Authors: Tomi Roinila, Aki Taskinen, Matti Vilkko

Abstract:

Switched-mode converters play now a significant role in modern society. Their operation are often crucial in various electrical applications affecting the every day life. Therefore, the quality of the converters needs to be reliably verified. Recent studies have shown that the converters can be fully characterized by a set of frequency responses which can be efficiently used to validate the proper operation of the converters. Consequently, several methods have been proposed to measure the frequency responses fast and accurately. Most often correlation-based techniques have been applied. The presented measurement methods are highly sensitive to external errors and system nonlinearities. This fact has been often forgotten and the necessary uncertainty analysis of the measured responses has been neglected. This paper presents a simple approach to analyze the noise and nonlinearities in the frequency-response measurements of switched-mode converters. Coherence analysis is applied to form a confidence interval characterizing the noise and nonlinearities involved in the measurements. The presented method is verified by practical measurements from a high-frequency switchedmode converter.

Keywords: Switched-mode converters, Frequency analysis, CoherenceAnalysis.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1082327

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1673

References:

[1] M. Sayani and J. Wanes, "Trends and drivers in isolated board-mounted DC/DC products for communications ap plications," in Proc. IEEE Applied Power Electronics Conference and Exposition, 2003, pp. 37-41.
[2] S. Mobin, H. Takano, and M. Nakaoka, "Simulation of series-parallel resonant DC-DC converter system with DSP based digital control scheme for medical X-ray use," in Proc. IEEE Industry Applications Conference, 1999, pp. 1048-1055.
[3] S. Madani and M. Shahbazi, "A soft-switching hybrid BLDC drive using dc-dc converter," in Proc. IEEE International Electric Machines and Drives Conference, 2009, pp. 1290-1294.
[4] A. Khaligh, S. Williamson, and A. Emadi, "Control and stabilization of DC/DC buck-boost converters loaded by constant power loads in vehicular systems using a novel digital scheme," in Proc. International Power Electronics and Motion Control Conference, 2006, pp. 1769-1775.
[5] M. Ehsani, L. Laskai, and M. Bilgic, "Topological variations of the inverse dual converter for high power DCDC applications," in Proc. IEEE Industry Applications Society Annual Meeting, 1990, pp. 1262-1266.
[6] K. Kobayashi, H. Matsuo, and Y. Sekine, "Novel solarcell power supply system using a multiple-input DCDC converter," IEEE Trans. on Industrial Electronics, vol. 53, no. 1, pp. 281-286, 2006.
[7] L. Palma and P. Enjeti, "A modular fuel cell, modular DC-DC converter concept for high performance and enhanced reliability," in Proc. IEEE Power Electronics Specialists Conference, 2007, pp. 2633-2638.
[8] S.-H. Song, S.-I. Kang, and N.-K. Hahm, "Implementation and control of grid connected AC-DC-AC power converter for variable speed wind energy conversion system," in Proc. IEEE Applied Power Electronics Conference and Exposition, 2003, pp. 154-158.
[9] "Energy star program requirements for displays 5.0," 2009, available: http://www.eu-energystar.org.
[10] R. Calantone and C. D. Benedetto, "Performance and time to market: Accelerating cycle time with overlapping stages," IEEE Trans. on Engineering Management, vol. 47, pp. 232-244, 2000.
[11] T. Suntio, Dynamic Profile of Switched-Mode Converter. Wiley-VCH Verlag GmbH and Co. KGaA, Weinheim, 2009.
[12] T. Roinila, M. Hankaniemi, T. Suntio, M. Sippola, and M. Vilkko, "Dynamical profile of a switched-mode converter - reality or imagination," in Proc. IEEE International Telecommunications Energy Conference, 2007, pp. 420-427.
[13] T. Suntio, M. Hankaniemi, and T. Roinila, "Dynamical modelling of peak-current-mode-controlled converter in continuous conduction mode," Simulation Modelling Practice and Theory, vol. 15, pp. 1321-1337, 2007.
[14] K. Natarajan and M. Yektaii, "Modeling of DC-DC buck converters for large-signal frequency response and limit cycles," IEEE Trans. on Circuits and Systems, vol. 53, pp. 712-716, 2006.
