Showing results: 646 - 660 of 793 items found.
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Circuit Check, Inc.
Today’s world has a never ending appetite for data. Everywhere you look there are connected devices that provide and consume that data at an astonishing rate, and the demand increases every day. Our computer and networking customers are constantly pushing the edges of technology to deliver data faster and more reliably than ever. They use the newest electronics available to keep our data flowing – data that is critical to the operation of the world’s infrastructure. As cutting edge technologies are developed, these faster more advanced capabilities require the most sophisticated testing available. Circuit Check is constantly evolving our test fixtures and systems to meet this industry’s most advancedrequirements.
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Bourns
A rotary position sensor translates angular mechanical position to an electrical signal. Rotary position sensors are designed for applications that typically require frequent adjustment. Shaftless designs allow for different engagement mechanisms, such as a customized shaft, a motor control, a human interface adjustment or a mechanical arm position locator. Rotary position sensors can be used in applications where a user needs to control a variable output such as a frequency, speed or volume control. Typical applications include test and measurement equipment, consumer electronics, small engines, robotics, and medical equipment. The Bourns® Model 3382 Series uses resistive technology to sense rotary position.
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Bourns
A rotary position sensor translates angular mechanical position to an electrical signal. Rotary position sensors are designed for applications that typically require frequent adjustments. Shaftless designs allow for different engagement mechanisms, such as a customized shaft, a motor control, a human interface adjustment or a mechanical arm position locator. Rotary position sensors can be used in applications where a user needs to control a variable output such as a frequency, speed or volume control. Typical applications include test and measurement equipment, consumer electronics, small engines, robotics, and medical equipment. The Bourns® Model 3382 Series uses resistive technology to sense rotary position.
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Bourns
A rotary position sensor translates angular positions to an electrical signal. Rotary position sensors are designed for applications that typically require frequent adjustment. Shaftless designs allow for a different engagement mechanisms, such as a customized shaft, a motor control, a human interface adjustment or a mechanical arm position locator. Rotary position sensors can be used in applications where a user needs to control a variable output such as a frequency, speed or volume control. Typical applications include test and measurement equipment, consumer electronics, small engines, robotics, and medical equipment. The Bourns® Model AMS22S Series uses Hall Effect magnetic technology to sense rotary position.
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Accurate Technologies Inc.
Accurate Technologies’ long history in powertrain development provided insight into the day-to-day issues that were occurring during engine testing at a time when electronic devices were being introduced to monitor performance instead of traditional mechanical means. Outside of the harsh physical environments, devices used in these applications need to perform difficult high-voltage signal conditioning and high-speed synchronous pulse processing. ATI developed unique products that satisfy specific test cell or dynamometer challenges. These highly accurate products measure engine timing (IGTM) or speed (SmartTach) in convenient ways to provide information that otherwise may not be available.
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778572-14 -
NI
7-Channel, 40 A PXI Signal Insertion Switch Module—The PXI‑2514 fault insertion unit (FIU) is designed for hardware‑in‑the‑loop (HIL) applications and electronic reliability tests. Each module has a set of feedthrough channels that you can open or short to one or more fault buses. You can use this architecture to simulate open or interrupted connections as well as shorts between pins, shorts to battery voltages, and shorts to ground on a per-channel basis. When controlled with the LabVIEW Real-Time Module, the PXI‑2514 is ideal for validating the integrity of control systems including engine control units (ECUs) and full authority digital engine controls
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778572-12 -
NI
7-Channel, 10 A PXI Signal Insertion Switch Module—The PXI‑2512 fault insertion unit (FIU) is designed for hardware‑in‑the‑loop (HIL) applications and electronic reliability tests. Each module has a set of feedthrough channels that you can open or short to one or more fault buses. You can use this architecture to simulate open or interrupted connections as well as shorts between pins, shorts to battery voltages, and shorts to ground on a per-channel basis. When controlled with the LabVIEW Real-Time Module, the PXI‑2512 is ideal for validating the integrity of control systems including engine control units (ECUs) and full authority digital engine controls
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778572-10 -
NI
68-Channel, 2 A PXI Signal Insertion Switch Module—The PXI‑2510 fault insertion unit (FIU) is designed for hardware‑in‑the‑loop (HIL) applications and electronic reliability tests. Each module has a set of feedthrough channels that you can open or short to one or more fault buses. You can use this architecture to simulate open or interrupted connections as well as shorts between pins, shorts to battery voltages, and shorts to ground on a per-channel basis. When controlled with the LabVIEW Real-Time Module, the PXI‑2510 is ideal for validating the integrity of control systems including engine control units (ECUs) and full authority digital engine controls
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Photo Emission Tech., Inc.
