Showing results: 8671 - 8685 of 8764 items found.
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N6977A -
Keysight Technologies
The N6978A is designed for automated test equipment (ATE) applications where high performance is critical.
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300 Series Benchtop ATE -
Circuit Check, Inc.
The Circuit Check 300 Series benchtop ATE Test Platform with built-in professional fixturing solves the uncertainty of repeatable results that are common with bench testing. With the 300 Series Benchtop ATE, test procedures can become automatic, with test steps and go/ no-go limits easily programmable in common tabular form. Hand-probing is eliminated, replaced with accurate, repeatable tooling and reliable spring-loaded test probe fixturing.
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ADIVIC MP5800/MP5806 -
Chroma ATE Inc.
MP5800 seamlessly upgrades your existing Chroma 3380, 3650 to RF ready ATE test solution, user friendly debug tools, IOT turnkey test solution.
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MTQ Testsolutions AG
Tecap SPACE offers all the functions necessary to control test systems (ATE) for the semiconductor test. Tecap is hardware-independent and can be used with all customer-specific concepts.
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Data Patterns Pvt. Ltd.
Data Patterns' core business for over 20 years has been the development of Automated Test Equipment for critical aerospace requirements. Data Patterns developed a Multi Programmer with associated test automation software in 1994. Christened the DP-800 this product was adopted for the implementation of test rigs for Navigation Platform Test Benches, Engine Test Bed Automation, Cable Harness Test Systems, etc. This product was effectively utilized in the development of test benches required by Indian Space Research Organisation (ISRO) for the Polar Satellite Launch Vechicle (PSLV) and Geo Stationary Launch Vehicle (GSLV). Based on this foundation, the next generation test benches were developed in the cPCI architecture. Presently, Data Patterns develops cPCI based test systems for Laboratory applications as well as VME based test systems for challenging environmental conditions. Examples of test solutions built by Data Patterns are indicated below.
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40-570A-112 -
Pickering Interfaces Ltd.
The 40-570A-112 is a 4-channel, 80-pole High-Density Multiplexer and is part of our BRIC family. The 40-570A range is designed to simplify the connection of a common set of test equipment to one of a number of different devices for testing.
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40-570A-211 -
Pickering Interfaces Ltd.
The 40-570A-211 is a 4-channel, 40-pole High-Density Multiplexer and is part of our BRIC family. The 40-570A range is designed to simplify the connection of a common set of test equipment to one of a number of different devices for testing.
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MEA MSU100 -
MOTOMEA
*MEA MSU100 Series – Fully automatic SURGE testing of 3 phase and single phase stators, armatures, transformers, and motors, ranging from 10 W to 500 kW, and patented Stator/Rotor performance testing.*MEA MSU101 Series – Customized, fully automatic production line testing system with SURGE testing of 3 phase or single phase stators, armatures, transformers, and motors, ranging from 10 W to 500 kW. The system can be also equipped with automatic testing of H.V. and 4-wire resistance, temperature, and patented Stator/Rotor performance testing.*PERFORMANCE TESTING – MEA patented tests – MEA patented performance testing provides fully automatic Stator/Rotor performance tests, showing the UUT performance as it will be after assembled as motor.*Integrated database.*200 V up to 5 kV programmable impulse.*Option for Partial/Low-Energy Discharge.*Go/No Go tests with comparison detection of: Area Size, Diff Zone, Corona Amount, and Corona Number.*Performances tests comparison at cold and hot state (temperature tests via up to 8 thermocouples).*Interfaces: RS-232, USB, Ethernet (for remote control).*Can be controlled via I/O for OEM applications and easy integration for automatic lines.*Special self-calibration function. No need to send back for the vendor's calibration, saving time and costs.*MSU101 integrated and operated with PC having user-friendly Windows 7 interface, with large database for storing test programs and test results.*Barcode reader, individual print-out of test protocols and labels, of H.V. and 4-wire resistance, and temperature measurement can be integrated into the system.
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MOTOMEA
Engines and their components require testing over a wide variety of conditions, ensuring that the final manufactured product consistently meets customer’s demands for performance and durability.
