Showing results: 616 - 630 of 1667 items found.
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40-560B-021-276x8 -
Pickering Interfaces Ltd.
The 40-560B-021-276x8 is an ultra high density matrix module and is part of our range PXI BRIC matrices. They are available in 2, 4, 8 or 12-slot sizes to suit high performance PXI switching requirements and is constructed using instrumentation quality reed relays.
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40-560B-021-69X16 -
Pickering Interfaces Ltd.
The 40-560B-021-69x16 is an ultra high density matrix module and is part of our range PXI BRIC matrices. They are available in 2, 4, 8 or 12-slot sizes to suit high performance PXI switching requirements and is constructed using instrumentation quality reed relays.
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40-560B-021-92X16 -
Pickering Interfaces Ltd.
The 40-560B-021-92x16 is an ultra high density matrix module and is part of our range PXI BRIC matrices. They are available in 2, 4, 8 or 12-slot sizes to suit high performance PXI switching requirements and is constructed using instrumentation quality reed relays.
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40-560B-121-276X4 -
Pickering Interfaces Ltd.
The 40-560B-121-276x4 is an ultra high density matrix module and is part of our range PXI BRIC matrices. They are available in 2, 4, 8 or 12-slot sizes to suit high performance PXI switching requirements and is constructed using instrumentation quality reed relays
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40-560B-121-1012X4 -
Pickering Interfaces Ltd.
The 40-560B-121-1012x4 is an ultra high density matrix module and is part of our range PXI BRIC matrices. They are available in 2, 4, 8 or 12-slot sizes to suit high performance PXI switching requirements and is constructed using instrumentation quality reed relays.
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40-560B-121-1104X4 -
Pickering Interfaces Ltd.
The 40-560B-121-1104x4 is an ultra high density matrix module and is part of our range PXI BRIC matrices. They are available in 2, 4, 8 or 12-slot sizes to suit high performance PXI switching requirements and is constructed using instrumentation quality reed relays.
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40-560B-121-115X16 -
Pickering Interfaces Ltd.
The 40-560B-121-115x16 is an ultra high density matrix module and is part of our range PXI BRIC matrices. They are available in 2, 4, 8 or 12-slot sizes to suit high performance PXI switching requirements and is constructed using instrumentation quality reed relays.
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782835-37 -
NI
256-Crosspoint, 4x64, 2-Wire PXI Matrix Switch Module—The PXIe‑2737 is a high‐density 4x64 PXI matrix switch module designed for routing signals within automated test systems and using electromechanical relays to perform immediate switch operations. It also offers features to monitor the health of deployed systems and plan for predictive maintenance, including onboard relay count tracking, a temperature sensor, and functional and resistive relay self-tests available through the NI Switch Health Center.
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782835-38 -
NI
256-Crosspoint, 8x32, 2-Wire PXI Matrix Switch Module—The PXIe‑2738 is a high‐density 8x32 PXI matrix switch module designed for routing signals within automated test systems and using electromechanical relays to perform immediate switch operations. It also offers features to monitor the health of deployed systems and plan for predictive maintenance, including onboard relay count tracking, a temperature sensor, and functional and resistive relay self-tests available through the NI Switch Health Center.
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782835-39 -
NI
256-Crosspoint, 2-Wire PXI Matrix Switch Module—The PXIe‑2739 is a high‐density 16x16 PXI matrix switch module designed for routing signals within automated test systems and using electromechanical relays to perform immediate switch operations. It also offers features to monitor the health of deployed systems and plan for predictive maintenance, including onboard relay count tracking, a temperature sensor, and functional and resistive relay self-tests available through the NI Switch Health Center.
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40-553A-011-HI -
Pickering Interfaces Ltd.
The 40-553A-011-HI is a high current 6x2 matrix with hardware interlock occupying two slots of PXI chassis. Each matrix crosspoint uses a fully isolated solid state relay which has been designed to offer fast operation under hot switching conditions and high inrush current with no operational life degradation.
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40-559-201-256x4 -
Pickering Interfaces Ltd.
This range of BRIC ultra-high-density large PXI matrices are available in 2, 4 or 8-slot PXI sizes to suit all high-performance matrix requirements and are constructed using Pickering Electronics' 4mm x 4mm instrumentation quality reed relays. With their high level of switching density, these PXI matrices allow a complete Functional ATE system to be housed in a single 3U PXI chassis and allow the use of much lower cost 8 or 14-slot chassis. The 40-559 matrices can be used in many industries; typical applications include automotive ECU and semiconductor package testing. Dual analog busing for the narrower matrix options, enable completely separate matrices within a single module for parallel testing.
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40-515-002 -
Pickering Interfaces Ltd.
The 40-515/516/517 2 Amp, 2-Pole Matrix Modules form part of the System 40 PXI ProgrammableSwitching system. Each module consists of a matrix of 64 2-pole electro-mechanicalrelays under the control of a PXI/PCI interface.These modules are designed for switching medium voltage/power signals in test applicationswhere reed relays do not have sufficient rating. They are also suitable for telecomsapplications where send and return signals need to be switched simultaneously.
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40-587A-001 -
Pickering Interfaces Ltd.
Our model 40-587A, along with the following models40-584, 40-585, 40-586Aare high-density single pole PXI matrices each supporting 256 crosspoints. All models use gold-plated contact electromechanical relays. The PXI matrix modules are designed for switching medium voltage and power signals. The user signal connection is via a robust 78, 50 or 37 pin D-Type or 160 pin DIN 41612 connector that is fully supported by the wide range of our cable and connector accessories.
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Pickering Interfaces Ltd.
Our 2 Amp PXI Large Matrix Modules use high-quality electromechanical relays to achieve their 2A switch rating. The BRIC structure allows the creation of large PXI matrices over multiple slots without the use of expensive external cables. The fully integrated programming interface represents the matrix as a single entity, easing user programming and reducing the likelihood of user errors.