Showing results: 496 - 510 of 511 items found.
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Model 3565 -
Jinan Testing Equipment IE Corporation
The Model 3565 uses hard conical points to contact the bolt at the center of the head and at the bottom. It is fully adjustable for different length bolts ranging from 25 mm (1 inch) in length to 150 mm (6 inches) standard. Extension beams are available for longer bolts. The standard maximum measuring range is 1.25 mm (0.05 inches). Generally, on longer bolts this extensometer will be self-supported without requiring any centering marks or punch marks on the bolt. For shorter bolts these marks may be required. If the conical pins are sharp, marks are often not needed even on the shortest bolts.The extensometer has a zero adjustment screw to adjust the length between the contact pins. This is used to set the output voltage to zero, which corresponds to the correct starting position for the test. It also includes a breakaway lower arm. In the event a bolt should fail, the breakaway arm snaps free, helping to prevent damage to the extensometer. This is easily re-installed. In the event that bolt failures are likely during a test, it is recommended the user attach a cord around the upper part of the beam and tie the other end to the test frame to prevent the extensometer from falling. The conical point contacts included with the extensometer are made from tungsten carbide.The Model 3565 extensometers are strain gaged devices, making them compatible with any electronics designed for strain gaged transducers. Most often they are connected to a test machine controller. The signal conditioning electronics for the extensometer is typically included with the test machine controller or may often be added. In this case the extensometer is shipped with the proper connector and wiring to plug directly into the electronics. For systems lacking the required electronics, Epsilon can provide a variety of solutions, allowing the extensometer output to be connected to data acquisition boards, chart recorders or other equipment.
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TriSOL CPV -
OAI
Concentrating Photovoltaics (CPV) has the promise of producing solar cells with high cell efficiencies, which result in a reduction in the cost of operating a PV module. However, a CPV system requires the integration of CPV solar cells, modules and CPV optics into one efficient system. OAI’s focus is CPV cell testing methodology. The CPV cells can now be tested using OAI’s advanced standalone CPV Simulators for low dose and high dose configurations. The low dose CPV Solar Simulator provides exposure up to 50 Suns, whereas, the high dose CPV Solar Simulator provides exposure up to 1500 Suns. The low and high dose simulators provide exposure in varying Sun concentrations in various beam sizes from 1.5cm x 1.5cm to 7.5cm x 7.5cm, and may be configured with OAI’s I-V Test Systems.
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Harpia-TA -
Light Conversion Ltd.
The transient absorption spectrometer HARPIA offers a sleek and compact design together with intuitive user experience and easy day-to-day maintenance meeting the needs of today's scientific world. Adhering to the standards raised by the OPRHEUS line of devices, the entire spectroscopic system is contained in a single monolithic aluminum casing that inherently ensures excellent optical stability and minimal optical path for the interacting beams. HARPIA can be easily integrated with both PHAROS / ORPHEUS and Ti:Sa / TOPAS laser systems. HARPIA features market leading characteristics such as 10-5 resolvable signals along with other unique properties such as the ability to work at high repetition rates (up to 1 MHz) when used with PHAROS / ORPHEUS system. High repetition rate allows measuring transient absorption dynamics while exciting the samples with extremely low pulse energies up to several nanojoules.
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NEX LS -
Applied Rigaku Technologies, Inc
Featuring advanced third generation EDXRF technology, the Rigaku NEX LS represents the next evolution of scanning multi-element process coatings analyzers for web or coil applications. To deliver superior analytical performance and reliability, the EDXRF measuring head assembly was derived from the established Rigaku NEX Series high-resolution benchtop instrumentation. With this proven technology, the Rigaku NEX LS delivers rapid, non-destructive, multi-element analyses — for coat weight, coating thickness and/or composition — for elements from aluminum (Al) through uranium (U). The measuring head is mounted on a rigid beam and is equipped with a linear traversing mechanism positioned over a roller so that the head-to-surface distance is constant. Common applications include silicone release coaters, converters, denesting Si for vacuum-formed plastics, RoHS compliance, conversion coatings, metalized plastic, top coatings on metal coil and fire retardants on fabric.
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Edmund Optics Inc.
