusted to the configured current values. The automatic motor identification system is an enormous help during standstills. The stepper motor modules can identify the connected motors using their coil characteristics and generate feedback in the form of an analog value. This makes it possible to detect not only wiring errors, but also incorrect motor types being used mistakenly. "Stall detection" is integrated to analyze the motor load. Detection of the stall is defined via a configurable threshold. This allows an overload or motor standstill to be detected precisely in many different types of applications.
- Available
- X20SM1436-1
- The stepper motor module is used to control stepper motors with a nominal voltage of 24 to 48 VDC (±25%) at a motor current up to 2.5 A (3.5 A peak). In addition, this module has 4 digital inputs that can be used as limit switches or encoder inputs. Due to the individual adjustment of the coil currents, the motor is only operated with the current it actually needs. This simplifies the selection of the available motors and prevents unnecessary heating. Because this affects energy consumption and thermal load, the effects are positive on the service life of the complete system. Complete flexibility is achieved through the use of independently adjustable holding, maximum and nominal current values. The current for microsteps is automatically adjusted to the configured current values. In addition, the module contains a sensorless, load-dependent current control. Depending on the operating situation and load, the module regulates the current downwards. Energy savings up to 75% are possible in this way. The automatic motor identification system is an enormous help during standstills. The stepper motor modules can identify the connected motors using their coil characteristics and generate feedback in the form of an analog value. This makes it possible to detect not only wiring errors, but also incorrect motor types being used mistakenly. "Stall detection" is integrated to analyze the motor load. Detection of the stall is defined via a configurable threshold. This allows an overload or motor standstill to be detected precisely in many different types of applications.
- Available
- X20SM1444-1
- The stepper motor module is used to control stepper motors with a nominal voltage of 24 to 48 VDC (±25%) at a motor current up to 5 A (10 A peak). ABR outputs R+ and R- can also be used as digital inputs. Due to the individual adjustment of the coil currents, the motor is only operated with the current it actually needs. This simplifies the selection of the available motors and prevents unnecessary heating. Because this affects energy consumption and thermal load, the effects are positive on the service life of the complete system. Complete flexibility is achieved through the use of independently adjustable holding, maximum and nominal current values. The current for microsteps is automatically adjusted to the configured current values. In addition, the module contains a sensorless, load-dependent current control. Depending on the operating situation and load, the module regulates the current downwards. Energy savings up to 75% are possible in this way. The automatic motor identification system is an enormous help during standstills. The stepper motor modules can identify the connected motors using their coil characteristics and generate feedback in the form of an analog value. This makes it possible to detect not only wiring errors, but also incorrect motor types being used mistakenly. "Stall detection" is integrated to analyze the motor load. Detection of the stall is defined via a configurable threshold. This allows an overload or motor standstill to be detected precisely in many different types of applications.
- Available
- X20SM1446-1
- The stepper motor module is used to control stepper motors with a nominal voltage of 24 to 48 VDC (±25%) at a motor current up to 5 A (10 A peak). In addition, this module has 4 digital inputs that can be used as limit switches or encoder inputs. Due to the individual adjustment of the coil currents, the motor is only operated with the current it actually needs. This simplifies the selection of the available motors and prevents unnecessary heating. Because this affects energy consumption and thermal load, the effects are positive on the service life of the complete system. Complete flexibility is achieved through the use of independently adjustable holding, maximum and nominal current values. The current for microsteps is automatically adjusted to the configured current values. In addition, the module contains a sensorless, load-dependent current control. Depending on the operating situation and load, the module controls the current downwards. Energy savings up to 75% are possible in this way. The automatic motor identification system is an enormous help during standstills. The stepper motor modules can identify the connected motors using their coil characteristics and generate feedback in the form of an analog value. This makes it possible to detect not only wiring errors, but also incorrect motor types being used mistakenly. "Stall detection" is integrated to analyze the motor load. Detection of the stall is defined via a configurable threshold. This allows an overload or motor standstill to be detected precisely in many different types of applications.
