This paper introduces a novel Bi-directional coupled-inductor (CI) based Γ-Z source converter for step up-step down DC application. It is a modified version of CI based Γ-Z high gain converter. The converter originates under the family of impedance networks with two winding coupled inductor. The said converter when operated with low duty ratio makes converter to achieve high gain compared to conventional DC-DC converters. As the society is in trend with electric vehicles (EV’s) are recommending operating the converters in Bi-directional mode to have continuous power flow when those are operated with green technologies. So, the same converter is initially operated and verified as buck and boost converter in open loop mode. Nearly 38 and 4 voltage-gainin boost and buck mode was observed when realized in MATLAB environment for the designed inductor and capacitor values with 49% and 1% duty cycle respectively under open-loop configuration. In the succeeding a PID controller based closed loop control strategy has implemented for the same converter. Gain sensitivity of the converter had been verified in MATLAB Simulink environment. Results obtained from simulation and mathematical found satisfactory in open and closed loop.
Constant current (CC), constant voltage (CV), and constant power (CP) find numerous applications in different stages of the power supply chain and are often a part of various industrial and commercial needs. Although several conventional power supplies are available in the market to provide CC, CV, and CP, their outputs are specific and limited to one or two of these power modes. In light of this, this paper introduces a multipurpose power supply that can deliver power in all three modes (CC, CV, and CP) irrespective of load dynamics. A novel branch type resonant converter comprising three inductors and a capacitor is investigated for the design and development of the power supply. Consumers can choose their preferred mode of operation by switching the operating frequency. This multipurpose power supply subsidizes the space, technology, time, and economy required for three individual supplies and bags magnificent features such as simple control with efficiency greater than 95% in the CC mode and above 80% in CV and CP modes, subjected to loading constraints. The versatility of the power supply is validated by a hardware prototype tested at different load conditions. Regardless of the changes in load resistance, the proposed power supply remained rigid and efficient in each of the mentioned modes.
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