Showing results: 406 - 419 of 419 items found.
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AMULET -
FujiFilm Corp.
The new format FPD has a proprietary panel structure with a double layer of amorphous selenium that has high X-ray absorption properties, and was developed by combining Fujifilm''s "Device Development Technology" and "Vacuum Deposition Technology." The first layer efficiently converts X-rays into electrical signals, while the second layer employs the unique "Direct Optical Switching Technology," that captures higher resolution and lower noise image electrical signals rather than using electrical switches such as conventional TFTs. By achieving both "50µm fine pixel size (higher resolution) and low noise," the AMULET system can show microcalcifications and tumors in greater detail, both significant indicators for early diagnosis of breast cancer.
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Model 200IR -
OAI
The OAI Model 200IR Mask Aligner is a tabletop system that requires minimal clean room space. It is a cost-effective alternative for R&D or limited scale, pilot production. Utilizing an innovative, air bearing / vacuum chuck leveling system, the substrate is leveled quickly and gently, for parallel photo mask alignment and uniform contact across the wafer during contact exposure. The Model 200IR Mask Aligner is capable of one micron resolution and alignment precision. It has an alignment module which features mask insert sets and quick-change wafer chucks that enable the use of a variety of substrates and masks without requiring tools for reconfiguration. The alignment module incorporates micrometers for X, Y, and z-axis.
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Electro-Chemical Devices
The ECD Analyzers range of automatic stationary, refrigerated wastewater samplers consists of three models, the AQUAS200, the AQUA-S320 and the rugged outdoor AQUA-S320H. At the heart of each is the well proven AQUA Sampling Module, a robust and reliable unit proven in thousands of applications worldwide and trusted by users as diverse as food manufacturers, water companies and the Environment Agencies. The air pump vacuum sampling system featured within the AQUA Module provides for an extremely accurate, reliable, representative and repeatable sample. Programming set-up and daily operation have been designed to be as simple and intuitive as possible for the user. Sample extraction can be time based or triggered by external sources such as flow meters, level sensors, pH meters, PLC’s etc.
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460 -
Oersted Technology
The Model 460 is a 3-channel, high-resolution gaussmeter, for use with single or multi-axis probes. It is capable of measuring magnetic fields from 0.001 Gauss to 300kGauss, with a DC accuracy +/- 0.10%. This unit is designed for demanding applications, such as material analysis and field mapping, where low-noise, high-resolution magnetic measurements are necessary. Measurements of AC and DC magnetic fields are shown in Gauss or Tesla on the two-line vacuum fluorescent display. The Model 460 features RS232C and IEEE-488 ports, allowing the instrument to be controlled via a remote computer or automation equipment. The Model 460 can be used with a 3-axis probe or with three separate single-axis probes, effectively providing three Model 450 gaussmeters in one instrument. Probes are sold separately, and are available in a wide range of constructions.
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Thorlabs, Inc.
Thorlabs' LLD1530 Frequency-Locked Laser is a narrow linewidth, DFB-laser-diode-based, turnkey system with a vacuum emission wavelength of 1532.8323 nm and a high SMSR of at least 35 dB. The laser frequency is actively stabilized to a National Institute of Standards and Technology (NIST)-traceable molecular transition of acetylene and has an absolute accuracy at start-up that is better than ±25 MHz. The emission frequency immediately after start-up is then maintained with a ±25 MHz stability, providing an overall frequency accuracy of ±50 MHz. The LLD1530 is an accurate frequency reference designed to provide low-noise laser emission with excellent frequency stability, accuracy, and precision immediately at start-up. This source is ideal for use in demanding FTIR instrumentation, instrument calibration, gas sensing, and coherent telecommunications applications.
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AML -
OAI
Wafer bonding has found many applications in the field of MST, MEMS and micro engineering. These include the fabrication of pressure sensors, accelerometers, micro-pumps and other fluid handling devices. The process is also used for first-order packaging of silicon microstructures to isolate package-induced stresses. The OAI AML Wafer Bonder facilitates both the alignment and bonding to be performed in-situ, in a high vacuum chamber. For anodic bonding the wafers are loaded cold and heated in the process chamber. For high accuracy alignment the wafers are aligned and brought into contact only after the process temperature has been reached, thus avoiding differential thermal expansion effects which can compromise alignment. The AML Wafer Bonder is excellent for anodic bonding, silicon direct and thermal compression bonding applications. These features enable the bonder to be used with virtually any processing tool.
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AOSense
Detailed description of item: Complete cold atomic beam sources for alkaline-earth precision experiments and atomic devices. Small chambers with patented permanent-magnet Zeeman slowers and in-vacuum 2D MOT optics allow high flux with low outgassing and no thermal beam flux at the cold atom port, which provides a CF-133 connection to customer vacuum chamber. Advanced thermal design of the effusion oven allows long-lifetime operation at minimal heating power, with no water cooling. An integrated low-outgassing hot window is provided for coupling of on-axis Zeeman cooling light. Ion and getter pumps integrated into the chamber manage outgassing from the oven at temperatures up to 520 °C. Operating baseline pressures below 1×10-11 mbar can be attained in the customer’s downstream cold atom (typically 3D MOT) science chamber, with suitable pumping speed provided at the differentially-pumped cold beam output port.
