Showing results: 136 - 150 of 443 items found.
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VS6825 -
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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GEN 2 -
Alpha-Omega Power Technologies, LLC.
The GEN 2 pulsed solar simulator and data acquisition systems can generate over 1,200 suns with a spot size of 12 mm x 12 mm at a rate of 2 pulses per second.
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NPC Incorporated
We provide various performance/safety tests including insulation resistance measurement, ground resistance measurement as well as string I-V inspection, EL inspection, and IR inspection using thermography. We provide services of pre-operation voluntary test and pre-operation self check, mandated by revision of FIT scheme in 2017 for solar plants of 500kW – 2,000kW.
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VS6821 -
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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Freese Enterprises Inc.
Freese Enterprises (FEI) can create custom solar/photovoltaic test equipment using the various types of PV test and measurement instrumentation from our industry leading partners such as Agilent Technologies.
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SORAS LS -
PSE Instruments GmbH
In certification laboratories for photovoltaic modules, steady-state solar simulators are mostly used for stabilization / light soaking tests (MQT 19) and hot-spot endurance tests (MQT 09) according to IEC 61215 and IEC 61730. An initial stabilization is required for all PV modules that undergo a standard test procedure. For the hot-spot endurance test (MQT 09), it is important that the operator has easy access to the front and back site of the module. During the test, it is necessary to shade one cell after each other to take infrared pictures, which requires good visibility of the entire back side. Our swiveling module holding system enables easy access to the front and back side of the module.
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7201 -
Chroma ATE Inc.
The Chroma 7201 was designed to measure wafer lengths, widths, diagonal, orthogonal and chamfer size and angle, it is also capable to detect surface stains. User friendly software and GUI enable versatile parameter setting and result, it also provides a defect display and storage function for further analysis or potential MES/CIM integration.
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EWSX282 -
ESPEC North America, INC.
ESPEC's solid construction walk-ins are desirable for testing large loads of PV modules or panels at 85°C/85% as well as humidity-freeze and temperature cycling tests. Hermetically welded seams and stainless-steel interior ensure integrity under extreme conditions required by IEC.The models come in different performance versions, depending on your application. More powerful performance allows you to complete the temperature-cycling test faster, or with a maximum number of modules. There also is a 'damp-heat' only model that saves you capital-cost and energy.
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Laminator - Three Chambers -
Qinhuangdao Boostsolar Photovoltaic Equipment Co., Ltd
1. Effective lamination area : 2400mm × 4500mm2. Dimensions: see outline drawing3. Heating method: heat conduction oil heating (63KW heating station)4. Compressed air source pressure : 0.6 ~ 0.8MPa5. Working vacuum degree: 100 ~ 40Pa6. Evacuation rate: (according to vacuum pump)7. Temperature control accuracy: ±1.5°C8. Temperature control range: room temperature - 180°C9. Temperature uniformity: effective lamination area ≤ ± 2 ℃10. Lamination cavity height: 30mm11. Evacuation time: depending on the process, it is recommended to take 5 to 8 minutes12. Upper cover stroke: 300mm13. Cooling power: 20KW
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Laminator-Ⅲ -
Qinhuangdao Boostsolar Photovoltaic Equipment Co., Ltd
1. Effective lamination area: 2200mm × 3600mm2. Dimensions: length 12380mm × width 3665mm × height 2164mm3. Heating method: heat conduction oil heating4. Compressed air source pressure: 0.6~0.8MPa5. Working vacuum degree: 100~40Pa6. Evacuation rate: 70L/S7. Temperature control accuracy: ±1.5°C8. Temperature control range: room temperature - 180°C9. Temperature uniformity: effective lamination area ≤±2°C10. Lamination cavity height: 30mm11. Evacuation time: depending on the process, it is recommended to be 5 to 8 minutes12. Upper cover stroke: 300mm
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Laminator-H -
Qinhuangdao Boostsolar Photovoltaic Equipment Co., Ltd
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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ENX112 -
ESPEC North America, INC.
The ENX112 chambers provide a test chamber large enough for testing full-size PV modules in the least amount of floorspace. Can be use for panels 1.2m x 2m or larger.These models provide a variety of performance capabilities to meet maximum or minimum change rates in IEC or UL test standards. Incorporated are the features of our smaller Platinum and Global-N lines. The refrigeration systems of these models utilize modern, high performance scroll compressors that allow a small footprint while allowing unparalleled service access.
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Bestone Industrial Ltd.
This meter is a precision instrument for measuring light intensity. It is used in solar radiation measurement, solar research, physical and optical experiments, meteorology, and agriculture. I can also be used to measure glass ligh intensity to verify glass properties. For example: Measurement of light intensity through vehicle windows.
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FLIR CM65 -
Teledyne FLIR
The CM65 clamp meter is designed for solar installation, maintenance, and troubleshooting professionals. Photovoltaic (PV) installers can trust this rugged solar clamp meter to accelerate and simplify PV panel testing at new and existing sites. The quick-connect MC4 test leads and non-invasive clamp-on current readings make DC voltage measurements on solar panel strings and inverters safer, more accurate and easier to perform. Validate AC output and inverter efficiency quickly, and monitor readings from your smartphone via a wireless METERLiNK® connection to the FLIR Tools® mobile app. These features make the FLIR CM65 the PV installer’s go-to clamp meter for faster, safer results.