These high stability variable frequency optical choppers each include a set of chemically blackened photoetched chopping discs. The mini chopper is an excellent choice for applications requiring a compact package. The chopping discs come in a variety of slot apertures and allow operation. Beam diameter is limited to 0.75mm when using the 200-slot disc and 1.0mm when using the 40 slot mini disc. The easy-to-interchange blades are made of non-magnetic, half hard brass and can be used in combination. Chopping frequency is set by adjusting a ten-turn dial or by applying an external DC voltage to the BNC input. Reference output is a TTL pulse and is in-phase with chopping action. The 5 digit led display gives a direct read-out of the chopping frequency. Power: 90-130V or 180-260V; 50/60Hz; 12VA max. Power supply included. Choppers are often used together with lock-in amplifiers.
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Instron
Rugged design extensometer for axial tensile testing of stranded wire requiring a long gage length device and the ability to measure axial elongation accurately on a specimen that twists when pulled. This design allows long measuring ranges, yet retains compatibility with electronics for strain gaged transducers. Meets existing ASTM class B-2 and ISO 9513, class 0,5 requirements for accuracyDuring operation, the upper half of the extensometer pulls out of the main body. Tapered measuring beams activate strain gaged flexures within the unit. The units have hardened tool steel knife edges that are easily replaced. Quick attach kit (included) allows easy one hand mounting on specimen. Removal of the extensometer from the specimen prior to fracture, to avoid damage to the instrument, is strongly recommended.Type of Loading: static tension Specimen Material: alloy steel Specimen Types: stranded cable
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National Technical Systems
NTS operates some of the largest and most accurate sand and dust testing chambers available in the industry. We can accommodate parts in excess of 8 ft3 (0.25 m3) and comply with the requirements of various regulatory standards. While sand or dust circulate at up to 40 mph (65 kph) we can modify the test according to your special requirements, including running at temperatures of up to +200°F (+95°C). A calibrated “hopper” which assures that an adequate amount of contaminant is entering into circulation manages the input to the chambers. In addition to measured inputs, NTS employs an electronic beam, which determines that there is the right mixture of sand or dust and air in the test medium at any given time. This enables our technicians to adjust for loss in real time, and make corrections to ensure that the test article is exposed to the harmful particulate matter for the requisite amount of time.
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TriSOL TSS -
OAI
Essential for testing virtually any material or product that is exposed to sunlight for long or short periods of time, OAI’s low-cost, Standard Solar Simulators deliver highly collimated, uniform light. Depending on configuration, output on these Solar Simulators is rated at 350W -5,000W.These Class AAA Solar Simulators feature OAI’s Advanced Uniform Beam Optics and are available with a choice of air mass filters to reproduce a wide range of solar spectra. For added flexibility, OAI’s proven lens and collimating mirror technology allows for a variety of exposure area sizes. A Class AAA Solar Simulator is an essential tool for manufacturing as well as R&D; it is indispensable in test labs, industry, and in universities. OAI Standard Solar Simulators are used in photobiology, biomedical, solar cell testing, cosmetic testing, and paints & coatings analysis. Based on 35+ years of proven UV light technology, OAI Solar Simulator Systems deliver repeatable, reliable, constant output, and measurement uniformity.
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Fairview Microwave Inc.
Our waveguide detectors cover a broad frequency range of 26.5 GHz to 110 GHz and are available with waveguide sizes ranging from WR-28 to WR-10. The video output ports utilize SMA female connectors. These high performance zero-biased waveguide detectors exhibit excellent performance in Ka, Q, U, V, E and W frequency bands. These types of waveguide detectors are commonly used in various aerospace, defense and commercial wireless applications used in instrumentation, power detection, power monitoring, direct detection receivers, high frequency communications, radar, SATCOM, point-to-point radio, telecom, data links and R&D. The detector circuits use high performance GaAs Schottky Barrier Beam lead diodes with extremely low junction capacitance. These waveguide detector designs perform with minimal sensitivity variation resulting in a flat frequency response across the entire waveguide band. All of the waveguide detectors are in-stock and ready to ship.
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Model 6000 -
OAI
With over 4 decades of manufacturing in the semiconductor industry, OAI meets the growing challenge of a dynamic market with an elite class of production photolithography equipment. Built on the proven OAI modular platform, the Model 6000 has front and backside alignment that is fully automated with a submicron printing capability as well as submicron top to bottom front side alignment accuracy which delivers performance that is unmatched at any price. Choose either topside or optional backside alignment which uses OAI’s customized advanced recognition pattern software. These Mask Aligners have OAI’s Advanced Beam Optics with better than ±3% uniformity and a throughput of 200 wafers per hour in first mask mode, which results in higher yields. The Series 6000 can handle a wide variety of wafers from thick and bonded substrates (up to 7000 microns), warped wafers (up to 7 mm-10mm), thin substrates (down to 100 micron thick), and thick photo resist.
