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- Part Number
- Description
- Availability
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- X67DM1321.L08
- This module is equipped with 16 digital channels that can be configured either as inputs or outputs. The inputs are designed for a sink circuit, and the outputs are designed for a source circuit.
- Available
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- X67DM1321.L12
- This module is equipped with 16 digital channels that can be configured either as inputs or outputs. The inputs are designed for a sink circuit, and the outputs are designed for a source circuit.
- Available
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- X67DM1321.L12-1
- This module is equipped with 16 digital channels that can be configured either as inputs or outputs. The inputs are designed for a sink circuit, and the outputs are designed for a source circuit.
- Available
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- X67DM9321
- This module is equipped with 8 digital channels that can be configured either as inputs or outputs. The inputs are designed for a sink circuit, and the outputs are designed for a source circuit. The node number switch for setting the X2X Link address is a unique feature. When modular machine configurations change, it is required, for example, to define certain module groups at a fixed address that is independent of the preceding modules in the line. All subsequent standard modules refer to this offset and use it automatically for addressing purposes.
- Available
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- X67DM9321.L12
- This module is equipped with 16 digital channels that can be configured either as inputs or outputs. The inputs are designed for a sink circuit, and the outputs are designed for a source circuit. The node number switch for setting the X2X Link address is a unique feature. When modular machine configurations change, it is required, for example, to define certain module groups at a fixed address that is independent of the preceding modules in the line. All subsequent standard modules refer to this offset and use it automatically for addressing purposes.
- Available
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- X67DM9331.L12
- This module is equipped with 8 digital channels that can be configured either as inputs or outputs. The inputs are designed for a sink circuit, and the outputs are designed for a source circuit. The outputs can be loaded with up to 2 A. The summation current is 8 A. The node number switch for setting the X2X Link address is a unique feature. When modular machine configurations change, it is required, for example, to define certain module groups at a fixed address that is independent of the preceding modules in the line. All subsequent standard modules refer to this offset and use it automatically for addressing purposes.
- Available
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- X67DO1332
- Digital output module for 24 VDC, equipped with 8 outputs for a source output circuit.
- Available
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- X67DO9332.L12
- The module is a digital output module with 8 channels. The outputs can be loaded with up to 2 A. The summation current is 8 A. The node number switches for setting the X2X Link address are a unique feature. When modular machine configurations change, it is required, for example, to define certain module groups at a fixed address that is independent of the preceding modules in the line. All subsequent standard modules refer to this offset and use it automatically for addressing purposes.
- Available
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- X67DS438A
- The module is an IO-Link master that allows intelligent sensor and actuators to be connected in accordance to the IO-Link standard. The module can be used to operate up to 4 IO-Link devices. All IO-Link channels can also be operated in SIO mode if desired and thus used as digital inputs or outputs. The module also has 4 additional digital inputs, which can be used independent of the IO-Link channel configuration.
- Available
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- X67DV1311.L08
- This module makes it possible to control valve terminals with multi-pin technology. The digital inputs are designed as M8 connectors.
- Available
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- X67HB8880.L12
- The Ethernet hub is a standalone device that can be used universally as a hub in POWERLINK networks. It is suitable for both 100 Mbit/s (Fast Ethernet) and 10 Mbit/s networks. The hub automatically recognizes the transfer speed for the channels. The Ethernet connections are made using D-keyed M12 connectors. All ports are equipped with auto-MDIX (auto-crossover). The module is designed for a voltage range of 8 to 32 VDC and equipped with a power supply protected against load dump.
- Available
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- X67IF1121-1
- Serial interfaces (barcode scanners for example) are often scattered throughout systems. This interface module from the remote X67 system is the optimal choice for this area of application: RS232 and RS485/RS422 connection options directly where they are needed, distributed on the machine or system. In addition, there are digital inputs and outputs on the same module so that corresponding 24 V sensors/actuators can also be connected.