- Available
- X20SO2110
- This module is equipped with 2 safe digital outputs. The nominal output current is 0.5 A. The module can be used for controlling actuators in safety-related applications up to PL e or SIL 3. The outputs are designed using semiconductor technology so that the safety-related characteristics do not depend on the number of operating cycles. The "high-side low-side" variant (output type A) is limited to actuators without reference potential (e.g. relays, valves). Type A outputs have safety-related advantages since the actuator can be cut off in its connection cable in all error scenarios. Safe digital output channels provide protection against automatic restart when network errors occur and also using a current measurement for open circuit detection. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SO2120
- This module is equipped with 2 safe digital outputs. The nominal output current is 2 A. The module can be used for controlling actuators in safety-related applications up to PL e or SIL 3. The outputs are designed using semiconductor technology so that the safety-related characteristics do not depend on the number of operating cycles. The "high-side low-side" variant (output type A) is limited to actuators without reference potential (e.g. relays, valves). Type A outputs have safety-related advantages since the actuator can be cut off in its connection cable in all error scenarios. Safe digital output channels provide protection against automatic restart when network errors occur and also using a current measurement for open circuit detection. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SO2530
- This module is equipped with 2 safe relay outputs. The module can be used for controlling floating actuators in safety-related applications up to PL e or SIL 3. Safety relays are installed in the module. The positively driven feedback contacts are evaluated internally by the module. Safe digital output channels provide protection against automatic restart when network errors occur. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SO4110
- This module is equipped with 4 safe digital outputs. The nominal output current is 0.5 A. The module can be used for controlling actuators in safety-related applications up to PL e or SIL 3. The outputs are designed using semiconductor technology so that the safety-related characteristics do not depend on the number of operating cycles. The "high-side low-side" variant (output type A) is limited to actuators without reference potential (e.g. relays, valves). Type A outputs have safety-related advantages since the actuator can be cut off in its connection cable in all error scenarios. Safe digital output channels provide protection against automatic restart when network errors occur and also using a current measurement for open circuit detection. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SO4120
- This module is equipped with 4 safe digital outputs. The nominal output current is 2 A. The module can be used for controlling actuators in safety-related applications up to PL e or SIL 3. The outputs are designed using semiconductor technology so that the safety-related characteristics do not depend on the number of operating cycles. The "high-side low-side" variant (output type A) is limited to actuators without reference potential (e.g. relays, valves). Type A outputs have safety-related advantages since the actuator can be cut off in its connection cable in all error scenarios. Safe digital output channels provide protection against automatic restart when network errors occur and also using a current measurement for open circuit detection. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SO6300
- This module is equipped with 6 safe digital outputs. The nominal output current is 0.2 A. The module can be used for controlling actuators in safety-related applications up to PL e or SIL 3. The outputs are designed using semiconductor technology so that the safety-related characteristics do not depend on the number of operating cycles. The "high-side high-side" variant (output type B) is required for actuators with reference potential (e.g. Enable inputs on frequency inverters). It is important to observe the special notices for the cabling in this case. Safe digital output channels provide protection against automatic restart when network errors occur. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SO6530
- This module is equipped with 6 safe relay outputs. The module can be used for controlling floating actuators in safety-related applications up to PL e or SIL 3. Safety relays are installed in the module. The positively driven feedback contacts are evaluated internally by the module. Safe digital output channels provide protection against automatic restart when network errors occur. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SP1130
- This module is equipped with 1 safe digital output. The nominal output current is 10 A. The power supply module is used for the internal I/O power supply. A safe digital output channel is integrated in the module for cutting off the I/O power supply of connected X20 modules in safety-related applications up to PL e or SIL 3. The output is designed using semiconductor technology so that the safety-related characteristics do not depend on the number of operating cycles.The "High-side-High-side" variant (output type B) is required for actuators with reference potential (e.g. Enable inputs on frequency inverters). It is important to observe the special notices for the cabling in this case.In addition, the instructions for switching off X20 potential groups must be observed.The safe digital output channel provides protection against automatic restart when network errors occur. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SRT402