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mks Ophir
Pulse Characterization Sensors provide the ability to see and measure the temporal characteristics of pulsed and CW laser beams. Ophir Fast Photodiode Detectors are designed to convert optical signals into electrical signals which are then measured with third-party instrumentation such as oscilloscopes and spectrum analyzers. Accessories are available to connect to IS6 integrating spheres or fiber optic cables. Attenuating filter accessories are also available to increase their dynamic range. Different models offer silicon, UV enhanced silicon and InGaAs PIN photodiodes, covering a combined spectral range of 193 nm to 1700 nm. Rise times range from 25 picoseconds to 3 nanoseconds. The fast rise times are achieved by an internal reverse bias voltage circuit. Power is supplied by internal batteries and/or an external power supply depending on the model. Detectors should be connected to a 50Ω impedance in order to maintain their nominal rise times. They can be connected to higher impedance loads, but this will result in a significant increase in the rise time. If higher output voltage is required, it is recommended to connect the detector to a trans-impedance amplifier with an Input impedance of 50Ω
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Enlitech
From the review of the scientific development history, reliable and stable artificial light sources have played a very important role in the past century. For example, the artificial solar simulator is an important part of simulating sunlight to ensure accurate performance of PV characterization. With the growth of light sensor applications, more and more requirement of light simulators (or artificial light sources) explored. One of the core technologies of Enlitech is the artificial light sources. We can manipulate different lamp types (short arc lamps, LEDs, filament lamps et. al.) to generate different spectrum-form in different light intensity levels, beam sizes, and wavelength ranges. We have launched different artificial light source products for different applications fields. For instance, SS-X series solar simulators and ILS-30 ambient light simulator are for the PV field, HAAS is highly accurate star light simulator for the space field, and ALS-300 is a general-purpose light source in science research field. These products can not only meet the needs of your application, but also speed up the process of your research or mass-production.
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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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64206 -
Parallax Inc.
Parallax speeds the process of Propeller 2 development through our partnership with MikroE, who has created a family of 850+ Clicks for most I/O functions you may envision. For each of the Click boards stocked by Parallax, you will find a documented Spin 2 code example on our Propeller GitHub Object Exchange. Connect your Click boards to the Propeller 2 Evaluation Board or P2-EC Edge Breakout Breadboard using the #64008 P2 to MikroBus Click Adapter. Light Ranger 4 click is an accurate distance measurement Click board™ based on a ToF (Time of Flight) measurement principle. The FlightSense™ enabled VL53L1X rangefinder module from STMicroelectronics is a complete measurement stack on the chip. It is surprisingly easy to work with, as this highly integrated range finder module exposes only I2C interface, XSH and INT pins to the host controller. It features the invisible Class1 laser emitter, used to emit a narrow band of a harmless modulated light beam in the IR range (940 nm), physical infrared filters and optics to achieve the best ranging performance in various ambient lighting conditions with a range of cover window options. It can measure distances up to 4000mm, with up to 50 Hz ranging frequency.
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Atec, Inc.
A tec, Inc. specializes in the design, manufacture, and integration of complex test systems and quality critical components. Our production engineering expertise separates us from other manufacturing companies when both reliability and cost are important. Atec has the best in 5 to 9 Axis CNC machining, coordinate measuring machines (CMMs), 3D additive metal and plastic printers, 9-Axis capable waterjet, cryogenic liquid flow test benches and environmental test chambers. We can deliver to the tightest tolerances and most exacting requirements. We can advise our customers on electron beam welding, friction joining, electronic test, environmental test, acoustics, vibration and many other technologies that can reduce manufacturing and operating costs. We are currently manufacturing liquid rocket engine fuel and oxidizer valves for multiple launch vehicles and have participated in 158 consecutive launch successes. Atec manufactured and tested advanced lithium-ion battery adapter plates that manage power for the International Space Station. Atec is designing, manufacturing, and testing power flow modules that work to prevent system failure on the human crew capsule (CCTS) that will transport astronauts to/from the ISS. Atec was awarded NASA Agency-Level Small Business Subcontractor of the Year , SBA Region VI Subcontractor of the Year for our support to NASA and Boeing and we were named a DCMA Top 500 Supplier.
