111 REFERENCES [1] Alecsa, B.; Ioan, A., “FPGA implementation of a sinusoidal PWM generator with zero sequence insertion” Advanced Topics in Electrical Engineering (ATEE), 2011 7th International Symposium on Publication Year: 2011, Page(s): 1 – 4. [2] Applied Power Electronics Conference, APEC 2007 - Twenty Second Annual IEEE Digital Object Identifier: Publication Year: 2007, Page(s): 1552 - 1558 IEEE Conference Publication. [3] Arash A Boora, FiruzZare, Gerard Ledwich, ArindamGhosh,” General Approach to Control a Positive Buck-Boost Converter to Achieve Robustness against Input Voltage Fluctuations and Load Changes,” IEEE Annual Power Electronics Specialists Conference, 2008. [4] Biranchinath Sahu, Gabriel A. Rincón-Mora,” presented A Low Voltage, Dynamic, Noninverting, and Synchronous Buck-Boost Converter for Portable Applications,” IEEE TRANSACTIONS ON POWER ELECTRONICS, VOL. 19, NO. 2, MARCH 2004. [5] Bogdan Alecsa and Alexandru Onea (2011) “Comparison between Two Modulation Techniques for Three Phase Inverters from a Hardware Implementation Point of View”. [6] Carrejo, C.E.; Vidal-Idiarte, E.; Estibals, B.; Alonso, C, “FPGA-based digital voltagecurrent controller for a buck converter”,. IECON 2010 - 36th Annual Conference on IEEE Industrial Electronics Society Digital Object Identifier: Publication Year: 2010 , Page(s): 126 – 131. 112 [7] Carrere P., “Etude et realization des convert issuers multi cellulaires series an IGBT: Équilibrage des tensions flottantes,” Ph.D. dissertation, Institute National Polytechnique de Toulouse, Toulouse, France, 1996. [8] Chakraborty, A. Khaligh, A. Emadi, A. Pfaelzer, A. Power Electronics Specialists Conference, 2006. PESC '06. 37th IEEE 18-22 June 2006. [9] Chakraborty, Arindam; Khaligh, Alireza; Emadi, Ali; “Combination of Buck and Boost Modes to Minimize Transients in the Output of a Positive Buck-Boost Converter” IEEE Industrial Electronics, IECON 2006 - 32nd Annual Conference on Nov. 2006. [10] Cismasiu D., Popescu V., and Lascu D., “Single-stage PFC power supply with universal input and automatic voltage clamping,” 11th WSEAS International Conference on Circuits, pp. 109-114, 2007. [11] Cliudio Manoel da Cunha Duarte, Ivo Barbi, “A New ZVS-PWM buck boost Active-Clamping High Power Factor Rectifier: Analysis, Design, and Experimentation,” IEEE 1998. [12] Costabeber A., Mattavelli P., and Saggini S., “Digital time-optimal phase shedding in multiphase buck converters,” IEEE Trans. Power Electron. , vol. 25, no. 9, pp. 2242– 2247, Sep. 2010. [13] Cruz Martins D. , de Souza Campos F. , and Barbi I., “Zeta converter with high power factor operating in continuous conduction mode,” IEEE IECON 22nd International Conference, Industrial Electronics, Control, and Instrumentation, Vol.3, pp.1802-1807, 1996. 113 [14] Design Applications Notes,” Tech. Rep., Linear Technology, Oct. 2001. [15] Duarte C.M.C. and Barbi I., “A Family of ZVS-PWM Active- Clamping DC-toDC Converters: Synthesis, Analysis, and Experimentation”, in INTELEC, 1995 Proceedings, pp. 502-509. [16] Duarte C.M.C. and Barbi I., “A New Family of ZVS-PWM Active- Clamping DC-to-DC Boost Converters: Synthesis, Analysis, and Experimentation“, in INTELEC, 1996 Proceedings, pp. 305-3 12. [17] Electronic device for electrical energy conversion,” European Patent 92/916 336.8, July 1992. [18] Elements constitutes et syntheses des convert issuers statiques,” Tech. Ing. , vol. D3152, pp. 1–17. [19] Eric William Zurita-Bustamante, Jesus Linares-Flores, Enrique Guzman-Ramirez and Hebertt Sira-Ramirez “FPGA Implementation of PID Controller for the Stabilization of a DC-DC “Buck” Converter”. [20] Erickson R. W., Fundamentals of Power Electronics, 1st Ed. New York: Chapman and Hall, 1997. [21] Erickson R., Madigan R., and Singer S.," Design of a simple high power factor rectifier based on the flyback converter," IEEE APEC90, 1990, pp.792-801. [22] Foch H., “Commutation dans les convert issuers statutes,” Tech. Ing. , vol. D3153, pp. 1–18. 