Showing results: 526 - 540 of 593 items found.
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WIKA Alexander Wiegand SE & Co. KG
Pressure balances (often also referred to as mechanical dead-weight testers or primary standards) are the most accurate reference instruments for pressure. Their functional principle is based on the physical principle of pressure = force/area. Mass pieces placed on the top of a piston-cylinder system are the source of a precisely defined force. By producing a certain (counter) pressure inside the pressure balance an equilibrium is achieved: the mass pieces, including the free-running piston of the piston-cylinder system, are floating, which will lead to a very accurate pressure at the test port.
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Mensor Corp.
Primary standards (often also referred to as mechanical dead-weight testers or pressure balances) are the most accurate reference instruments for pressure. Their functional principle is based on the physical principle of pressure = force/area. Mass pieces placed on the top of a piston-cylinder system are the source of a precisely defined force. By producing a certain (counter) pressure inside the primary standard an equilibrium is achieved: the mass pieces, including the free-running piston of the piston-cylinder system, are floating, which will lead to a very accurate pressure at the test port.
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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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Acroname, Inc
Get everything you need to evaluate MTM and develop your next functional test system with Acroname's MTM Evaluation Kit. The MTM Evaluation Kit includes: one MTM Development Board, one MTM USBStem Module, one MTM 1 Channel Power Module, one MTM IO Serial Module, one AC/DC 12V/5A power supply and one USB A to mini-B cable.
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LXinstruments GmbH
SCOEs and EGSEs by LXinstruments are used during test and validation of satellite assemblies and modules in aerospace applications. As an example, we implemented solar array simulators, battery simulators and high-power load racks for a German satellite manufacturer for testing satellite power supply systems. Due to the high power ratings, the systems are partially equipped with water cooling. Specialized switching modules were developed for switching DC currents at high voltage levels; these can be programmed with SCPI commands via Ethernet.Our modular OTP² functional test platform is ideally suited for implementing durable, reliable test systems, e. g. for in-flight entertainment applications. Since the OTP2 platform is based on open interfaces, it can be quickly and easily adapted to any required communication busses and ARINC interfaces.
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Pilot 4D L4 -
SEICA SpA
The Pilot 4D L4 represents the best solution for those wishing to fully automate the flying probe test process, eliminating the need for continuous operator presence in order to manage the test system. Thanks to its integrated SMEMA conveyor, the Pilot 4D L4 can be combined with automatic load/unload magazines or lines, executing in-circuit, functional and visual tests of electronic boards in a completely automated mode. This is the ideal solution for medium and even high volume production test needs. The large test area can accommodate 21” x 24” boards (540 x 610 mm) board with split test. The ATE rack can be expanded with up to 1032 analog channels, connectable to an optional external bed of nails test fixture (TPM).
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Environment Associates Inc.
Products with moving parts, electromechanical components, filtering systems and electronics are all susceptible to fine and large particle dust that can contaminate a product. These contaminates can cause premature failures and loss of function.Today’s test plans for phones, computers, vehicles, enclosures and aircraft include sand and dust testing to determine if this stress source would cause functional deterioration.Our services include military and automotive dust testing for both blowing and agitated dust and sand.
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ERAVANT
Automotive radar sensors play a vital role in the current development of autonomous driving. Their ability to detect objects even under adverse conditions makes them indispensable for environment-sensing tasks in autonomous vehicles. As their functional operation must be validated in-place, a fully integrated test system is required. Radar Target Simulators (RTS) are capable of executing end-of-line, over-the-air validation tests by looping back a received and afterward modified radar signal and have been incorporated into existing Vehicle-in-the-Loop (ViL) test beds before. However, the currently available ViL test beds and the RTS systems that they consist of lack the ability to generate authentic radar echoes with respect to their complexity. The paper at hand reviews the current development stage of the research as well as commercial ViL and RTS systems. Furthermore, the concept and implementation of a new test setup for the rapid prototyping and validation of ADAS functions is presented. This represents the first-ever integrated radar validation test system to comprise multiple angle-resolved radar target channels, each capable of generating multiple radar echoes. A measurement campaign that supports this claim has been conducted.
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50-298-130 -
Pickering Interfaces Ltd.
The 50-298-130 is a high density programmable resistor card with 4 channels which can be set between 3Ω and 6.97kΩ with 0.125Ω resolution The 50-298 range provides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-298 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.
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50-298-122 -
Pickering Interfaces Ltd.
The 50-298-122 is a high density programmable resistor card with 4 channels which can be set between 2.5Ω and 1.81kΩ with 0.5Ω resolution The 50-298 range provides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-298 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.
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50-298-150 -
Pickering Interfaces Ltd.
The 50-298-150 is a high density programmable resistor card with 3 channels which can be set between 4Ω and 1.51MΩ with 0.125Ω resolution The 50-298 range provides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-298 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.
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50-298-151 -
Pickering Interfaces Ltd.
The 50-298-151 is a high density programmable resistor card with 3 channels which can be set between 4Ω and 2.97MΩ with 0.25Ω resolution The 50-298 range provides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-298 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.
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50-298-142 -
Pickering Interfaces Ltd.
The 50-298-142 is a high density programmable resistor card with 3 channels which can be set between 3.5Ω and 395kΩ with 0.5Ω resolution The 50-298 range provides a simple solution for applications requiring accurate simulation of resistive sensors. The 40-298 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.
