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標題: 數位化多模組電能轉換系統
Digitized Multi-module Power Conversion System
作者: 楊友惠
Jong, Yew-Fui
關鍵字: 降壓轉換器;buck converter;換流器;多模組再生能源並聯系統;數位訊號處理器;inverter;digital signal processor;multi-module system
出版社: 電機工程學系所
引用: [1] I. Takahashi, T. Sakurai, and I. Andoh., “Development of a Simple Photovoltaic System for Interconnection of Utility Power System,” in Proc. Int. Conf. Power Electron., Drives and Energy Syst. Ind. Growth, New Dehli, India, pp. 88-93, 1996. [2] 陳伯僑,”數位化多模組太陽光電能轉換系統之研製”,國立中興大學電機工程學系碩士論文,民國一百年七月。 [3] 許婷婷,”基於DSP控制之模組串聯併網型太陽能供電系統”,國立台灣科技大學電子工程系碩士論文,民國九十八年六月。 [4] 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,民國九十八年六月。 [5] 陳洪典,”全數位化控制之休旅車用變頻器研製”,國立台灣科技大學電子工程系碩士論文,民國九十八年六月。 [6] 李思賢,”數位式單相低功率太陽能轉換系統”,國立中山大學電機工程學系碩士論文,民國九十二年七月。 [7] 李政勳,”小型太陽光電能能量轉換系統之研製”,國立中山大學電機工程學系碩士論文,民國九十一年六月。 [8] Yaow-Ming Chen and Yuan-Chuan Liu, “Multi-Input Inverter for Grid-Connected Hybrid PV/Wind Power System”, IEEE Tran. Power Electron, vol. 22, pp.1070-1077, 2007. [9] Chih-Lung Shen and Cheng-Tao Tsai, “A Modified-Forward Multi-input Power Converter for Solar Energy and Wind Power Generation”, in Power, Energy, & Ind. Applications ,pp.631-636, 2009. [10] Wei Jiang and Fahimi, B “Maximum Solar Power Transfer in Multi-port Power Electronic Interface”,in Power, Energy, & Ind. Applications ,pp.68-73, 2010 [11] C. Hua, J. Lin, and C. Shen, “Implementation of a DSP-Controlled Photovoltaic System with Peak Power Tracking,” IEEE Trans. Ind. Electron., vol. 45, pp 99-107, 1998. [12] D.Y. Lee, H.J. Noh, D.S. Hyun and I. Choy., “An Improved MPPT Converter Using Current Compensation Method for Small Scaled PV-applications”, in Proc. Applied Power Electronics Conference and Exposition, Miami, FL, pp. 540-545, 2003. [13] I.H. Altas and A.M. Sharaf., “A Novel Fuzzy Logic Controller for Maximum Power Extraction From a PV Array Driving a Three-phase Induction Motor,” in Proc. Mediterranean Electrotechnical Conference, Anatalya, Turkey, pp.853-856, 1994. [14] M.A.S. Masoum, S.M.M. Badeiani, and E.F. Fuchs., “Microprocessor-controlled New Class of Optimal Battery Chargers for Photovoltaic Applications,” in Proc. Power Engineering Society General Meeting, Denver, Colorado, pp. 1489, 2004. [15] T. Esram and P. L. Chapman, “Comparison of Array Maximum Power Point Tracking Techniques”, National Science Foundation ECS-01-34208.2004 [16] F.S. Sun, Study of High Performance PV System, Doctoral Dissertation, Department of Mechanical Engineering, National Taiwan University, 2005. [17] T.Y. Kim, H.G. Ahn, S. K. Park, and Y.K. Lee, “A Novel Maximum Power Point Tracking Control for Power System under Rapidly Changing Solar Radiation,” in Proc. IEEE International Symp. Ind. Electron., 2001, pp. 1011-1014. [18] K. Kobayashi, H. Matsuo, and Y. Sekine, “A Novel Optimum Operating Point Tracker of the Solar Cell Power Supply System,” in Proc. 35th Annual IEEE Power Electron. Specialists Conf., 2004, pp. 2147-2151. [19] S. Yuvarajan and S. Xu, "Photo-voltaic Power Converter with a Simple Maximum-Power-Point-Tracker," in Proc. 2003 International Symp. Circuits and Syst., 2003, pp. III-399-III-402. [20] 林容益, “TMS320F281X系統DSP數位化機電控制”,全華圖書股份有限公司,2008。 [21] W. Xiao, N. Ozog, and W. G. Dunford, “Topology Study of Photovoltaic Interface for Maximum Power Point Tracking,” IEEE Transactions on Industrial Electronics, vol.54, no.3,pp. 1696-1704,2007. [22] M.H. Rashid, Power Electronics 3rd ed., Prentice Hall, 2004. [23] S. Ang and A. Olivia, Power-Switching Converters, CRC Press, Boca Raton, 2005. [24] A. I. Pressmen, Switching Power Supply Design, 2nd ed., McGraw-Hill, New York, 1999. [25] D.W. Hart, Introduction to Power Electronics, Free Press, 1998.

The thesis proposes Digitized Multi-module Power Conversion System. The three modules include a large solar-cell module, a small solar-cell module, and a battery module. This system can switch the power supply modules based on the loading for the better efficiency of power usage. Those three modules are for auxiliary power applications, the mains power supply is Utility. The large solar-cell module lowers the DC voltage using the buck converter with maximum power point tracking, and then converts DC power to AC power using a full-bridge inverter. The small solar-cell module or the other renewable power module forms an auxiliary power supply system. The battery module makes use of the car battery as the power source; its DC voltage is boosted by using a push-pull converter, and then converted to 110 VAC. A DC power monitor limits the use of the battery to ensure that the remaining voltage level is high enough to start the car’s engine when necessary. A digital signal processor (TMS320F2812) is used to realize the power management system. Availability of our design has been fully verified via real-world experiments.
其他識別: U0005-0403201316585900
Appears in Collections:電機工程學系所

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