114 [23] Ghanem M.C., Al-Hassad K., and Roy G.," A new control strategy to achieve sinusoidal line in a cascade buck-boost converter," IEEE Trans. Indu. Elec., Vol.43, pp. 441-449, May 1996. [24] Hua G., Leu C.S. , and Lee F.C., “Novel zero-voltage-transition PWM Converters”, in IEEE PESC Records, p. 55-61, 1992. [25] Hwu, K. I.; Yau, Y. T., “Improvement of Transient Load Response for the ZVS Buck Converter Using FPGA-based Control”. [26] In-Dong Kim, Seong-Hwan Paeng ,Jin-Woo Ahn , Eui-Cheol Nho, ” New Bidirectional ZVS PWM Sepic/Zeta DC-DC Converter,” Industrial Electronics, 2007. IEEE 2007. [27] In-Dong Kim ,Seong-Hwan Paeng ,Jin-Woo Ahn , Eui-Cheol Nho, ” New Bidirectional ZVS PWM Sepic/Zeta DC-DC Converter,” Industrial Electronics, 2007. IEEE 2007. [28] Jih-Sheng Lai, Senior Member, IEEE, and Fang Zheng Peng, (1996) “Multilevel Converters-A New Breed of Power Converters”. [29] Jingquan Chen, Maksimovic, D. Erickson, R, “ Buck-boost PWM converters having two independently controlled switches,” Power Electronics Specialists Conference, 2001. PESC. 2001 IEEE, Volume: 2. 115 [30] Jitty Abraham, K.Vasanth,” Design and Simulation of Pulse-Width Modulated ZETA Converter with Power Factor Correction,” International Journal of Advanced Trends in Computer Science and Engineering, Vol.2, 2013. [31] John Sustersic, John R. (Jack) Zeller, Zhiqiang Gao “Design and Implementation of a Digital Controller For DC-to DC Power Converters”. [32] Jozwik J.J and Kazimierczuk M.K., “Dual spespic PWM switching-mode DC/DC power converter,” IEEE Trans. Industrial Electronics, Vol.36, pp.64-70, 1986. [33] Kai Wan and Mehdi Ferdowsi, “Three-Phase Soft Switching Rectifier Based on a ZCS Zeta Converter,” IEEE 2006. [34] Khaligh, A. Rahimi, A.M. Khaligh, M. Emadi , “A Sensitivity Analyses of Pulse Adjustment Control Technique of a Buck-Boost Converter Operating in Discontinuous Conduction Mode,” Vehicle Power and Propulsion Conference, IEEE 2006. [35] Lai, J.S. and Peng F.Z., ”Multilevel converters –A new breed of power conversion” IEEE Trans. 1nd. Applicant. Vol.32, pp. 509-517, May/June. 1996. [36] Lenk, R., Practical Design of Power Supplies. New York: McGraw-Hill, 1998. [37] Lin J-L. , Yang S-P. , and Lin P-W, “Small-signal analysis and controller design for an isolated zeta converter with high power factor correction,” Electric Power Systems Research, vol.76, pp.67-76, 2005. 116 [38] Liu P.-J., Lo Y.-K., Chiu H.-J., and Chen Y.J. E., “Dual-current pump module for transient improvement of step-down dc–dc converters,” IEEE Trans. Power Electron., vol. 24, no. 4, pp. 985–990, Apr. 2009. [39] Liu T., Yeom H., Vermeire B., Adell P., and Bakkaloglu B., “A digitally controlled dc–dc buck converter with lossless load-current sensing and BIST functionality,” in Proc. 2011 IEEE Int. Solid-State Circuits Conf., Feb. 2011, pp. 388–390. [40] Mariko Shirazi, Regan Zane and Dragan Maksimovic (2009) “An Auto tuning Digital Controller for DC–DC Power Converters Based on Online Frequency-Response Measurement”. [41] Martins D.C. , “Zeta converter operating in continuous conduction mode using the