Showing results: 31 - 36 of 36 items found.
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783362-02 -
NI
Non-Enclosed, 24-Bit, 51.2 kS/s/channel, 2-Channel C Series Universal Analog Input Module - The sbRIO‑9218 helps you perform multipurpose testing. With the sbRIO‑9218, you can measure signals from sensors such as strain gages, resistance temperature detectors (RTDs), thermocouples, load cells, and other powered sensors. You also can use the sbRIO‑9218 to perform quarter-bridge, half-bridge, and full-bridge current measurements, with built-in voltage and current excitation. You can individually select and perform a different measurement type on each channel. Additionally, the sbRIO‑9218 features 60 VDC analog input isolation. Non-enclosed modules are designed for OEM applications.
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Symmetry -
Oxford Instruments plc
Electron backscatter diffraction – is a powerful microanalysis technique that enables rigorous characterisation of the micro structural properties of crystalline materials. A high performance EBSD detector is critical for the effectiveness of the technique, influencing both speed and data quality. Symetry is Over 3000 indexed patterns per second (pps). Up to 30x faster than existing CCD-based detectors. Extreme sensitivity for low current and low kV analyses. Megapixel resolution for HR-EBSD applications. High resolution patterns (at least 156 x 128 pixels) at all speeds.
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Hamamatsu Photonics K.K.
Electron multipliers are mainly used as positive/negative ion detectors. They are also useful for detecting and measuring vacuum UV rays and soft X-rays. Hamamatsu electron multipliers have a high gain (multiplication factor) yet low dark current, allowingoperation in photon counting mode to detect and measure extremely small incoming particles and their energy. This means our Hamamatsu electron multipliers are ideal for electron spectroscopy and vacuum UV spectroscopy such as ESCA (electron spectroscopy for chemical analysis) and Auger electron spectroscopy as well as mass spectroscopy and field-ion microscopy.
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NI
The C Series Universal Analog Input Module helps you perform multi-purpose measurements. This module includes built-in support for accelerometer, powered sensor, full-bridge, and voltage measurements as well as quarter-bridge, half-bridge, 60 V, and current measurements using measurement-specific adapters. You also can choose options to measure signals from sensors such as strain gages, resistance temperature detectors (RTDs), thermocouples, load cells, and other powered sensors.The C Series Universal Analog Input Module includes the NI-DAQmx driver and configuration utility that simplify configuration and measurements. NI-DAQmx supports NI programming environments as well as Python, ANSI C, C#.NET, and MathWorks MATLAB® software.
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Mornsun Guangzhou Science & Technology
MORNSUN 0.6-400W high voltage output DC DC converters can provide high voltage output up to 3,000VDC. These high voltage output series feature low ripple, low power consumption, constant current output, high stable output voltage with low time coefficient and temperature coefficient and multiple protections such as input under-voltage, output short circuit, over-voltage and input reverse polarity protection. They are specifically designed for applications where high voltage, output voltage stability are required and output ripple requirements are high. Check out these high voltage output DC DC converters, which are suited in the fields of medical, security and some special equipment such as ultrasonic flaw detectors, photomultiplier tubes, piezoelectric devices, and capacitor charging, etc.
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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.
