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Study and Implementation of a Current-Fed Full-Bridge Boost DC– DC Converter With Zero-Current Switching for High-Voltage Applications ABSTRACT: This paper presents a comprehensive study of a current-fed full-bridge boost dc–dc converter with zero-current switching (ZCS), based on the constant on-time control for high voltage applications. The current-fed full-bridge boost converter can achieve ZCS by utilizing the leakage inductance and parasitic capacitance as the resonant tank. In order to achieve ZCS under a wide load range and with various input voltages, the turn-on time of the boost converter is kept constant, and the output voltage is regulated via frequency modulation. The steady-state analysis and the ZCS operation conditions under various load and input voltage conditions are discussed. Finally, a laboratory prototype converter with a 22–27-V input voltage and 1-kV/1-kW output is implemented to verify the performance. The experimental results show that the converter can achieve high output voltage gains, and the highest efficiency of the converter is 92% at full-load condition with an input voltage of 27 V.
KEYWORDS: 1. Current fed 2. High voltage 3. Zero-current switching (ZCS)
SOFTWARE: MATLAB/SIMULINK
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0-9347143789/9949240245 CIRCUIT DIAGRAM:
Fig. 1. Conventional full-bridge ZCS PWM converter circuit.
EXPECTED SIMULATION RESULTS:
Fig. 2. Experimental waveforms of VO at a full-load condition.
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Fig. 3. Experimental waveforms of Vgs1, Vgs2, VAB, and iLk at (a) full-load condition and (b) 20%-load condition.
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Fig. 4. Switching waveforms of Vgs1, Vds1, and iS1 at (a) full-load condition and (b) 20%-load condition.
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0-9347143789/9949240245 CONCLUSION: This paper has presented a study of the current-fed full bridge boost converter with ZCS, based on the constant on-time control for high-voltage dc–dc applications. The turn-on time of the fullbridge boost converter is designed as a constant in order to achieve ZCS, and the output voltage is regulated by varying the switching frequency. The parasitic components of the high-voltage transformer can also be incorporated with the resonant tank for ZCS operation. The steady-state analysis and the ZCS operation conditions are also discussed in this paper. By carefully designing the circuit parameters, the converter can be operated with ZCS at various load and input-voltage conditions. Furthermore, the presented converter can achieve high efficiency and high output voltage gain.
REFERENCES: [1] A. I. Pressman, Switching Power Supply Design, 2nd ed. New York: McGraw-Hill, 2008. [2] E. T. Calkin and B. H. Hamilton, “A conceptually new approach for regulated DC to DC converters employing transistor switches and pulse width control,” IEEE Trans. Ind. Appl., vol. 12, no. 4, pp. 369–377, Jul. 1976. [3] B. P. Israelsen, J. R. Martin, C. R. Reeve, and V. S. Scown, “A 2.5 Kv high-reliability TWT power supply: Design techniques for high efficiency and low ripple,” in Proc. IEEE PESC, 1977, pp. 212–222. [4] R. Redl and N. O. Sokal, “Push–pull current-fed multiple-output DC/DC power converter with only one inductor and with 0 to 100% switch duty ratio,” in Proc. IEEE PESC, 1980, pp. 341–345.
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ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail:asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in
0-9347143789/9949240245 [5] S. Ohtsu, T. Yamashita, K. Yamamoto, and T. Sugiura, “Stability in high-output-voltage push-pull current-fed converters,” IEEE Trans. Power Electron., vol. 8, no. 2, pp. 135–139, Apr. 1993.
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