Abstract
High gain DC-DC converters are increasingly being used in solar PV and other renewable generation systems. Satisfactory steady-state and dynamic performance, along with higher efficiency, is a pre-requirement for selecting the converter for these applications. In this paper, a non-inverting high gain DC-DC boost converter has been proposed. The proposed converter has only one switch with continuous input current and reduced voltage stress across switching devices. The operating range of the duty cycle is wider, and it obtains a higher gain at a lower value of the duty cycle. Moreover, the converter has higher efficiency at a lower duty cycle while drawing a continuous input current. The continuous input current is a desirable feature of the dc-dc converter making it suitable for solar photovoltaic applications. The converter’s operation has been discussed in detail and extended to include the real circuit parameters for a practical performance evaluation. The proposed converter has been compared with other similar recently proposed converters on various performance parameters. The loss analysis for the proposed converter has also been carried out. Finally, the simulation has been validated with results from the experimental prototype.
Highlights
For sustainable development, renewable energy is going to play a significant role in energy generation
A high voltage gain DC-DC converter is an integral part of the solar PV generation and electric vehicle system
Boost DC-DC converters are used high-intensity headlamps in automobiles, uninterruptible power supply, The associate editor coordinating the review of this manuscript and approving it for publication was Snehal Gawande
Summary
ARSHAD MAHMOOD1, MOHAMMAD ZAID 1, (Member, IEEE), JAVED AHMAD 2, MOHD ANAS KHAN1, SHAHRUKH KHAN1, (Student Member, IEEE), ZAID SIFAT1, CHANG-HUA LIN2, (Member, IEEE), ADIL SARWAR 1 (Senior Member, IEEE), MOHD TARIQ 1, (Senior Member, IEEE), AND BASEM ALAMRI 3, (Member, IEEE).
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