Showing results: 571 - 585 of 593 items found.
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50-298-043 -
Pickering Interfaces Ltd.
The 50-298-043 is a high density programmable resistor card with 6 channels which can be set between 3.5Ω and 773kΩ with 1Ω 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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50-298-134 -
Pickering Interfaces Ltd.
The 50-298-134 is a high density programmable resistor card with 4 channels which can be set between 3Ω and 102kΩ with 2Ω 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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50-298-144 -
Pickering Interfaces Ltd.
The 50-298-144 is a high density programmable resistor card with 3 channels which can be set between 3.5Ω and 1.51MΩ with 2Ω 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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50-298-143 -
Pickering Interfaces Ltd.
The 50-298-143 is a high density programmable resistor card with 3 channels which can be set between 3.5Ω and 773kΩ with 1Ω 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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50-298-154 -
Pickering Interfaces Ltd.
The 50-298-154 is a high density programmable resistor card with 3 channels which can be set between 4Ω and 22.3MΩ with 2Ω 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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50-298-123 -
Pickering Interfaces Ltd.
The 50-298-123 is a high density programmable resistor card with 4 channels which can be set between 2.5Ω and 3.55kΩ with 1Ω 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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50-298-153 -
Pickering Interfaces Ltd.
The 50-298-153 is a high density programmable resistor card with 3 channels which can be set between 4Ω and 11.4MΩ with 1Ω 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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50-298-013 -
Pickering Interfaces Ltd.
The 50-298-013 is a high density programmable resistor card with 18 channels which can be set between 2Ω and 239Ω with 1Ω 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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50-298-014 -
Pickering Interfaces Ltd.
The 50-298-014 is a high density programmable resistor card with 18 channels which can be set between 2Ω and 470Ω with 2Ω 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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ATE QT2256-640 PXI -
Qmax Test Technologies Pvt. Ltd.
Most commercial ATEs does only functional test and do not carry out DC/AC parameter testing, which are very essential in increasing the fault coverage and for achieving near zero field returns. The testing challenges get worse when the boards are equipped with BS compatible components, DSP chips and CPUs or micro controller based boards. ATE QT2256-640 PXI system is designed as a combination board tester capable of testing highly complex and PCBs employing various techniques on a single platform. It can be easily upgraded to 640 digital channels and with programmable UUT power supplies, IEEE or PXI external instrumentation, Bus cycle signature system, ICE and integrated Boundary scan Test AC/DC parametric testing. The ATE is interfaced to an external host PC using a PCI express interface card allowing a maximum data transfer rate. Most commercial ATEs does only functional test and do not carry out DC/AC parameter testing, which are very essential in increasing the fault coverage and for achieving near zero field returns. The testing challenges get worse when the boards are equipped with BS compatible components, DSP chips and CPUs or microcontroller based boards.
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Terotest Systems Ltd.
Flying probe testers work by In-circuit testing the board via a number of moving test probes. They have the advantage over traditional In-circuit testers of not requiring a dedicated "bed of nails" test fixture thus reducing the price for each different board being tested. However, modern Flying Prober testers offer so much more than just In-circuit testing. They enable the user to combine In-circuit, AOI, Functional, Device Programming and Boundary Scan testing, in one test system.
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AIM GmbH
AIM’s AFDX®/ARINC664P7 test, simulation, monitoring and analysis modules use our field proven Common Core hardware design giving you the best performance, best feature set and highest functional integration on the market. The use of SoC (System on Chip) based core designs with multiple processors for real time bus protocol and application support, massive memory and IRIG-B time code encoder/decoder functions are standard. Versions are available to support the Boeing specific ARINC664P7 extensions.
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AIM GmbH
AIM’s > ARINC 429 test, simulation, monitoring and analysis modules use our field proven Common Core hardware design giving you the best performance, best feature set and highest functional integration on the market. The use of SoC (System on Chip) based core designs with multiple processors for real time bus protocol and application support, massive memory and IRIG-B time code encoder/decoder functions are standard. The latest versions also support avionics discrete I/O.
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National Technical Systems
Compatibility and interoperability testing focuses on exercising the product-under-test under an array of software and hardware variables (e.g., different operating systems, additional software applications, such as web browsers, and hardware, such as graphics adapters, processors, chipsets, etc.). With almost three decades of growth and refinement, NTS’s test methodologies are unparalleled in the area of compatibility and interoperability testing. With our extensive in-house library of up-to-date software and hardware, NTS can simulate a wide variety of real-world environment in which your product may be utilized. Test failures are routinely regressed using industry standard methodologies, and known functional hardware and software. Compatibility testing seeks to verify the compatibility of a vendor’s product specifically with particular hardware or software (e.g., with the operating system, a word processor with a printer, etc.). Interoperability testing, on the other hand, typically focuses on validating “coexistence” (e.g., a word processor and spreadsheet program can both be installed on the same platform without causing problems with the other).
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Model 7641 -
Jinan Testing Equipment IE Corporation
These COD gages use a high-temperature capacitive sensor and do not require any cooling. They will operate up to the maximum temperature limit of most environmental chambers used in materials testing. The Model 7641 is ideal for determination of fracture mechanics parameters such as JIC, KIC, R-curve, fatigue crack growth rate (da/dN), and testing to standards such as E1820, E399, E647, etc. All units can be displaced slightly in compression for ease of installation. The COD gage is supplied with the advanced DT6229 controller. The standard output is 0-10VDC analog signal, factory calibrated with the COD gage. This system provides a number of functional enhancements, including: high speed digital output, built in calibration and tare functions, analog and digital filters, and more. The 7641 is readily interfaced with most existing test controllers, and may be directly connected to a data acquisition system or chart recorder, or directly to a PC. The 7641 may be used for strain controlled tests such as JIC.
