Spectral Characteristics of Thin-Film Stacked-Tandem Solar Modules
スポンサーリンク
概要
- 論文の詳細を見る
The device current–voltage ($I$–$V$) parameters of thin-film silicon stacked-tandem solar modules consisting of amorphous and microcrystalline silicon have been investigated under various spectral irradiance distributions. Spectrometric characterization method by the current mismatch perturbation has been developed using a large-area multisource solar simulator consisting of Xe lamps and halogen lamps with adequate optical filters. This method enables us to reveal the current-limited component cell and to specify the most suitable spectral distribution for tandem modules to obtain the best performance. Practical procedures for determining the irradiance level for a given single-source solar simulator have been demonstrated in order to carry out $I$–$V$ measurement for tandem cells under nearly standard test conditions (STC). We have determined the differential of $I$–$V$ parameters at various spectral distributions and found that the procedure using a reference tandem cell and its efficiency at STC could minimize variation from the true value even if the spectral distribution deviates from the reference.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2004-10-15
著者
-
Sawada Toru
Kaneka Corporation
-
Ichikawa Mitsuru
Kaneka Corporation
-
YOSHIMI Masashi
Kaneka Corporation
-
Yamamoto Kenji
KANEKA Belgium N.V., Nijverheidsstraat 16, 2260 Westerlo-Oevel, Belgium
-
Nakajima Akihiro
Kaneka Corporation, 2-1-1 Hieitsuji, Otsu, Shiga 520-0104, Japan
関連論文
- Spectral Characteristics of Thin-Film Stacked-Tandem Solar Modules
- Optimization of Device Design for Thin-Film Stacked Tandem Solar Modules in Terms of Outdoor Performance
- Optical Confinement Effect for below 5 μm Thin Film Poly-Si Solar Cell on Glass Substrate
- Spectral Effects of a Single-Junction Amorphous Silicon Solar Cell on Outdoor Performance
- Thin-Film Polycrystalline Si Solar Cell on Glass Substrate Fabricated by a Novel Low Temperature Process
- Optimization of Device Design for Thin-Film Stacked Tandem Solar Modules in Terms of Outdoor Performance
- Advanced Light Trapping of High-Efficiency Thin Film Silicon Solar Cells
- High Efficiency Silver-Free Heterojunction Silicon Solar Cell
- Spectral Effects of a Single-Junction Amorphous Silicon Solar Cell on Outdoor Performance
- Spectral Characteristics of Thin-Film Stacked-Tandem Solar Modules