Jia, L., Batarseh, I., Gao, X., Wu, T.: Transient current compensation for low-voltage high-current voltage regulator modules. Siyuan, Z., Rincon-Mora, G.: A high efficiency, soft switching DC-DC converter with adaptive current-ripple control for portable applications. Fifteenth Annual IEEE applied power electronics conference and exposition (Cat. 27, 25–37 (2020)ĭai, N.: Effects of powering low-voltage, high-current load on components from power design perspective. Shanmugam, M., Rajesh, P., Sajin, H.F.: Ideal position and size selection of unified power flow controllers (UPFCs) to upgrade the dynamic stability of systems: an antlionoptimiser and invasive weed optimisation Algorithm. In: Proceedings of 1995 International conference on power electronics and drive systems, PEDS 95, vol. Zhang, M., Jovanovic, M., Lee, F.: Design considerations for low-voltage on-board DC/DC modules for next generations of data processing circuits. In: 2001 IEEE 32nd annual power electronics specialists conference (IEEE Cat. XuPeng, A., Yuan-Chen, R., Ye, M., Lee, F.: A family of novel interleaved DC/DC converters for low-voltage high-current voltage regulator module applications. Panov, Y., Jovanovich, M.: Design and performance evaluation of low-voltage/high-current DC/DC on-board modules. Qamaruzzaman, A., Purwadi, A., Dahono, P.: A DC high-current low-voltage power generating system. Finally, the conversion efficiency of proposed high current low voltage DC/DC converter is compared with classical circuit. The proposed work performed using MATLAB/Simulink platform. This is used in the development of light-load competence of power conversion of DC/DC converter. Thus the proposed method helps to reduce the switching loss, possibly low electro magnetic interference (EMI) and easier thermal management. In the proposed circuit, leakage current and power loss of mutual inductance is decreased because of soft switching. It also used as a filter to circulate the high frequency switching harmonics. Here, the switched inductor is an impedance network consists of split inductors and switches, which provides the high voltage conversion ratio and improves the output power quality that need for the low voltage applications. The proposed converter uses switched inductor and switched coupled mutual inductance in the proposed system. In this manuscript, to increase the conversion efficiency of high current low voltage bidirectional DC/DC converter is proposed.
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