- Available
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- X67MM2436
- This motor bridge module is used to control 2 DC motors with a nominal voltage of 24 to 38.5 VDC ±25% at a nominal current up to 3 A. The module can be reconfigured and used in current controller mode for controlling inductive loads. The module is also equipped with 6 digital inputs, which can be used as incremental counters. Each motor is controlled with a full-bridge (H-bridge). This enables the motors to be moved in both directions.
- Available
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- X67PS1300
- This system supply module converts the 24 VDC I/O supply voltage into the electrically isolated X2X Link power supply. The module provides 15 W of output power for additional X67 modules on the bus.
- Available
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- X67SC4122.L12
- The module is equipped with 8 safe digital inputs and 4 safe digital outputs. They are 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. The node number switch for setting the X2X Link address is a unique feature. When modular machine configurations change, it is necessary, for example, to define specific module groups at a fixed address that is independent of the preceding modules in the line. All subsequent standard modules refer to this offset and use it automatically for addressing purposes. 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 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.
- Available
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- X67SI8103
- This module is equipped with 8 safe digital inputs. They are designed for a nominal voltage of 24 VDC. The module can be used to read various digital signals in safety-related applications up to PL e or SIL 3. 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.
- Available
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- X67SM2436
- The stepper motor module is used to control up to 2 stepper motors with a nominal voltage of 24 to 38.5 VDC ±25% at a motor current up to 3 A (5 A peak). In addition, this module has 6 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, boost 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. A stall detection mechanism 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
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- X67SM2446-1
- 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 4 A (8 A peak). In addition, this module has 6 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
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- X67SM4320
- This stepper motor module is used to control up to 4 stepper motors with a rated voltage of 24 VDC ±25% at a motor current up to 1 A (1.5 A peak). By individually adjusting the coil currents, the motor is only operated with the current it actually needs. This simplifies selection of the available motors and prevents unnecessary heating. Because the latter reduces energy consumption and thermal load, the effects are positive on the lifespan of the complete system. Complete flexibility is achieved by using the values for holding current, boost current and continuous current, which are completely independent of each other. The current for microsteps is automatically adjusted to the configured current values. A stall detection mechanism is integrated to analyze the motor load. The stall is recognized using a configurable threshold. This allows an overload or motor standstill to be detected precisely in many different types of applications.
- Available
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- X67UM1352
- This module enables the remote connection of a force gauge using a strain gauge with a converter resolution of up to 24-bit. The data rate can be set from 0.26 ms to 100 ms. This module concept requires compensation in the measurement system. This compensation eliminates the absolute uncertainty in the measurement circuit, such as component tolerances, effective bridge voltage or zero point offset. The measurement precision refers to the absolute (compensated) value, which will only change as a result of changes in the operating temperature. The module is also equipped with 4 digital inputs and 2 digital outputs.
- Available
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- X90AC-BB.12-00
- X90 mobile 120, breakout box template and cable adapter for X90AC-BB.17-00 breakout box, for development and tests
- Available
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- X90AC-BB.17-00
- X90 mobile 170, breakout box for development and tests
- Available
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- X90AC-RP-SC-00
- X90 service access cap replacement part set 1x silicone profile gasket, orange 1x silicone profile gasket, yellow 1x service access cap with ejection function
- Available
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- X90AISG0.02-00
- This module is equipped with 2 inputs for evaluating full-bridge strain gauges and works with 4-wire and 6-wire strain gauge load cells. The concept applied by the module requires compensation in the measurement system. This compensation eliminates the absolute uncertainty in the measurement circuit, such as component tolerances, effective bridge voltage or zero offset. The measurement precision refers to the absolute (compensated) value, which will only change as a result of changes in the operating temperature. Communication to the mainboard is made possible via X2X Link.
- Available
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- X90AO410.04-00
- The AO option board offers 4 additional analog outputs, each of which can be configured as a current or voltage output. Communication to the mainboard is made possible via X2X Link. The pins in use can also be used as digital inputs; it is possible to toggle them between sink mode and source mode.
- Available
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