unity power factor technique,” Sixth International Conference, Power Electronics and Variable Speed Drives, pp.7-11, 1996. [42] Martins D.C. and de Oliveira A.H. , “Isolated three-phase rectifier using a Sepic DC-DC converter in continuous conduction mode for power factor correction,” WSEAS Trans. Circuits, vol. 2, no. 1, pp. 13-19, 2003. [43] Morizane, T. Shimomori, W. Taniguchi, K. Kimura, N., “PWM Technique for Non-Isolated Three-phase Soft-Switching Buck-boost PFC Converter,” Power Conversion Conference, 2007. [44] Niculescu E. , Niculescu M.C., and Purcaru D-M., “Modeling the PWM zeta converter in discontinuous conduction mode,” 11thWSEAS International Conference on Circuits, pp. 98-103, 2007. 117 [45] Oscar Lopez, Jacobo Alvarez, Jesus Doval-Gandoy, Francisco D. Freijedo, Andres Nogueiras, Alfonso Lago, and Carlos M. Penalver (2008). “Comparison of the FPGA Implementation of Two Multilevel Space Vector PWM Algorithms”. [46] Oscar Lopez, Member, Jacobo Alvarez, Jesus Doval-Gandoy, Member and Francisco D. Freijedo (2008) “Multilevel Multiphase Space Vector PWM Algorithm”. [47] Peres A. , Martins, C., and Barbi I., “Zeta converter applied in power factor correction,” Power Electronics Specialists Conference, PESC., vol.2, pp.1152-1157, 1994. [48] Prakash, D., Ranithottungal and Sundaram,M. “An Effective Wind Energy System based on Buck-boost Controller ,” Res. J. Appl. Sci. Eng. Technol., 6(5): 825-834, 2013. [49] Rahim, N.A., and Islam, Z., (2009) “Field Programmable Gate Array-Based PulseWidth Modulation for Single Phase Active Power Filter”. [50] Ranganath, B.J. Amurth,R.T ,” Design of DC/DC Buck-Boost Converter Charge Controller for Solar Power Applications,” Volum: 2 , Issue : 7, July 2013 ISSN No 2277 – 8160. [51] Rashid M.H., Power Electronics Handbook. Florida, Academic Press, 2001. [52] Rashid, M.H. Power Electronics: Circuits, Devices and Applications (3rd Ed.). Pearson-Prentice Hall, pp.186-203, 2004. 118 [53] Regis Ruelland, Guillaume Gateau, Thierry A. Meynard, and Jean-Claude Hapiot(2003) “Design of FPGA-Based Emulator for Series Multicell Converters Using Co-Simulation Tools”. [54] Retif, J.M., Allard B., Jorda, X. and Perez A., 1993. Use of ASIC’s in PWM techniques for power converters. Proceedings of the International Conference on Industrial Electronics, Control and Instrumentation, Nov. 15-19, IEEE Xplore Press, Maui, HI, USA, pp: 683-688. DOI: 10.1109/IECON.1993.338998. [55] Ruelland R., Gateau G., Meynard T., Hapiot J., Design of FPGA-based emulator for seriesmulti cell converters using cosimulation tools, IEEE Transactions on Power Electronics 18 (2003) 455–463. [56] Sahu B. and A.Rincón-Mora G., “A high-efficiency, linear RF power amplifier with a power-tracking, dynamically adaptive buck-boost supply,” IEEE Trans. Microwave Theory Tech., to be published. [57] Sahu, B.; Rincon-Mora, G.A.; “A low voltage, dynamic, non inverting, synchronous buck-boost converter for portable applications” Power Electronics, IEEE Transactions on Volume 19, Issue 2, March 2004. [58] Sebastien Mariéthoz, Stefan Almér, Mihai Bâja, Andrea Giovanni Beccuti, Diego Patino, Andreas Wernrud, Jean Buisson, Hervé Cormerais, Tobias Geyer, Hisaya Fujioka, Ulf T. Jönsson, Chung-Yao Kao, Manfred Morari, Fellow, Georgios Papafotiou, Anders Rantzer, Fellow, and Pierre Riedinger (2010) were presented a Comparison of Hybrid Control Techniques for Buck and Boost DC-DC Converters. 