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標題: 太陽電池元件與系統的模型與模擬
Modeling and Simulation for Solar Cell Devices and System
作者: 張志偉
Chang, Chih-Wei
關鍵字: solar cell;太陽電池
出版社: 光電工程研究所
引用: [1]鍾允昇,「國內太陽光電設備產業現況與挑戰」,314期,機械工業雜誌,7-13,2009。 [2] PVNET, Solar_roadmap_for_PV. [3]黃惠良主編,「太陽電池」,五南出版社,2008。 [4]張耀升,「太陽電池模組製造與應用技術」,立碁光能股份有限公司。 [5]H. F. Sterling and R. C. G. Swann, “Chemical vapor deposition promoted by r.f. discharge,” Solid-State Electronics, vol.8, pp.653-654, 1965. [6]R. C. Chittick, J. H. Alexander, and H. F. Sterling, “The Preparation and Properties of Amorphous Silicon,” J. Electrochem.Sac., vol. 116, pp.77-81, 1969. [7]Y. -F. Alfred, ”Atomic Level Stress Tensor In Amorphous Silicon,” African Institute for Mathematical Sciences, 2006. [8]傅思維,「定光電流量測法在氫化矽薄膜特性的研究」,國立中央大學碩士論文,民國98年3月。 [9]吳泉毅,「矽薄膜太陽電池技術與市場應用」,綠能科技股份有限公司,2010. [10]K. Brecl and M. Topic, ”Simulation of losses in thin-film silicon modules for different configurations and front contacts,” Progress in Photovoltaics, vol. 16, pp. 479-488,2008. [11]劉用波,「應用IsSpice於太陽能模組系統之研究」,逢甲大學碩士論文,民國99年6月。 [12]王耀諄,邱國偉,「『部份遮蔽』對太陽能電池模組輸出特性之影響」,國立雲林科技大學電機工程研究所。 [13]K. H. Chao, C. J. Li, and S. H. Ho, ”Modeling and Fault Simulation of Photovoltaic Generation Systems Using Circuit-Based Model,” Institute for Combustion Science and Environment Technology, pp.1-5, 2008. [14]施仁親,陳震偉,「太陽光模擬器Solar Simulator」,314期,機械工業雜誌,2009。 [15]銀盛科技有限公司,取自: [16]NREL,美國能源部,日本產業技術總合研究所,IEK(2007/8). [17]First Solar;NREL;IEK(2007/8). [18]Prof.C.S.Solanki Energy Systems Engineering IIT Bombay, ”Solar Photovoltaic Technologies,”. [19]國立成功大學 太陽光電科技研究中心 ,取自: [20]Sharp, from [21]A. Aziz, K. Kassmi, F. Olivie, and A. Martinez, ”Symbolization of the electric diagram of the marketed solar panels in the Orcad- Pspice environment,” M.J.Condensed Mater, vol. 7, pp.1-4, 2006. [22]G.. T. Koishiyev and J.R. Sites, ”Impact of sheet resistance on 2-D modeling of thin-film solar cells,” Solar Energy Materials and Solar Cells, vol. 93, pp.350–354, 2009.
Commercialized IC simulation software, HSpice, is applied to analyzing the equivalent circuits of solar cells and constructing monocrystalline silicon solar cell module, including SHARP NU-SOE3E and SP 75, amorphous silicon solar cell module, and amorphous/microcrystalline silicon stacked solar cell module. The solar cell system structure is further constructed on SP 75 monocrystalline silicon module for failure analyses. The simulated conditions follow STC (incident power 100mW/cm2, 25°C, and solar spectrum AM1.5) to observe the output of the solar cell module by changing the factors, like environment temperature, and further analyze the related physical factors. The parameters of circuit devices are moderately regulated to simulate the specifications of market modulus.

在本篇論文中,使用商用IC模擬軟體HSpice分析太陽電池等效電路,建構單晶矽太陽電池模組(SHARP NU-SOE3E以及SP 75)、非晶矽太陽電池模組以及非晶矽/微晶矽層疊式太陽電池模組。在SP 75單晶矽模組上,更進一步建置太陽電池系統結構,並進行故障分析。模擬的環境條件依循STC(入射功率100mW/cm2、25°C以及AM1.5的太陽光譜),並藉由改變環境溫度等因素,觀察太陽電池模組的輸出變化情形並分析相關的物理因素,主要藉由適度的電路元件參數值(parameters of circuit devices)的調整,模擬市售模組(modulus)的基本規格參數。

Key word:solar cell
其他識別: U0005-1608201116154100
Appears in Collections:光電工程研究所

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