Design and implementation of a multi‐port bidirectional converter for electric vehicle applications

Author:

Malik Muhammad Zeeshan1ORCID,Zhang Shiqing1,Ali Amjad2,Farooq Ajmal3

Affiliation:

1. School of Electronics and Information Engineering Taizhou University Taizhou Zhejiang China

2. Center of Research Excellence in Renewable Energy (CoRE‐RE) King Fahd University of Petroleum and Minerals Dhahran Saudi Arabia

3. Department of Electrical Engineering University of Engineering and Technology Mardan Mardan Pakistan

Abstract

SummaryThis article proposes a new multi‐port bidirectional DC‐DC converter for electric vehicle (EV) usages. The recommended converter has the ability for step‐up and step‐down operating. The bidirectional power flow makes the proposed converter suitable for EV applications, where a storage unit is charged and discharged. The proposed converter has three ports (VHigh, VLow, and V2), and all of these ports have bidirectional features. In each operation mode (step‐up or step‐down), the output port is loaded by two independent input sources. Also, a high voltage conversion ratio is achieved with low power switches duty cycle and reduced peak voltage over semiconductors. Input current with reduced ripple, low components count, a simple circuit with low cost and volume, and high efficiency are the main advantages of the presented bidirectional topology. In order to demonstrate the performance and effectiveness of the recommended converter, operational and steady‐state analysis in step‐up and step‐down modes, design consideration, efficiency calculation, and comparison with other DC‐DC converters are provided Finally, a prototype with a step‐up power of 120 W and a step‐down power of 30 W is created, and experimental data are shown to validate the numerical investigations.

Publisher

Wiley

Subject

Applied Mathematics,Electrical and Electronic Engineering,Computer Science Applications,Electronic, Optical and Magnetic Materials

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