由於陽光照度、溫度變化等不確定之氣候因素，因此，本論文加入氣象局歷史資料，使用擬合分析(curve-fitting)求出一個可周而復始皆可使用的照度曲線；研究目的為建立一套太陽能發電系統電腦模擬介面。其內容包括從一開始太陽能板擺放角度，太陽能電池特性，日照度修正方法，以程式計算最大功率點與實驗室開發的分散式(DPV)與集中式(CPV)系統，兩者相較下，可於遮陰模組匹配選擇上獲得優勢，進而使用本軟體來評估分散式及集中式系統之發電效率。
本研究使用單二極體模型模擬太陽能模組，將模擬結果與實驗進行比較。藉由本軟體的建立，可預先評估太陽能發電系統的發電量；最後對於八片太陽能模組合而成之集中式或分散式太陽能發電系統在受到部分遮陰條件時於一整年進行電腦的模擬。

Due to the solar insolation change and temperature variation. Hence this paper studies consider climatic historical data from Central Weather Bureau. This works can definitely find an continuous cycling curve about irradiance correction coefficient, using by curve fitting.
Objective intends to develop a computer simulation program to analyze a photovoltaic power harvesting system, which covers the solar panel angle, the PV panel’s I-V and P-V curves, irradiance modified method and finds maximum power point (MPP) through LabVIEW software. This works can compare with distributed and centralized system in the lab, obviously realizing any partial shading conditions. Otherwise, this program will evaluate electrical efficiency in the centralized or distributed system.
With the help of the LabVIEW software, this program has been successfully simulated the performance of one PV panel using one-diode photo cell model and compares with experiment result. The simulation of eight PV panel in the centralized or distributed format will be also studied under partial and non-partial shading condition all year long.

[1] http://en.wikipedia.org/wiki/File:Total_World_Energy_Consumption_ by_Source_2010.png
[2] http://b016.ccu.edu.tw/ezcatfiles/b016/img/img/182/091111.pdf

[3] T. Esram and P. L. Chapman, “Comparison of Photovoltaic Array Maximum Power Point Tracking Techniques,” IEEE Trans. Energy Conversion,vol. 22, no. 2, pp. 439-449, June 2007

[4] K. Kobayashi, I. Takano, and Y. Sawada, "A study on a two stage maximum power point tracking control of a photovoltaic system under partially shaded insolation conditions," in IEEE Power Engineering Society General Meeting, 2003, pp. 2612-2617.
[5] 張庭維，應用FPGA晶片及PWM實現MPPT太陽能發電系統之設計與研製，國立成功大學系統所碩士論文，2006年。
[6] 林易賢，整合最大功率追蹤技術之太陽能船推進與與監控系統開發研究，國立成功大學系統所碩士論文，2007年。
[7] 李泰陞，最大功率追蹤應用於太陽能船輔助動力船之開發，國立成功大學系統所碩士論文，2009年。
[8] 鄭煜騰，獨立式太陽能電力擷取系統應用研究，國立成功大學系統所碩士論文，2011年。

[9] K. L. Kennerud, “Analysis of performance degradation in CdS solar cells”, ibid., AES-5, pp.912-917, 1969

[10] J. A. Gow, C. D. Manning, 1999, “Development of a Photovoltaic
Array Model for Use in Power-Electronics Simulation Studies”,IEEProc.-Electr.Power Appl., vol. 146, No. 2, March.

[11] 林鼎傑，太陽能發電系統受遮冷效應之電腦模擬，國立成功大學系統所碩士論文，2012年。

[12] H. Patel and V. Agarwal , 2008, “MATLAB-based modeling to study the effects of partial shading on PV array characteristics,” IEEE Transaction on Energy Conversion, Vol. 23, No 1, pp. 302-310.

[13] H. Patel and V. Agarwal, “Maximum power point tracking scheme for PV systems operating underpartially shaded conditions, ” IEEE Transactions on Industrial Electronics, vol. 55, no. 4, pp. 1689-98,04 2008.

[14] G. R.Walker and P. C. Sernia, “Cascaded dc-dc converter connection of photovoltaicmodules”, IEEE Power Electronics Specialists Conference, June 2002.
[15] 2009~2011年氣候年報
[16] G.N Thwari and SwapnillDubey " Fundamentals of Photovoltaic Modules and their Applications" ,chapter 1
[17] 謝宏燦，基於DSP控制之獨立型太陽能供電系統，國立台灣科技大學電子工程系碩士論文，2009年。
[18] SUNNYWINENERGY,http://www.sunnywinenergy.com/ch/Company%20Profile.htm.
[19] M. A. Green, K. Emery, Y. Hishikawa, and W. Warta, "Solar cell efficiency tables (version 36)," Progress in Photovoltaics: Research and Applications, vol. 18, pp. 346-352, 2010.
[20] Z. Salameh, F. Dagher and W. A. Lynch,“ Step-Down Maximum Power Point Tracker for Photovoltaic System” , Solar Energy, Vol.46, No. 1, pp. 278-282, 1991.
[21] V. Salas, E. Olías, A. Barrado and A. Lázaro,“Review of themaximum power point tracking algorithms for stand-alone photovoltaic systems ” , REVIEW ARTICLE Solar EnergyMaterialsand Solar Cells, Volume 90, Issue 11, pp. 1555-1578, 2006.

[22] S. Singer and A. Braunstein , “Maximum Power Transfer from a Nonlinear Energy Source to an Arbitrary Load ” , IEE Proceedings of Generation Transmission & Distribution, Vol. 134, No. 4, pp. 281-287, 1987.

[23] http://www.lawson.com.tw/products_3.html
[24] http://www.solardesign.co.uk/pv.php
[25] Modelling Photovoltaic Systems using PSpice
[26] 實驗室太陽能發電系統集中式、分散式技術
[27] 陳柏龍，分散式太陽能發電系統設計與實測之研究，國立成功大學系統所碩士論文，2012年。