119 [59] Sehirli,E. Altinay, M. “Input-output linearization control of single-phase buck-boost power factor corrector,” Universities Power Engineering Conference (UPEC), 2012. [60] Silva C.S., “Power Factor Correction with the UC3854”, Unit rode Application Note. C.Simpson. (2003) Characteristics of Rechargeable Batteries. [61] Simonetti D.S.L., Sebastian J., dos Reis F.S. and UcedaJ. "Design criteria for SEPIC and CUK converters as power factor pre-regulators in discontinuous conduction mode," IEEE IECON92, 1992, pp283-288. [62] Singh B., Singh B. N., Chandra A., Al-Haddad K., Pandey A., and Kothari D., “A review of three-phase improved power quality AC-DC converters,” IEEE Trans. Ind. Electron., vol. 51, no. 3, pp. 641–660, Jun. 2004. [63] Singh, B.N. Singh, Chandra A., Al-Haddad K., Pandey A. and Kothari D.P., “A review of single-phase improved power quality AC-DC converters,” IEEE Trans. Industrial Electronics, vol.50, pp.962-981, 2003. [64] Sinha, A.., and Chandrakasan, A.. “Dynamic power management in wireless sensor networks,” IEEE Design Test Comput., vol. 18, pp. 62–74, Mar./Apr. 2001. [65] Stihi, O. and Ooi B.T., 1988. A single-phase controlled current PWM rectifier. IEEE T. Power Electron, 3(1988): 453. [66] SudhakarababuC., and Veerachary M., “Zeta converter for power factor correction and voltage regulation,” IEEE Region 10 Conference, TENCON, vol.4, pp.61-64, 2004. 120 [67] Viero, R.C. Lopez, H.F.M. Zollmann, C.A. ,dos Reis, F.S.,” Dynamic modeling of a sinusoidal inverter based on ZETA converter working in DCM for PV arrays,” IECON 2010 - IEEE ,2010. [68] Vuthchhay E., Bunlaksananusorn C., and Hirata H., “Dynamic modeling and control of a zeta converter,” International Symposium, Communications and Information Technologies, ISCIT. Pp.498-503, 2008. [69] Wang Jianhua , Nanjing, China Zhang Fanghua , Gong Chunying , Chen Ran,” Modeling and analysis of a buck/boost bidirectional converter with developed PWM switch model,” Power Electronics and ECCE , IEEE 2011. [70] Wang, K., Geng L. and Meng Q., 2008. Efficiency improvement in buck-boost converter aimed at SOC utilization. Proceeding of IEEE International Conference on Industrial Technology, Chengdu, China, April 21-24, pp 1-5. [71] Weissbach, R.S.; Torres, K.M.; “A non inverting buck-boost converter with reduced components using a microcontroller. “ South east Con 2001. Proceedings. IEEE 30 March-1 April 2001. [72] Wen Y., andTrescases O., “DC–DC converter with digital adaptive slope control in auxiliary phase to achieve optimal transient response”, in Proc. 26th Annu. IEEE Appl. Power Electron. Conf. Expo. , Mar. 2011, pp. 331–337. [73] Wu C., “Evaluation and implementation of the optimum magnetic design of the Cuk converter in comparison to the conventional buck-boost converter,” IEEE Trans. Magnetics, vol.18, pp.1728-1730, 1982. 121 [74] Wu, T.F. , Liang, S.A. Chen, Y.M., ” Soft-switching Zeta converter with an asymmetrical PWM control,” Applied Power Electronics Conference and Exposition, 2002. IEEE ,Volume:1, 2002. [75] Yacoubi L., Al-Haddad K., Dessaint L.-A., and Fnaiech F., “Linear and nonlinear control techniques for a three-phase three-level NPC boost rectifier,” IEEE Trans. Ind. Electron., vol. 53, no. 6, pp. 1908–1918, Dec. 2006. [76] Yang, S. C., CDMA RF Systems Engineering. Norwood, MA: Artech House, 1999. [77] Zhang, S., Tseng K.J. , Vilathgamuwa D.M. , Nguyen T.D. and Xiao-Yu W., 2011. Design of a robust grid interface system for PMSG-based wind turbine generators. IEEE T. Ind. Electron. 58(1): 316-328. [78] Zhou D., "Synthesis of PWM Dc to Dc Power Converters,” Ph.D. thesis, California Institute of Technology, October 1995.