References

Below are enumerated the list of important references related to this dissertation.

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[2] R. Nowakowski and N. Tang, “Efficiency of synchronous versus nonsynchronous buck converters,” Analog Applications Journal, pp. 1–6, 2009.

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[5] M. Run, C. Chen, Z. X. Dong, and Z. X. Cheng, “Optimal current observer for predictive current controlled buck dc-dc converter,” in International Symposium on Computer, Consumer and Control (IS3C’2014), Jun 2014, pp. 896–899.

[6] J. W. Kimball, “Digital control techniques for switching power converters,” Ph.D. dissertation, University of Illinois at Urbana-Champaign, 2007.

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[8] Y.-F. Liu, E. Meyer, and X. Liu, “Recent developments in digital control strategies for DC/DC switching power converters,” IEEE Transactions on Power Electronics, vol. 24, no. 11, pp. 2567–2577, Nov 2009.

[9] R. Dhanasekaran, S.; Kumar, E.; Vijaybalaji, “Different methods of control mode in switch mode power supply – A comparison,” International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, vol. 3, no. 1, pp. 6717–6724, 2014.

[10] R. Mammano, “Switching power supply topology voltage mode vs. current mode,” Unitrode, Design Note 62, 1994.

[11] M. Zimnik, “Comparison of PWM voltage and current mode control schemes vs. improved hysteretic mode control in switch mode power supplies (SMPS),” Texas Instruments, Inc., White paper.

[12] R. Sheehan, “A new way to model current-mode control – Part one,” Power Electronics Technology, pp. 14–20, May 2007.

[13] D. Meeks, “Loop stability analysis of voltage mode buck regulator with different output capacitor types – Continuous and discontinuous modes,” Texas Instruments, Application Report SLVA301, Apr 2008.

[14] R. Ridley, “Designer’s Series: Current-mode control modeling – Part V,” Switching Power Magazine, pp. 1–12, 2006.

[15] L. Dixon, “Average current mode control of switching power supplies,” Unitrode, Application Note U-140, pp. 356–369.

[16] R. Sampath, “Digital peak current mode control of buck converter using MC56F8257 DSC,” Freescale Semiconductor, Application Note 4716 Rev. 1, May 2013.

[17] G. Hariman and C. Richardson, “Control method solves low duty-cycle dilemmas,” Power Electronics Technology, pp. 22–30, Sep 2006.

[18] P. Midya, P. Krein, and M. Greuel, “Sensorless current mode control-an observer-based technique for dc-dc converters,” Power Electronics, IEEE Transactions on, vol. 16, no. 4, pp. 522–526, Jul 2001.

[19] P. Mattavelli, “Digital control of DC-DC boost converters with inductor current estimation,” in IEEE Nineteenth Annual Applied Power Electronics Conference and Exposition (APEC’2004), vol. 1, 2004, pp. 74–80.

[20] A. Beccuti, S. Mariethoz, S. Cliquennois, S. Wang, and M. Morari, “Explicit model predictive control of dc-dc switched-mode power supplies with extended kalman filtering,” IEEE Transactions on Industrial Electronics, vol. 56, no. 6, pp. 1864–1874, June 2009.

[21] Y. Qiu, H. Liu, and X. Chen, “Digital average current-mode control of PWM DC-DC converters without current sensors,” IEEE Transactions on Industrial Electronics, vol. 57, no. 5, pp. 1670–1677, May 2010.

[22] Q. Zhang, Q. Tong, and H. Zhang, “An inductor current observer based on improved EKF for DC/DC converter,” in International Symposium on Computer, Consumer and Control (IS3C’2014), Jun 2014, pp. 892–895.

[23] B. Johansson, “Improved models for DC-DC converters,” Licenciate Thesis, Lund University, 2003.

[24] R. D. Middlebrook and S. C´ uk, “A general unified approach to modelling switchingconverter power stages,” in Proceedings of the IEEE Power Electronics Specialists Conference (PESC’1976), 1976.

[25] S. M. C´ uk, “Modelling, Analysis, and Design of Switching Converters,” Ph.D. dissertation, California Institute of Technology, Nov 1977.

[26] M. R. Modabbernia, F. Kohani, R. Fouladi, and S. S. Nejati, “The state space average model of buck-boost switching regulator including all of the system uncertainties,” International Journal on Computer Science and Engineering, vol. 5, no. 2, pp. 120–132, 2013.