Pickering Interfaces Ltd.

Pickering Interfaces, a global company, designs and manufactures high-quality modular signal switching and simulation for use in electronic test and verification. We offer the largest range of switching and simulation products in the industry for PXI, LXI and PCI applications, with over 1,000 in PXI alone. Our products are specified in test systems installed throughout the world and have a reputation for providing excellent reliability and value.

Our commitment to delivering you high-quality products does not just extend to our switching and simulation products. We also offer a full range of supporting cable and connector solutions, diagnostic test tools and software, including our signal routing software, Switch Path Manager and software drivers.

Our products have a history of longevity, typically 15–20 years, which is critical to many of our customers. All products manufactured by us come with a standard 3-year warranty and include guaranteed long-term support.

Pickering serves many electronics industries, including automotive, aerospace & defense, energy, industrial, communications, medical and semiconductor. We operate globally with direct operations in the US, UK, Germany, Sweden, France, Czech Republic, and China—with additional representation in countries throughout the Americas, Europe and Asia.

  • +44 (0)1255 687900
  • sales@pickeringtest.com
  • Stephenson Road
    Clacton on Sea, CO15 4NL
    United Kingdom

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Showing recent results 1201 - 1215 of 1659 products found.

  • PXI Precision Resistor Module 18-Channel, 1 to 62.1

    40-297-011 - Pickering Interfaces Ltd.

    This 18-channel PXI Precision Resistor Module provides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-297 series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.

  • PXI Precision Resistor Module 4-Channel, 1.5 to 925

    40-297-121 - Pickering Interfaces Ltd.

    This 4-channel PXI Precision Resistor Moduleprovides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-297 series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.

  • PXI BRIC4 FIBO Matrix Dual 60x4 3pin brkout

    40-592A-003 - Pickering Interfaces Ltd.

    The 40-592A FIBO (Fault Insertion Break-Out) Matrix Module is a large-scale high density switching matrix based on the Pickering BRIC format. The fault insertion BRICs are designed for applications requiring the simulation of a variety of faults in complex, high pin count, applications involving sensors and control units. Typical faults that can be simulated are open-circuits, short circuits to ground or battery, or short-circuits between input/output lines. Typical applications are in automotive and aerospace industries which involve safety or mission critical systems that have to behave predictably when cabling or sensor faults occur.

  • PXI Precision Resistor Module 4-Channel, 2 to 13.6k

    40-297-131 - Pickering Interfaces Ltd.

    These PXI precision resistor modules provide a simple solution for applications requiring accurate simulation of resistive sensors. The 40-297 series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.

  • PXI BRIC4 FIBO Matrix Dual 31x4 2pin brkout

    40-592A-011 - Pickering Interfaces Ltd.

    The 40-592A FIBO (Fault Insertion Break-Out) Matrix Module is a large-scale high density switching matrix based on the Pickering BRIC format. The fault insertion BRICs are designed for applications requiring the simulation of a variety of faults in complex, high pin count, applications involving sensors and control units. Typical faults that can be simulated are open-circuits, short circuits to ground or battery, or short-circuits between input/output lines. Typical applications are in automotive and aerospace industries which involve safety or mission critical systems that have to behave predictably when cabling or sensor faults occur.

  • PXI Millivolt Thermocouple Simulator Module - 32 Channel

    41-760-001 - Pickering Interfaces Ltd.

    This series of PXI Thermocouple Simulator Modules is available in a choice of 32, 24, 16 or 8 channels—each channel providing a low-voltage output across two connector pins capable of providing ±20mV with 0.7µV resolution, ±50mV with 1.7µV resolution and ±100mV with 3.3µV resolution, covering most thermocouple types. These thermocouple simulators use two wire outputs with a remote output reference sense to ensure the modules deliver accurate low-level voltages, even if the system has common mode voltages present. In addition, each simulation channel is also able to provide an open circuit setting to simulate faulty wiring connections to a sensor. For improved accuracy each channel of the Low-Voltage Source carries accurate calibration data stored  on the module. The module also includes a calibration multiplexer for module test and verification purposes.

  • PXI RTD Simulator Module 18 Channel PT100

    40-262-001 - Pickering Interfaces Ltd.