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MotorLab Kit® - MLK-B -
MOTOMEA
MEA's MotorLab is a motor testing system for R&D and Q.A. The MotorLab can perform numerous tests, from standard torque-speed tests, to more sophisticated ones. The resulting motor performance analysis reveals important characteristics not revealed by other testing devices.
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MOTOMEA
*The performance data of electric motors, in the majority of all cases, is performed by a brake test. Power input is calculated from current and voltage. Torque and power output are measured with a brake. It is important to reach, for each point, a persistent temperature. In case of large outer rotor BLDC motors, which are usually used for electric scooters, this traditional procedure may take many hours to complete, and is very complicated. *For several years, an innovative motor tester of MEA Testing Systems Ltd. is on the market. This testing system avoids any temperature confusion by testing a motor at constant temperature over the entire speed range. The test procedure is very fast, and gives the full load performances, including PWM current, voltage, torque, and driver efficiency, from stall up to no load. *During the test procedure, the motor is freely accelerated from stall to no load speed. The load of the motor is only the predetermined inertia of the rotor. From the moment of inertia and the acceleration, the torque of the motor is calculated and, also, the power output over the whole speed is given. Since the entire measuring time, depending on the motor size, is usually less than one second, the motor has no time to warm up. It remains at room temperature.
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BLDC Motors -
MOTOMEA
M.E.A. Inertial Dynamometers test easily and accurately the performance of any Brushless motor. The supported range of motors is almost unlimited (torque range is unlimited, speed range 5-60,000 rpm).
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MOTOMEA
*Stable measurement: Since it uses Prony braking, this model provides stable measurement unaffected by moments of inertia and no coupling loss. In addition, the resulting measurements allow data correlation via the traditional double-balance method.*Precision measurement method: This model’s judgment of synchronization loss achieves high stability using algorithms developed by Sugawara Laboratories. Measurement mode can be chosen based on step angle. For pull-in torque, startup can be measured consistently from the holding state. Allows measurement at 1-Hz resolution.*Broad measurement range: This model offers a range of seven available measurement heads, from 0.5 N to 50 N, allowing use for high-precision measurements. Through selection and use of pulleys, this model can also be used to measure small motors of 0.5 mN·m or less or 500 mN·m motors. Pulley diameters and other settings are easily configured using a personal computer running Windows®. Note: Any of the seven available heads may be attached to a single measurement component.*High-visibility measurement data: Motor characteristics are easily ascertained on automatically plotted performance graphs. Measurement data can be overlaid up to four times. In addition, the cursor can be used to read accurate values from measurement points. Hard copies of data displayed on-screen can be printed from a personal computer.*Can be controlled using standard personal computers: Allows control of measurement operations and display and storage of data from a standard personal computer running Windows®. Data is stored in CSV-format files for compatibility with other software applications.
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LEON Bench -
Konrad Technologies GmbH
The LEONBench test system is a flexible and scalable test system that features an excellent signal integrity and a high-quality fixture interface. This is achieved by combining a cableless connection from ABex modules to Virginia panel interface connectors. The system is optimized for high pin count test applications. Furthermore, it can be equipped with vacuum and pneumatic. Support for multi-level contact fixtures enables separate contact levels for FCT and ICT. The Konrad ITA (Interchangeable Test Adapter) frame allows various fixture houses all over the world to build custom fixtures for the LEONBench. Up to 15U additional rack space allows adding a bunch of high-performance measurement devices from various manufactures. An integrated power distribution unit takes care about power on and off sequencing.As part of the LEON Family, LEONBench is based on the ABex platform which directly incorporates Konrad analog bus technology and PXI/PXIe in one chassis.
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ATS1500C -
Rohde & Schwarz GmbH & Co. KG
The R&S®ATS1500C radar test chamber is a compact antenna test range (CATR), consisting of a gold-plated parabolic reflector and a two-axis positioner for 3D movements of the radar module. Combined with the R&S®AREG800A target simulator and other Rohde & Schwarz test and measuring instruments, it can be used for a variety of applications, including antenna characterization, module calibration, RF performance validation, interference testing or in-band compliance testing. The chamber is equipped with a universal feed antenna which gives access to both polarizations in parallel. Automated temperature testing over the range of -40 to 85°C is possible with an optional enclosure.
