WACOM hyperspectral match*
Dual light source continuous sunlight simulator
AM0/AM1.5 solar simulator
Super solar simulator AM0 &AM1.5G AAA+ grade full-spectrum solar simulator/dual lamp source solar simulator, developed by Wacom, Japan, and has been delivered to AIST, JET, China Academy of Metrology, Shanghai Jiaotong University, Ningbo Institute of Materials Research of Chinese Academy of Sciences and so on.
will bring the following advantages to your research.
- Dual light source design (xenon lamp + halogen lamp), covering a wide spectral matching range of 300 ~ 1800nm
- Very high spectral match, spectral match <±10% (JIS C8942:2009)
- Comply with JIS C8912/IEC 60904-9/ASTM E927-05 specification AAA
AM0 &AM1.5G AAA+ Full SpectrumSunlight Simulator/Double Lamp Solar Simulator, currently developed by WACOM, Japan, and has been delivered to AIST, JET, China Academy of Measurement Sciences, Shanghai Jiaotong University, Ningbo Institute of Materials, Chinese Academy of Sciences, etc. to use;
WACOM offers simulated solar light sources based on halogen lines and xenon lamps that approximate the solar spectrum, as well as light source equipment that focuses on the desired wavelength spectrum. Applications include solar cell characterization, testing of materials and products to simulate solar aging, UV aging test applications, and other customized solutions.
Using these technologies, we offer a wide range of light source equipment, sample stands, and measuring instruments that comply with ISO, IEC, and JIS standards. The Super Solar Simulator presented here has realized smaller and lighter lamps by improving optical efficiency and reducing the size of the lamp power source. (Compared to previous models)
We propose a highly approximate super solar simulator with smaller dimensions than conventional simulators, even though the cell size of the solar cell increases from the equivalent of M2 (156 mm × 156 mm) to the equivalent of M10 (200 mm × 200 mm).
Features.
- A solar simulator that provides illumination extremely close to natural sunlight. Spectral matching accuracy of±10%, exceeding the Class A (±25%) standard. The effective spectral range of 300nm~1800nm provides the possibility for standardization of deep solar cell metrology, research and development of new generation solar cells.
- By integrating the lampshade and lamp power supply together, space savings are realized (compared to previous models).
- Lighter weight than previous models due to improved efficiency of the optical system.
Can be used for testing of various solar cells: amorphous silicon(Amorphus Silicon, a-Si), Microcrystalline silicon(Nanocrystalline Silicon, , ,nc-Si, , ,Microcrystalline Silicon, , ,mc-Si)Semiconductor compoundsII-IV ethnicity[CdS, ,CdTe(Cadmium telluride), ,CuInSe2], Fuel-sensitized cells(DSSC)Organic Conductive Polymers(Organic/polymer solar cells) , ,CIGS (Copper Indium Selenide)etc., especially for the testing of Chalcogenide thin film multi-junction solar cells;
AM1.5 High spectral match
| Specification | Sunlight Simulator | Super Sunlight Simulator |
| irradiated area | ◻100,◻156,◻220,◻300mm | ◻90,◻100,◻220mm |
| Reference equipment size | Customizable sizes | Customizable sizes |
| spectral conformity | W490xD2135xH1410 | W760xD1820xH1870 |
| +15% (350nm~700nm) (Class A) | +10% (Class A+) | |
| +25% (700nm~1100nm) (Class A) | ||
| light source | short-arc xenon lamp | Halogen, Short Arc Xenon |
| irradiance | 100mW/cm^2 | |
| illumination uniformity | ±2% (Class A) | |
| Illumination time stability | ±1% (Class A) | |
| electric power source | 3 Phase 200 VAC 15 A | |
| (an official) standard | jisc8904-9/iec60904-9 | |
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