Solar Cell
Convert light to electricity.
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Product
Fully Automatic Solar Cell
Module Laminator-H
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1. Model: BSL2236OAC-H2. Effective lamination area: 2200mm × 3600mm3. Dimensions: length 17410mm × width 3665mm × height 2164mm4. Heating method: heat conduction oil heating5. Compressed air source pressure: 0.6~0.8MPa6. Working vacuum degree: 100~40Pa7. Evacuation rate: 70L/S8. Temperature control accuracy: ±1.5°C9. Temperature control range: room temperature - 180°C10. Temperature uniformity: effective lamination area≤±2℃11. Lamination chamber height: 30mm12. Evacuation time: depending on the process, it is recommended to take 5 to 8 minutes13. Upper cover stroke: 300mm
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Product
SOLAR CELL TESTER
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The tester is designed for terrestrial solar cell incoming/outcoming inspection with the purpose of checking and optimizing parameters and preventing manufacture defects of solar modules. Solar cells are not heated in process of inspection due to the use of xenon pulse lamp installed in the tester.
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Product
Solar Cell Characterisation
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The PVE300 permits the determination of device spectral responsivity (from which may be determined EQE), and, having performed measurements of sample reflectance (and transmittance where required) the determination of IQE.
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Product
SolarIV Series Solar Cell Current Voltage Measurement System
SlarIV
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SolarIV IntroductionOne of the key measurements needed for photovoltaic devices in the measurement of their I-V characteristics. Through measuring the I-V curves the user can determine physical performances of devices such as photo-electric conversion efficiency, fill factors and so on. Such data is important for reliable work in research and quality inspection. ZOLIX supply the SolarIV system and the most perfect, professional technical support.
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Product
Solar Cell PL/EL/IV 3-in-1 Testing System
VS6841
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Industrial Vision Technology Pte Ltd.
This luminescence Analyzer integrates a Photoluminescence (PL), Electroluminescence (EL) , and I-V Measurement Technology, has a Device’s PL image, EL image, as well Device’s I-V characteristics in One system. It is being using to quantitatively map Minority-Carrier Lifetime, and to characterize the defect of silicon wafer & solar wafer, and measure the key parameters from solar cell I-V Curve. It is also a useful tool for scientist to develop other methodology & parameters that can be used as a promising technique for online material monitoring and process control.
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Product
Solar Cell Tester
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Jiangsu Keyland Laser Technology Co., Ltd.
Features:- Up to standard IEC60904 & JISC8933- 24 hrs continuous working , over 300,000 flash- Siemens PLC system adopted- 10 Parameters display
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Product
Solar Cell Simulation
Setfos
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Easily calculate the short circuit current, open circuit voltage Voc and fill factor with Setfos. Tweak the layer stack and add light scattering layers for enhanced absorption. Optimize for AM1.5 or specific wavelength bandsElectrical IV curvesCurve fitting & parameter extractionAC simulation and transient experiments like photo-CELIVAdvanced device physics: SRH-recombination, excitons, ... Design anti-reflection coatings or transparent cells
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Product
Solar Reference Cell
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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.
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Product
Solar Cell I-V Characterization System
VS6825
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Industrial Vision Technology Pte Ltd.
The VS-6825A I-V test system is tailored for high-efficiency Solar cell production lines. It is able to eliminate the impact of HJT/IBC/TOPCON’s high capacitance characteristics on measurement results.
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Product
Integrated I-V Test Systems
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The OAI Integrated I-V Test System is perfect for R&D as well as production, the OAI Integrated I-V Test System delivers extremely accurate solar cell performance measurement. OAI’s advanced fully Integrated I-V Test System is designed to overcome the limitations of flash testing by providing a highly optimized pulse width and voltage sweep rate to match any type of solar cell’s high capacitance and slow dielectric response speed. As a result, the system produces extremely accurate measurements of solar cell I-V parameters and efficiency while leading to the most accurate test results.
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Product
Datapaq Solar Tracker System
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The SolarPaq® Thermal Profiling Systems from Fluke Process Instruments are designed specifically for solar photovoltaic (PV) manufacturing including applications like contact firing, contact drying, anti-reflection coating for the solar cell, lamination and other thin film processes. These systems, consisting of user-friendly Insight™ software, Datapaq® Q18 data loggers, stainless steel thermal barriers, thermocouples with PTFE or mineral insulation and accessories, provide users with the tools needed to gather accurate, repeatable results for process optimization, maximize cell efficiency and throughput, and more.
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Product
Non-Contact Mapping Life Time System
MWR-2S-3
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The device is designed for express non-destructive contactless local measurement of non-equilibrium charge carrier effective lifetime in silicon substrates, epi-wafers and solar cells at different stages of manufacturing cycle. It can be used for incoming and outcoming inspection of silicon ingots and wafers, tuning and periodic inspection of semiconductor and solar cell technology quality. Lifetime determination is based on measuring photoconductivity decay after pulselight photo-exciting with usage of reflected microwave as a probe.
