Two-transformer current-fed converter with 0 to 100% switch duty range

Till now, various types of current fed converters utilizing multiple devices have been developed. These converters exhibit good performance in high power step-up applications. However, they have a common limitation that the duty cycle be larger than 0.5 to maintain a conducting path for the boost inductor current. Although an auxiliary circuit that is magnetically coupled to a boost inductor can be a solution for below 0.5 duty cycle, it increases size and complexity. To relieve this problem, a new two transformer current-fed (TTCF) converter, which can be operated along a wide duty cycle with a simple structure, is proposed in this paper. In the TTCF converter, the magnetizing inductor of the transformer acts as a boost inductor, thus no additional boost inductor is needed. Moreover, only one auxiliary diode is employed for below 0.5 duty cycle operation. Therefore, the proposed converter can be promising for high power step-up applications with a simple structure.

[1]  Mutsuo Nakaoka,et al.  Soft-Switching PWM Boost Chopper-Fed DC-DC Power Converter with Load Side Auxiliary Passive Resonant Snubber , 2004 .

[2]  K. M. Smith,et al.  Properties and synthesis of passive lossless soft-switching PWM converters , 1999 .

[3]  Nathan O. Sokal,et al.  Push-pull current-fed multiple-output dc/dc power converter with only one inductor and with 0 to 100% switch duty ratio , 1980, 1980 IEEE Power Electronics Specialists Conference.

[4]  Hossin Hosseinian,et al.  Power Electronics , 2020, 2020 27th International Conference on Mixed Design of Integrated Circuits and System (MIXDES).

[5]  Gun-Woo Moon,et al.  Phase-shifted parallel-input/series-output dual converter for high-power step-up applications , 2002, IEEE Trans. Ind. Electron..

[6]  Bo-Youn Cho,et al.  Improved zero-current-switching(ZCS)PWM Switch Cell with Minimum Additional Conduction Losses , 2001 .

[7]  Sang-Kyoo Han,et al.  A new active clamping zero-voltage switching PWM current-fed half-bridge converter , 2005, IEEE Transactions on Power Electronics.

[8]  I. Barbi,et al.  A comparison between two current-fed push-pull DC-DC converters-analysis, design and experimentation , 1996, Proceedings of Intelec'96 - International Telecommunications Energy Conference.

[9]  Y. Darroman,et al.  Synthesis of Tapped-Inductor Switched-Mode Converters , 2007, IEEE Transactions on Power Electronics.

[10]  Y. Jang,et al.  New two-inductor boost converter with auxiliary transformer , 2004, IEEE Transactions on Power Electronics.

[11]  Peter J. Wolfs A current-sourced DC-DC converter derived via the duality principle from the half-bridge converter , 1993, IEEE Trans. Ind. Electron..

[12]  Jung-Goo Cho,et al.  Novel zero-voltage-transition current-fed full-bridge PWM converter for single-stage power factor correction , 1998 .

[13]  Robert W. Erickson,et al.  Fundamentals of Power Electronics , 2001 .