    The 40-262 is a 3U PXI module range that supports 6 (in one slot), 12 or 18 (in two slots) channels of RTD simulation. Based on the design principles of our 40-260 PXI Precision Resistor, this RTD simulator module can provide a setting resolution of <8m (PT100) or <90m (PT1000) and a resistance accuracy of better than 0.1% on all channels. Each simulation channel is able to provide a short or open circuit setting to simulate faulty wiring connections to a sensor. Calibration or verification of each resistor channel can be verified by using the calibration port connected to a high performance DMM and a supplied software package. Each module can be specified with a resistance range of either 90 to 250 suitable for PT100 simulation (40-262-001/201/101),or 900 to 2500 suitable for PT1000 simulation (40-262-002/202/102). Both resistance ranges are suitable for simulatinga temperature range of approximately -25C to 410C for their given sensor type. The use of resistance value calls makesprogramming simple, an API to convert temperature requests to resistance calls using a model of the sensor being used isalso available. Each channel can operate with a differential input voltage range of greater than 15V relative to a definedcommon mode voltage. The common mode voltage can be set to 0V, (input range of at least 15V), +12V (input range of -3V to+27V), -12V (input range of -27V to +3V) or an external comm>

  • PXI Precision Resistor Module 9-Channel, 1 to 62.1

    40-297-111 - Pickering Interfaces Ltd.

    This 9-channel PXI Precision Resistor Moduleprovides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-297 series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.

  • PXI Precision Resistor Module 3-Channel, 3 to 5.82M

    40-297-152 - Pickering Interfaces Ltd.

    ThisPXI Precision Resistor moduleprovides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-297 series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.

  • PXI Precision Resistor Module 3-Channel, 2.5 to 1.51M

    40-297-144 - Pickering Interfaces Ltd.

    This 3-channel PXI Precision Resistor Moduleprovides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-297 series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.

  • PXI Precision Resistor Module 4-Channel, 1.5 to 3.55k

    40-297-123 - Pickering Interfaces Ltd.

    This 4-channel PXI Precision Resistor Module provides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-297 series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.

  • PXI RTD Simulator Module 18-Channel PT1000

    40-262-002 - Pickering Interfaces Ltd.

    The 40-262 is a 3U PXI module range that supports 6 (in one slot), 12 or 18 (in two slots) channels of RTD simulation. Based on the 40-260 design principles the module can provide a setting resolution of <8m (PT100) or <90m (PT1000) and a resistance accuracy of better than 0.1% on all channels. Each simulation channel is able to provide a short or open circuit setting to simulate faulty wiring connections to a sensor. Calibration or verification of each resistor channel can be verified by using the calibration port connected to a high performance DMM and a supplied software package. Each module can be specified with a resistance range of either 90 to 250 suitable for PT100 simulation (40-262-001/201/101),or 900 to 2500 suitable for PT1000 simulation (40-262-002/202/102). Both resistance ranges are suitable for simulatinga temperature range of approximately -25C to 410C for their given sensor type. The use of resistance value calls makesprogramming simple, an API to convert temperature requests to resistance calls using a model of the sensor being used isalso available. Each channel can operate with a differential input voltage range of greater than 15V relative to a definedcommon mode voltage. The common mode voltage can be set to 0V, (input range of at least 15V), +12V (input range of -3V to+27V), -12V (input range of -27V to +3V) or an external comm>

  • PXI Precision Resistor Module 6-Channel, 3Ohm to 22.3M

    40-297-054 - Pickering Interfaces Ltd.

    A simple solution for applications requiring accurate simulation of resistive sensors. The series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.

  • PXI 7-Chan 20A Fault Switch, One Fault Bus

    40-193-001 - Pickering Interfaces Ltd.

    The 40-193 is a 7 Channel Fault Insertion switch designed for the simulation of fault conditions in automotive systems. The module is capable of switching current up to 20A. It is designed to be able to insert different fault conditions between the test fixture and the equipment under test.

  • PXI Precision Resistor Module 9-Channel, 1.5 to 1.81k

    40-297-022 - Pickering Interfaces Ltd.

    This 9-channel PXI Precision Resistor Module provides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-297 series is available in a variety of resistance ranges and resolution capabilities that meet the needs of most functional test systems. It is particularly well suited to applications such as the testing of engine controllers where resistive sensors provide information on parameters such as temperature.