This paper is published in Volume-7, Issue-4, 2021
Area
Electrical
Author
R. Kotesh, M. Vignesh, B. Lakshmikanth, A. Raman, M. Seenivasan
Org/Univ
Kuppam Engineering College, Ekarlapalle, Andhra Pradesh, India
Pub. Date
07 July, 2021
Paper ID
V7I4-1229
Publisher
Keywords
Converter, High Voltage, Step-Up

Citationsacebook

IEEE
R. Kotesh, M. Vignesh, B. Lakshmikanth, A. Raman, M. Seenivasan. Inductor coupled converter, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
R. Kotesh, M. Vignesh, B. Lakshmikanth, A. Raman, M. Seenivasan (2021). Inductor coupled converter. International Journal of Advance Research, Ideas and Innovations in Technology, 7(4) www.IJARIIT.com.

MLA
R. Kotesh, M. Vignesh, B. Lakshmikanth, A. Raman, M. Seenivasan. "Inductor coupled converter." International Journal of Advance Research, Ideas and Innovations in Technology 7.4 (2021). www.IJARIIT.com.

Abstract

This research work presents a high gain direct current–direct current (DC–DC) converter which is derived from a traditional boost converter. Distributed renewable energy sources such as photovoltaic (PV) modules, wind, and fuel cells are becoming possible alternatives. However, to connect these systems to the grid, reliable DC–DC boost converters with high voltage gain is becoming a requirement. Firstly, a new open-loop DC–DC boost converter with superior performance in terms of voltage step-up ratio and reduced voltage stress on the switches, compared to other existing high gain DC–DC boost converter counterparts is proposed. Along with analyzing the operation principle of the proposed converter. This converter can easily achieve a gain of 20 while benefiting from the continuous input current, effectively maintain the voltage output at the required level, closed loop dc-dc converter with Proportional–Integral-Differential (PID) controller, a multi-loop with Proportional–Integral (PI) was proposed and simulated. a charge controller was designed and operated along with closed loop dc-dc converter to supply load with two different voltage requirements. Based on the simulation results the proposed controller can maintain the output voltage at the required level with respect to the changes in load.