Showing results: 16 - 30 of 53 items found.
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MP4300A Series -
Keysight Technologies
The output power of solar cells varies with numerous environmental conditions (e.g., temperature, irradiation) and operational conditions (e.g., eclipse, spin). The Keysight MP4300A Series solar array simulator enables you to test all these conditions with high accuracy. It delivers fast current-voltage (I-V) curve changes with a quick recovery time, emulating rapidly changing conditions.
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OAI
OAI has designed and engineered for large area markets Class AAA, ABA, or ACA Solar simulators with the same performance , quality, and reliability as our other solar simulator models. These large area solar simulators are available in several models.
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Luzchem Research Inc.
Luzchem Solar Simulators are intended for Solar matching of the UVA and Visible spectrum. Luzchem offers 2 solar simulator products. 1. SolSim2 is a manual photoreactor with excellent solar matching above 320 nm, it features an ozone-free lamp which eliminates the need to exhaust to a fumehood.2. CCP-SolSim is a computer controlled photoreactor which matches the solar spectrum in the UVA and visible regions.
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OAI
For high performance space applications, OAI offers a 0.25 Collimation Angle Solar Simulator. It is engineered with the technology built on OAI’s 47 years of experience working with light. Features include 100mmx100mm beam size, long lens housing, AM 1.5 G and AMO spectrum up to 1800 nm or any custom spectrum, and intensity controlled up to 1.25 SUNS. These solar simulators are built with OAI’s precision, quality and reliability.
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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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OAI
OAI’s Flash Solar Power Meter is a versatile measurement tool used for measuring the irradiance (in Suns) from Flash Solar Simulators. Flash Solar Simulators are commonly used in the production of solar panels. Integrated into the solar cell production line, this meter calibrates the flash solar simulator allowing for constant and repeatable irradiance output. By sampling at speeds up to 4000 Hz, the flash pulse temporal profile can be recorded in the meter’s memory and downloaded to a USB 2.0 port on a PC for further analysis.
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PSE Instruments GmbH
Our steady state solar simulators enable you to test and develop solar thermal collectors independent of weather and season, faster, more efficiently and more comprehensively than ever before. Both simulators are turnkey products, delivered 100 % ready to go!
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Optosolar GmbH
For series connected multijunction cells, at a given spectrum (e.g. AM 1.5 or AM 0 for space solar cells), one of the cells will limit the current in the series connection of cells. All solar simulators deviate from the true AM 1.5 spectrum, and they are only classified in wide spectral bands (100nm width). So even for class A or A+ solar simulators, it can easily happen that the bandgaps of the multijunction cells are such distributed that the 'wrong' cell will limit the current, if a solar simulator with fixed spectrum is used. In the 70s and 80s, when these measurements were first developed, intercomparisons showed deviations of cell efficiency in fixed spectrum solar simulators of more than 40%.
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Optosolar GmbH
Optosolar offers solar simulators with continuous light for small area solar cells (ca. 10mm x 10mm). depending on the cell size, the concentration ratio can exceed 1000 suns. Special designs cover low concentration on large area wafers (156mm x 156mm), as well as line focus applications (e.g. 8mm x 156mm at 8 suns). Flashlight Solar Simulators have the advantage of negligible temperature change to the solar cell. For this reason, they are often used for very high concentration ratios or for multijunction cells in a solar simulator with adjustable spectrum.
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Sciencetech, Inc.
Sciencetech solar simulators produce high intensity, uniform illumination on a target area. Typically, high power solar simulators use an ellipsoidal reflector to capture light from an arc lamp source inside the reflector, an arrangement that results in a light pattern with a bright outer region and a dark center. This non-uniformity is un- acceptable in many solar simulator applications and as a result, forces many of our solar simulator competitors to use designs involving diffusers to reduce the non-uniformity. This results in a reduction of intensity and a dis- tortion of the spectrum on the target area.
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OAI
The OAI Continuous Wave Solar Power Meter is an essential analytical tool for measuring the irradiance (in Suns) of Continuous Wave Solar Simulators. OAI’s Solar Power Meters feature unique features not found in other Solar Meters. This versatile meter can display a wide variety of cell characteristics that include: cell type, window type, cell size, and temperature measurement device type. The OAI Continuous Wave Solar Power Meter can sample and display a continuous reading or peak reading. The Power Meter connects via USB port for data collection, and includes desktop software. With this small, portable, battery-powered meter, numerous production solar simulators can be tested and compared in a short amount of time, leading to greater production line consistency and throughput.
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Sirius 150A -
ZOLIX
Solar Simulators are used to simulate “real” solar radiation conditions and are widely used for the photovoltaic device research and QA etc.Beam collimation and spot uniformity are important properties along with spectral matching are key operational requirements. The SS150 and SS1000 are suitable for all types of solar cells and well match their optical requirements.
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LXinstruments GmbH
Among other things, solar array simulators are required for testing satellite power supplies. An SAS (Solar Array Simulator), consisting of an interconnection of several Solar Array Simulator modules, maps the solar panels and displays the individual strings connected in parallel. Optionally, the individual SAS modules are monitored by a Second Level Protection, so that the test object is not damaged in case of errors with the voltage sources. Additional circuitry is implemented via project-specific test modules. The signal path to the DUT can be separated, e.g. for dynamic current measurements.The Keysight Solar Array Simulators used were specially developed for satellite applications and cover the significantly higher requirements regarding the control speed of MPP tracking compared to terrestrial applications.
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VLSI Standards, Inc.
The Solar Reference Cells consist of a 20 mm x 20 mm monocrystalline silicon Photovoltaic Cell encased in a 92 mm x 70 mm x 16 mm metal enclosure with a protective quartz window and a temperature sensor. Designed for calibrating the irradiance of solar simulators used for testing solar cells and modules.