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Product
Photoelectrochemical Test System
SolarLab XM
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SolarLab XM is an application specific XM (Xtreme Measurement) product that is primarily focused on solar cell / photovoltaic research, developed in conjunction with Professor Laurie Peter of the University of Bath, UK.
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Product
Spectral Response SystemsQuantum Efficiency SystemsIPCE Measurement Systems
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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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Product
High Definition MWIR Science-Grade Camera
FLIR X8580™
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The FLIR X8580 midwave IR camera is designed for scientists and engineers who need to capture detailed imagery of high-speed events, perform custom radiometric measurements, or detect points of failure in composites, solar cells, and electronics. This thermal imaging camera combines 1280 × 1024 HD resolution with fast frame rates and integration times, allowing researchers to record stop motion on fast-moving subjects or rapid temperature changes—whether in the lab or on the test range. With a four-position motorized filter wheel and support for FLIR motorized focus lenses, the X8580 will provide higher quality recordings, save time, and mitigate frustration in dynamic acquisition environments.
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Product
Equipment
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Based on a proprietary light engine, our solar simulation equipment delivers perfect and continuous artificial sunlight 24/7, allowing for accurate stability and performance assessments of solar cells at laboratory and industrial scales.
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Product
Solar Simulator for Multijunction Solar Cells
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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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Product
Flash Solar Power Meter
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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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Product
Software
Solar Cells/ Photovoltaic Devices
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Materials Development Corporation
MDC offers a comprehensive array of current-voltage, capacitance-voltage, and resistivity measurements to characterize solar cells and PV devices. CSM/Win systems and software can help to fine tune your process for maximum efficiency. Critical values such as series and shunt resistances, maximum power point (both actual and theoretical), and fill factor are automatically determined.
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Product
Regenerative AC Load
61800
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Chroma Power Electronics Test Solutions not only apply in the industries of Information Technology, Communication, Aerospace and National Defense, but also in energy efficient products such as Hybrid Automobiles, LED luminance devices, solar and fuel cells that are developed aggressively under the pressure of natural resource constraints. Chroma has a wide variety of instrumentation including AC Power Sources, DC Power Supplies, DC Electronic Loads, AC Electronic Loads, Digital Power Meters, and Automatic Test Systems that are ideal for power input/output terminal tests and dynamic simulation.
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Product
Solar Simulator Continuous Light
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This type of solar simulator uses Xenon high pressure arc lamps as light source. These lamps have a colour temperature near 5800 K, so it is feasible to filter the light output to an excellent AM 1.5 spectrum. If a tuneability of the spectrum is required, these lamps can be combined with tungsten lamps to achieve multi-source solar simulators. These can be used to measure tandem/triple/multijunction solar cells. They also allow detailed analysis of all types of solar cells using a spectral metric (see : Publication List).
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Product
Solar Simulator for Concentrator Cells
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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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Product
Standard Probe Station Chucks & Accessories
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In this test solutions section of our website we describe the expanding line of Abet PV IV probe stations for the growing variety of solar cell types and sizes being developed around the world. This page describes a line of vacuum chucks and accessories for top/bottom, top/top, and bottom/bottom solar cells from 3 x 3 mm to 300 x 300 mm. Probe stations for multiple device on a single substrate and multifunction probe stations are described further in the sections highlighted to the left of this page.
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Product
Solar Cell I-V Characterization System
VS6821
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Industrial Vision Technology Pte Ltd.
This system provides cell manufactures and laboratories a new way in testing and measuring photovoltaic cells. Integrated with Steady-State Solar Simulator, it provides complete coverage of testing parameters and measurement requirements by most international standards. Its test methods, procedure & equipment are IEC 60904 compliant. Calibration of reference cell is performed at Fraunhofer ISE in Germany, and is traceable to PTB.
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Product
Standard & Custom Test Fixtures
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Both standard and custom Test Fixtures from OAI enable the user to integrate the solar cell with the I -V tester. Fixture configurations range from from simple hold down devices to temperature-controlled fixtures with front and back side contact. We invite you to contact an OAI Application Engineer for help with your fixture design. With our expert guidance, you can expect maximum performance from your I -V Tester and Solar Simulator.
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Product
SR/QE Testing System
PVE300
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Industrial Vision Technology Pte Ltd.
Solar Cell Multi-function SR/QE Testing System is specially designed for Photovoltaic Industry to characterize the Optical Performance of Raw material, process wafer, finished solar cell, as well as small Module.
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Product
PV Test Solutions
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High-speed and high-accuracy measurement of solar cell I-V characteristics in three modes
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Product
Compound Semiconductors
GaAs and InP substrates
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Sumitomo Electric Industries, Ltd.
GaAs substrates (compound semiconductors) are used for smartphone power amplifiers and switches, LEDs (illumination, decoration, indicators), and solar cells. InP substrates are used for optical communication modules, etc.
