本論文中所設計的電路架構為單相位的切換式降壓型直流至直流 轉換器,未來可進一步以多相位並聯之架構來實現,不但能增進系統的 穩定性、降低所需系統頻率且對於負載較大的系統更能發揮其作用。
在設計PID控制器方面,最重要的是相關參數的計算,當採用 Ziegler-Nichols 調整法來計算時,因為其為經驗公式,所得的解並非最 佳解,所以未來在設計PID參數時,可以利用如NCD、類神經網路、基 因演算法、Fuzzy理論..等等方法來搜尋PID參數的最佳解,使系統能夠 有更佳的暫態響應。
數位式電源轉換器主要的優點是容易重新設計,我們可以根據不同 的電源電路規格做調整與轉換,容易的設計出其他不同類型的電壓轉換 器,或更進一步將不同的系統加以整合,所以未來的目標將是以數位控 制技術的優勢來達到更大整合度、更小尺寸、更高效率、更高安全可靠 性、更快瞬時響應、更高靈活性,以及更低的成本。
參考文獻
[1] A. Prodic. D. Maksimovic, and R. W. Erickson "Design and Implementation of a Digital PWM Controller for a High-Frequency Switch DC-DC Power Converters," in Proc. IEEE Conference 2001.
[2] A.Prodic, D.Maksimovic, “Design of a digital PID regulator based on look-up tables for control of high-frequency DC-DC converters,” IEEE
COMPEL, 2002, pp.18-22.
[3] B. J. Patella, A. Prodic, A. Zirger, and D. Maksimovic, "High-frequency digital PWM controller IC for DC–DC converters, " IEEE Trans. Power
Electron., vol. 18, no. 1, pp. 438–446, Jan. 2003.
[4] A. V. Peterchev, S. R. Sanders, "Quantization resolution and limit cycling in digitally controlled PWM converters, " IEEE Trans. on Power
Electronics, Vol.18, No.1, January 2003, pp.301-308.
[5] L. Peng, X. Kong, Y. Kang, and J. Chen, “A novel PWM technique in digital control and its application to an improved DC/DC converter,” in
Proc. IEEE Power Electron. Spec. Conf., 2001.
[6] V. Yousefzadeh, S. Member, D. Maksimovic "Sensorless Optimization of Dead Times in DC–DC Converters With Synchronous Rectifiers"
IEEE Trans. Power Electron., vol. 32, no. 5, pp. 134-139, Apr. 2003.
[7] B. C. Kuo "Automatic Control System" seventh edition,1997.
[8] N. Minorsky, ''Directional Stability of Automatically Steered Bodies,'' J.
Amer. Soc. Naval Engineers, 42(2),pp.280-309, 1922
[9] A. Callender,D.R. Hartree and A.Porter, ''Time-Lag in a Control System,'' Phil.Trans. Roy. Soc. London,235(756),PP.415-444, 1936
[10] J.G. Ziegler and N.B. Nichols, ''Optimum Settings for Automatic Controllers, '' Trans. ASMS, 64, PP.759-768,1942
[11] Angel V. Peterchev, ''Digital Pulse-Width Modulation Control in Power Electronic Circuits: Theory and Applications'', GRADUATE DIVISION
of the UNIVERSITY OF CALIFORNIA, BERKELEY
[12] R. F. Foley, R. C. Kavanagh, " An Area-Efficient Digital Pulse Width Modulation Architecture Suitable for FPGA Implementation" IEEE
Applied Power Electronic Conference,2005,pp.480-484.
[13] Datasheet:ADC0820 8-bit High Speed uP compatible A/D Converter with Track/Hold Function.
[14] R. Erickson, D.Maksimovic, ''Fundamentals of Power Electronics, '' 2nd Edition, Kluwer 2000.
[15] G. F. Franklin, J. D. Powell and M. Workman, ''Digital Control of Dynamic Systems, '' Addison-Wesley,third Edition, 1998.
[16] T. W. Martin and S. S. Ang. ''Digital control of switching converters, '' In Proc. IEEE Internat. Symp. on Indust. Electron., volume 2, pages 480–4, 1995.
[17] A. Syed, E. Ahmed, and D. Maksimovic, ''Digital PWM controller with feed-forward compensation, '' in Proc. IEEE APEC’04, 2004, pp. 60–66.
[18] A. Prodic and D. Maksimovic, ''Digital PWM Controller and Current Estimator for a Low-Power Switching Converter,'' IEEE
Computers in Power Electronic 2000, pp. 123-128.
[19] G. F. Franklin, J. D. Powell Abbas Emami-Naeini, '' Feedback Control of Dynamic System,''4nd. Edition, 2002.
[20] H.Peng,A.Prodit, Dr. Maksimovid,''Modeling of Quantization Effects in Digitally Controlled DC-DC Converters,'' IEEE Transations on
Power Electronics, vol. 18, pp. 438-446,January 2003
2, pp. 1864-1869,2003
[22] V. Yousefzadeh, Toru Takayama, D. Maksimovic ''Hybrid DPWM wiyh Digital Delay-Locked Loop '' IEEE COMPEL, july, 2006
[23] O. Trescases, G. Wei, Wai Tung Ng, ''A Low-Power DC-DC Converter with Digital Spread Spectrum for Reduced EMI'' 37th IEEE Power
Electronics Specialists Conference, june, 2006.
[24] Albert M. Wu, Jinwen Xiao, Dejan Markovic, Seth R. Sanders, “Digital PWM Control: Application in Voltage Regulation Modules”, Annual
IEEE of Power Electronics Specialists Conference, VOL. pp.77-83 July
1999,[25] M. Morris Mano, ''DIGITAL DESIGN'' 3rd Edition, 2002
[26] J. Xiao, A. V. Peterchev, J. Zhang, and S. R. Sanders. A 4-µa quiescent-current dual-mode digitally controlled buck converter IC for cellular phone applications. IEEE J. Solid-State Circ., 39(12):2342–2348, December 2004.
[27] Y. Qiu, M. Xu, K. Yao, J. Sun, and F. C. Lee. The multi-frequency small-signal model for buck and multiphase interleaving buck converters. In Proc. IEEE Applied Power Electron. Conf., pages 392–398, 2005.
[28] Matlab 系列叢書,''視覺化建模環境 Simulink 入門與進階'',鈦思 科技股份有限公司編著,2001
[29] 張智星,MATLAB 程式設計與應用,清蔚科技出版,2001
[30] 鄭錦聰,莊鎮嘉,MATLAB 進階(含 Simulink),全華科技圖書,1997 [31] 李宜達,麥焜燦,MATLAB 在工程上的應用,全華科技圖書,2002 [32] 俞克維,控制系統分析與設計 使用 MATLAB,新文京圖書,2004 [33] 林灶生,劉紹漢,Verilog FPGA 晶片設計,全華科技圖書,2004
[34] 簡弘倫,Verilog 晶片設計 使用 ModelSim,文魁資訊出版,2005 [35] 黃英叡,張銓淵, Verilog 硬體描述語言,全華科技圖書,2003 [36] Samir Palnitkar,Verilog 硬體描述語言,全華科技圖書,1999 [37] 鄭信源,Verilog 硬體描述語言數位電路,儒林圖書,2004 [38] 林振華,數位積體電路設計,全華科技圖書,2001
[39] 黃漢邦,自動控制系統,東華書局,2001