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Klocke Nanotechnik
The patented Nanomotor® is a piezo driven linear motor. It is a multifunctional basic part for many positioning and manipulation devices. It has a positioning stroke of up to more than a centimeter while operating with atomic resolution. The Nanomotor thus bridges eight orders of magnitude. The Nanomotor consists of a cylindrical housing and a slider with a free axial hole inside. It combines high resolution in the sub-nanometer range with a large positioning stroke. The Nanomotor utilizes a piezo tube for fine positioning and a shock wave produced by the same piezo tube for coarse movements. The small Nanomotor is half the size of a match stick. It can lift six times its own mass. Every point of its stroke can be reached with a speed of up to 1 mm/s. The Nanomotor also works in ultrahigh vacuum or even under water. It is driven by a PC card at a supply voltage of only ±15 volts.
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Qingdao AIP Intelligent Instruments Co., Ltd
This tester is suitable for online or offline detection of various armature electrical properties, such as power tool motors, garden tools, vacuum cleaner motors, small household appliance motors, automobile motors, fitness equipment motors, permanent magnet micro-motors, etc. The tooling of the tester meets the requirements of arbitrary placement of the armature, and can automatically and accurately sort/track faulty solder joints; the equipment startup methods include buttons, remote control, and sliding cover; it meets the armature test of special processes such as double insulation, and automatically identifies solder joints, winding short circuit/open circuit , winding errors, poor welding and other problems; the tester can also automatically count the number of tests, the number of defectives and other data, which is convenient for quality management analysis.The tester test items mainly include:bar-to-bar resistance, diagonal resistance, welding resistance, insulation resistance, ac hi-pot, surge.
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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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Inframet
Image intensifier tubes (IITs) are vacuum tubes that amplify a low light-level image to observable levels. Image intensifier tubes are the most important modules of night vision devices that play crucial role in defense/security/industrial applications.Technology of manufacturing of image intensifier tubes is very difficult and performance parameters of modern IITs varies even within the same technological process. Next, test report offered by manufacturers cannot be fully trusted because there are some differences in test methods used by different manufactures. Further on, there are literature sources presenting conflicting claims of different manufacturers. It is quite common to find on the world market two night vision devices (or two image intensifier tubes) of the same data sheet parameters but of totally different image quality. Inverse situation is possible, too. Due to reasons mentioned above testing image intensifier tubes is of critical importance for both their manufacturers, manufacturers of night vision devices (NVDs) and final users of NVDs.
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VUVAS-10X -
McPherson, Inc.
A new ultraviolet spectrophotometer system for optical metrology just arrived at NASA Goddard! The VUVAS-10X spectrophotometer works best in the 90 to 160 nanometer wavelength range, also known as deep or vacuum ultraviolet (VUV) region. It uses a windowless hydrogen plasma light source and differential pump section to reach many wavelengths beyond those of conventional deuterium lamps. The source also works with other gases, or gas mixtures, for atomic spectral line emission from about 30 nanometers (double ionized Helium gas) up to the Visible light range. The new spectrophotometer system, McPherson VUVAS-10X, uses a one-meter focal length high-resolution monochromator with the special light source, scintillated detector and Model 121 goniometric sample chamber. The system is ideal for optical transmission, absorbance and specular reflectance at incident angles up to 60 degrees. This McPherson spectrophotometer system will help develop, inspect and qualify optical materials and coatings used for very high altitude and extraterrestrial space flight missions.
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EFT Series -
Jinan Testing Equipment IE Corporation
EFT series electric fatigue testing machine is an ideal platform to test a variety of materials and components for the following high demanding tests: Quasi-static test; Reverse-stress mechanical low cycle fatigue loading tests (LCF); High temperature creep, stress-rupture, relaxation tests in load/strain control mode for medium-term or long term period. Mechanical fracture tests like crack growth & toughness tensile/compression test for ceramics in both room- or vacuum-, high- temperatures up to 1200 C conditions etc. Compression test on plate springs or clutch springs etc. It is also widely used to evaluate the mechanical properties of biologic materials, composites, orthopedic fixation devices, prostheses, spinal constructs, stents, dental implants, elastrometric materials, etc. It adopts electric actuator structure with all-elastic, backlash free, central ball-lead screw driving to achieve direct force transmission to the specimen, it is especially a perfect choice for R&D institutes, universities, nuclear power, automotive and aviation, & aerospace sectors from metals, composites, ceramics, springs and component parts.
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Model 3448 -
Jinan Testing Equipment IE Corporation
Epsilon developed this unique high temperature extensometer for testing metals, ceramics, and composites at the high temperatures produced by furnaces and induction heating systems. A combination of features make these extensometers easier to use and better in performance than other similar high temperature extensometers.The units are held on the specimen by light, flexible ceramic fiber cords. These make the extensometer self-supporting on the specimen. No furnace mounting brackets are required. The side load on the test sample is greatly reduced because of the self-supporting design and light weight of the sensor. Most materials testing furnaces with a side cut-out for an extensometer will readily accept a Model 3448. For induction heating systems, a different ceramic cord placement allows the extensometer to easily pass between the coils.The combination of radiant heat shields and convection cooling fins allow this model to be used at specimen temperatures up to 1200℃ (2200°F) without any cooling. An optional tiny air fan does enhance stability at the highest temperatures and is recommended for the highest accuracy and for tests with small elongations. The fan comes with a magnetic base for support so it can be mounted at any convenient location near the extensometer. Fan cooling is not generally needed for induction heated systems. High purity alumina ceramic rods are used. These are available in lengths as required to fit your furnace. A spare set is included with every extensometer. Specify chisel, vee chisel or conical contact points as desired.Most units operate equally well in tension and compression. Thus tensile, compression and cyclic tests like low cycle fatigue can all be performed with a single unit.For vacuum furnaces, special models are available. Epsilon can also provide a radiant heat transfer cooled version. This requires that the extensometer module be surrounded by a water cooled enclosure with a front slot for the ceramic rods.