QE system provides electronics and software designed for fully automated measurement of external quantum efficiency of solar cells. All systems include probes and a fixed plate sample stage for samples up to 150 mm x 150 mm. The main system components include: custom designed software, measurement electronics, and computer system (Windows 8 operating system). The measurement involves focusing monochromatic light to a spot on the device under test, then accurately measuring the photon flux and current from the test cell. The system utilizes a dual beam configuration with lock-in detection, providing an absolute accuracy of ±3%. The QE system uses a grating monochrometer with silicon/InGaAs/Ge detectors. The system includes automatic order sorting filters and two light sources for monochromatic illumination (a Xenon- arc lamp and a halogen lamp). A single lock-in amplifier is used to measure both the reference detector and test device. The main system comes with all the hardware needed to measure quantum efficiency, a fixed plate sample stage and probes.
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QST4416-FC -
Qmax Test Technologies Pvt. Ltd.
The Qmax Model QST4416-FC is a compact small foot print, sophisticated automatic semiconductor tester. Its state-of-the-art hardware design which is freely configurable to user's application requirements and software features facilitates it to test linear & mixed signal IC components which covers a wide range of products like linear, Power management, Opto electronics, digital and mixed signal devices etc.
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GoLogicXL-36 -
NCI Logic Analyzers
Logic analyzers and oscilloscopes offering fast sample rates and large memory depths are required to debug and test modern electronics. The GoLogicXL captures a very large window of bus activity using sample depths up to 1 billion samples. 4 GHz sampling rates expose the finest details in your signals. 1 GHz Transitional sampling provides the optimum method to capture fast data bursts separated by seconds, minutes, or even hours of bus inactivity. The GoLogicXL State analysis can also synchronize with single-data-rate 300 MHz SDR clocks, and double-date-rate 250 MHz DDR clocks (500 MHz effective).
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GoLogicXL-72 -
NCI Logic Analyzers
Logic analyzers and oscilloscopes offering fast sample rates and large memory depths are required to debug and test modern electronics. The GoLogicXL captures a very large window of bus activity using sample depths up to 1 billion samples. 4 GHz sampling rates expose the finest details in your signals. 1 GHz Transitional sampling provides the optimum method to capture fast data bursts separated by seconds, minutes, or even hours of bus inactivity. The GoLogicXL State analysis can also synchronize with single-data-rate 300 MHz SDR clocks, and double-date-rate 250 MHz DDR clocks (500 MHz effective).
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ETF-SERIES -
Envisys Technologies
Precise Temperature Accuracies with Reliable Test Results Temperature Limits: -40/-60 °C to 30 °C Temperature Accuracies: ±2-3°C Temperature Rate of Change: 20-25 deg /min (Non-linear) Maintenance Free Access to The System Self-Sufficient System Compact with small footprints suitable for any space constraint laboratories Low decibel system Suitable for testing electronic chips / devices Environmentally friendly refrigerants Efficient heating Microprocessor based single set point PID temperature controller with data logging Flexible hose up to 2.5-3.0m Interchangeable heads according to chip size. Inbuilt electrical control panel with switchgear system
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PCE Instruments
Penetrometers measure the firmness or hardness of fruit. Penetrometers are ideal for determining the best time to harvest fruit or to test its progress to maturity. The firmness of fruit is one of the most widely used parameters in testing its maturity, together with measuring the fruits sugar content using refractometers. Electronic penetrometers come with different diameter penetration points. This allows for fruit of different size and hardness to be tested. It is important that this first part of the measurement process is done correctly if the readings obtained are to be valid in making adequate decisions as to when the fruit should be harvested. It is important the the samples that are measured are representative of the entire crop, considering a sufficient minimum quantity sample, size and quality.
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WIKA Alexander Wiegand SE & Co. KG
Load cells are designed as a special form of force transducer for use in weighing equipment. These force transducers enable very high measurement accuracies of 0.01 % and 0.05 % of FS. Load cells are used in the widest variety of application areas, including platform, filling, belt and packaging scales, dynamic test systems as well as electronic precision, price-labelling and industrial scales. WIKA provides you with all typical and widely used load cell geometries such as single point load cells, bending and shear beam load cells, s-type load cells, canister load cells and compression force load cells. In addition, there are corresponding mounting kits and complete weighing modules available.
