Showing results: 361 - 375 of 549 items found.
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781985-20 -
NI
8-Bit, 10-Channel PXI Programmable Resistor Module—The PXI‑2720 is a test module that replicates the behavior of resistance-based inputs and outputs such as potentiometers, resistance temperature detectors (RTDs), voltage dividers, and bridge elements. The PXI‑2720 programmatically controls a series of relays to vary the resistance across each channel of an I/O connector. This function is well suited for simulating environmental conditions in hardware‑in‑the‑loop (HIL) validation. The software provides a simple user interface that accepts inputs in units of temperature or resistance and configures the resistance across each channel.
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781986-25 -
NI
8-Bit, 18-Channel PXI Programmable Resistor Module - The PXIe‑2725 is a test module that replicates the behavior of resistance-based inputs and outputs such as potentiometers, resistance temperature detectors (RTDs), voltage dividers, and bridge elements. The PXIe‑2725 programmatically controls a series of relays to vary the resistance across each channel of an I/O connector. This function is well suited for simulating environmental conditions in hardware‑in‑the‑loop (HIL) validation. The software provides a simple user interface that accepts inputs in units of temperature or resistance and configures the resistance across each channel.
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781986-27 -
NI
16-Bit, 9-Channel PXI Programmable Resistor Module - The PXIe‑2727 is a test module that replicates the behavior of resistance-based inputs and outputs such as potentiometers, resistance temperature detectors (RTDs), voltage dividers, and bridge elements. The PXIe‑2727 programmatically controls a series of relays to vary the resistance across each channel of an I/O connector. This function is well suited for simulating environmental conditions in hardware‑in‑the‑loop (HIL) validation. The software provides a simple user interface that accepts inputs in units of temperature or resistance and configures the resistance across each channel.
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781985-22 -
NI
16-Bit, 5-Channel PXI Programmable Resistor Module—The PXI‑2722 is a test module that replicates the behavior of resistance-based inputs and outputs such as potentiometers, resistance temperature detectors (RTDs), voltage dividers, and bridge elements. The PXI‑2722 programmatically controls a series of relays to vary the resistance across each channel of an I/O connector. This function is well suited for simulating environmental conditions in hardware‑in‑the‑loop (HIL) validation. The software provides a simple user interface that accepts inputs in units of temperature or resistance and configures the resistance across each channel.
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40-290-021 -
Pickering Interfaces Ltd.
The 40-290 Series Programmable Resistor Modules comprise a Dual 16-bit or Quad 8-bit resistor chain together with 16 optional SPDT Reed Relays. Connections are made via a front panel SCSI 2 type 68 pin male connector. Programmable resistors may be connected together either in series or in parallel to form many types of configuration.
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40-297A-121 -
Pickering Interfaces Ltd.
The 40-297A-121 (PXI) and the 42-297A-121 (PXIe) are 4-channel programmable resistors with a range of 1.5 Ω to 925 Ω, 0.25 Ω Resolution. They are part of the 40/42-297A series of high density precision resistor modules and provide a simple solution for applications requiring accurate simulation of resistive sensors.
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40-295-021-3/24 -
Pickering Interfaces Ltd.
The 40-295 is a Programmable Resistor module with up to 18 channels of 8-bit resolution resistor chains in a single 3U PXI module. The flexible architecture allows these modules to also be supplied as 12, 16 or 24-bit resolution versions for applications requiring finer resolution, greater resistance range or higher channel count.
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40-297A-050 -
Pickering Interfaces Ltd.
The 40-297A-050 (PXI) and the 42-297A-050 (PXIe) are 6-channel programmable resistors with a range of 3 Ω to 1.51 MΩ. They are part of the 40/42-297A series of high density precision resistor modules and provide a simple solution for applications requiring accurate simulation of resistive sensors.
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40-297A-023 -
Pickering Interfaces Ltd.
The 40-297A-023 (PXI) and the 42-297A-023 (PXIe) are 9-channel programmable resistors with a range of 1.5 Ω to 3.55 kΩ. They are part of the 40/42-297A series of high density precision resistor modules and provide a simple solution for applications requiring accurate simulation of resistive sensors.
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40-296-121-4/16 -
Pickering Interfaces Ltd.
The 40-295 is a Programmable Resistor module with up to 18 channels of 8-bit resolution resistor chains in a single 3U PXI module. The flexible architecture allows these modules to also be supplied as 12, 16 or 24-bit resolution versions for applications requiring finer resolution, greater resistance range or higher channel count.
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40-297A-055 -
Pickering Interfaces Ltd.
The 40-297A-055 (PXI) and the 42-297A-055 (PXIe) are 6-channel programmable resistors with a range of 3 Ω to 43.8 MΩ. They are part of the 40/42-297A series of high density precision resistor modules and provide a simple solution for applications requiring accurate simulation of resistive sensors.
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40-297A-012 -
Pickering Interfaces Ltd.
The 40-297A-012 (PXI) and the 42-297A-012 (PXIe) are 18-channel programmable resistors with a range of 1 Ω to 120 Ω. They are part of the 40/42-297A series of high density precision resistor modules and provide a simple solution for applications requiring accurate simulation of resistive sensors.
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40-297A-032 -
Pickering Interfaces Ltd.
The 40-297A-032 (PXI) and the 42-297A-032 (PXIe) are 9-channel programmable resistors with a range of 2 Ω to 26.7 kΩ. They are part of the 40/42-297A series of high density precision resistor modules and provide a simple solution for applications requiring accurate simulation of resistive sensors.
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40-297A-135 -
Pickering Interfaces Ltd.
The 40-297A-135 (PXI) and the 42-297A-135 (PXIe) are 4-channel programmable resistors with a range of 2 Ω to 201 kΩ. They are part of the 40/42-297A series of high density precision resistor modules and provide a simple solution for applications requiring accurate simulation of resistive sensors.