- This reACTION Technology module is equipped with 4 high-speed safe digital inputs and 2 high-speed safe digital outputs. It is designed for a nominal voltage of 24 VDC. The module can be used to read in digital signals and to control actuators in safety-related applications up to PL e or SIL 3. Ultrafast reACTION Technology makes it possible to control internal I/O channels with cycle times down to 150 µs. All commands that can be used for reACTION programs are available as function blocks in special libraries (e.g. AsIORTI). Programming in compliance with IEC 61131-3 requirements takes place in the Function Block Diagram editor in Automation Studio. The module is equipped with filters that are individually configurable for switch-on and switch-off behavior. The module also provides pulse signals for diagnosing the sensor line. The outputs are designed using semiconductor technology so that the safety-related characteristics do not depend on the number of switching cycles. The "high-side high-side" variant (output type B) is required for actuators with reference potential (e.g. enable inputs on frequency inverters). It is important to observe the special notices for the cabling in this case. The safe digital output modules are equipped with an error interlock in the event of network errors. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SRT806
- This reACTION Technology module is equipped with 8 high-speed safe digital inputs and 6 high-speed safe digital outputs. It is designed for a nominal voltage of 24 VDC. The module can be used to read in digital signals and to control actuators in safety-related applications up to PL e or SIL 3. Ultrafast reACTION Technology makes it possible to control internal I/O channels with cycle times down to 150 µs. All commands that can be used for reACTION programs are available as function blocks in special libraries (e.g. AsIORTI). Programming in compliance with IEC 61131-3 requirements takes place in the Function Block Diagram editor in Automation Studio. The module is equipped with filters that are individually configurable for switch-on and switch-off behavior. The module also provides pulse signals for diagnosing the sensor line. The outputs are designed using semiconductor technology so that the safety-related characteristics do not depend on the number of switching cycles. The "high-side high-side" variant (output type B) is required for actuators with reference potential (e.g. enable inputs on frequency inverters). It is important to observe the special notices for the cabling in this case. The safe digital output modules are equipped with an error interlock in the event of network errors. This module is designed for X20 12-pin terminal blocks.
- Available
- X20SRT842
- This reACTION Technology module is equipped with 8 high-speed safe digital inputs and 6 high-speed safe digital outputs. It is designed for a nominal voltage of 24 VDC. The module can be used to read in digital signals and to control actuators in safety-related applications up to PL e or SIL 3. Ultrafast reACTION Technology makes it possible to control internal I/O channels with cycle times down to 150 µs. All commands that can be used for reACTION programs are available as function blocks in special libraries (e.g. AsIORTI). Programming in compliance with IEC 61131-3 requirements takes place in the Function Block Diagram editor in Automation Studio. The module is equipped with filters that are individually configurable for switch-on and switch-off behavior. The module also provides pulse signals for diagnosing the sensor line. The outputs are designed using semiconductor technology so that the safety-related characteristics do not depend on the number of switching cycles. The "high-side low-side" variant (output type A) is limited to actuators without reference potential (e.g. relays, valves). Type A outputs have safety-related advantages since the actuator can be cut off in its connection cable in all error scenarios. The "high-side high-side" variant (output type B) is required for actuators with reference potential (e.g. enable inputs on frequency inverters). It is important to observe the special notices for the cabling in this case. The safe digital output modules are equipped with an error interlock in the event of network errors. This module is designed for X20 12-pin terminal blocks.
- Available
- X20ST4492
- The module is equipped with 2 safe analog input pairs for J, K, N, S, R, C and T thermocouple sensors and 1 safe analog input pair for PT100/PT1000 resistance temperature measurement. The safe temperature module is suitable for safely acquiring temperatures for safety-related applications up to PL e or SIL 3. This module is designed for X20 16-pin terminal blocks.
- Available
- X20TB06
- The X20 24 VDC modules are wired using the X20TB06 and X20TB12 terminal blocks.
- Available
- X20TB12
- The X20 24 VDC modules are wired using the X20TB06 and X20TB12 terminal blocks.
- Available
- X20TB1E
- The X20TB1E terminal block is equipped with two integrated PT1000 sensors. It is therefore optimally suited for internal terminal temperature compensation.
- Available
- X20TB1F
- X20 24 VDC modules with 16 connections are wired using the X20TB1F terminal block.
- Available
- X20TB32
- The X20 240 VAC modules are wired using X20TB32 terminal blocks.
- Available
- X20TB52
- This terminal block is used to wire the X20 SafeIO modules with 12 connections.
- Available
- X20TB5E
- This terminal block is equipped with 2 integrated PT1000 sensors. It is therefore ideally suited for internal terminal temperature compensation. This terminal block is used to wire the safe X20 thermocouple modules with 16 connections.
- Available
- X20TB5F
- This terminal block is used to wire the X20 SafeIO modules with 16 connections.
- Available