[15] R. Ridley, "Frequency response measurements for switching power supplies," in Unitrode Design Seminar, 1999.
[16] B. Miao, R. Zane, and D. Maksimovic, "A modified cross-correlation method for system identification of power converters with digital control," in Proc. IEEE Power Electronics Specialists Conference, 2004, pp. 3728-3733.
[17] ÔÇöÔÇö, "System identification of power converters with digital control through cross-correlation methods," IEEE Trans. on Power Electronics, vol. 20, no. 5, pp. 1093- 1099, 2005.
[18] ÔÇöÔÇö, "Practical identification of DC-DC converter dynamic responses," in Proc. Applied Power Electronics Conference and Exposition, 2005, pp. 57-62.
[19] ÔÇöÔÇö, "Automated digital controller design for switching converters," in Proc. IEEE Power Electronics Specialists Conference, 2005, pp. 2729-2735.
[20] ÔÇöÔÇö, "FPGA-based digital network analyzer for digitally controlled SMPS," in Proc. IEEE COMPEL Workshop, 2006, pp. 240-245.
[21] A. Barkley and E. Santi, "Improved online identification of switching converters using digital network analyzer techniques," in Proc. IEEE Power Electronics Specialists Conference, 2008, pp. 891-896.
[22] M. Shirazi, J. Morroni, A. Dolgov, and D. Maksimovic, "Integration of frequency response measurement capabilities in digital controllers for DC-DC converters," IEEE Trans. on Power Electronics, vol. 23, no. 5, pp. 2524- 2535, 2008.
[23] A. Barkley and E. Santi, "Online monitoring of network impedances using digital network analyzer techniques," in Proc. Applied Power Electronics Conference and Exposition, 2009, pp. 440-446.
[24] ÔÇöÔÇö, "Improved online identification of a DC/DC converter and its control loop gain using cross-correlation methods," IEEE Trans. on Power Electronics, vol. 24, pp. 2021-2031, 2009.
[25] T. Roinila, T. Helin, M. Vilkko, T. Suntio, and H. Koivisto, "Circular correlation based identification of switching power converter with uncertainty analysis using fuzzy density approach," Simulation Modelling Practice and Theory, vol. 17, pp. 1043-1058, 2009.
[26] T. Roinila, M. Vilkko, and T. Suntio, "Fast loop gain measurement of switched-mode converter using binary signal with specified Fourier amplitude spectrum," IEEE Trans. on Power Electronics, vol. 17, no. 6, pp. 2746- 2755, 2009.
[27] ÔÇöÔÇö, "Fast frequency response measurement of switched-mode converter in the presence of nonlinear distortions," in Proc. IEEE Energy Conversion Congress and Exposition, 2009, pp. 3014-3020.
[28] T. Suntio, M. Karppanen, and M. Hankaniemi, "Analysing the dynamics of regulated converters," IEE Proc. Electronic Power Applications, vol. 153, no. 6, pp. 905-910, 2006.
[29] L. Ljung, System Identification-Theory for the User. Prentice Hall PTR, USA, 1999.
[30] K. Godfrey, Perturbation Signals for System Identification. Prentice Hall, UK, 1993.
[31] K. R. Godfrey, "Introduction to binary signals used in system identification," in Proc. International Conference on Control, 1991, pp. 161-166.
[32] A. Tan and K. Godfrey, "The generation of binary and near-binary pseudo-random signals: An overview," IEEE Trans. on Instrumentation and Measurement, vol. 51, no. 4, pp. 583-588, 2002.
[33] K. R. Godfrey, "Introduction to non-binary signals used in system identification," in Proc. International Conference on Control, 1991, pp. 550-555.
[34] D. Wulich, "Comments on the peak factor of sampled and continuous signals," IEEE Communications Letters, vol. 4, no. 7, pp. 213-214, 2000.
[35] S. Golomb, Shift Register Sequences. San Fransisco, Holden-Day, 1967.
[36] R. Lang, M. Hutchison, and H. Yee, "Microprocessorbased identification system applied to synchronous generators with voltage regulators," Proc. IEE on Generations, Transmissions and Distribution, vol. 130, pp. 257-265, 1983.
[37] S. Lesecq and A. Barraud, "A PRBS with exactly zero correlation and its application," in Proc. 16th Mediterranean Conference on Control and Automation, 2008, pp. 724-728.
[38] T. Roinila, M. Vilkko, and A. Taskinen, "Improved fast frequency response measurement of switched-mode power supplies using Dirac-ideal PRBS excitation," in Proc. International Conference on Adaptive Science and Technology, 2009, pp. 175-181.
[39] R. Pintelon and J. Schoukens, System Identification - A Frequency Domain Approach. Institute of Electrical and Electronics Engineers, Inc., 3 Park Avenue, New York, 2001.