Your search keyword '"Wang, Zerun"' showing total 2 results

1. Research on an Optimized Overmodulation Strategy Based on Rectifier of Indirect Space Vector of Matrix Converter.

Author

Xia, Yihui, Zhang, Xiaofeng, Ye, Zhihao, Wang, Zerun, and Huang, Liming

Subjects

MATRIX converters, VECTOR spaces, HEXAGONS

Abstract

Output performances including voltage error and THD effected by hexagon vector and basic vector with traditional indirect space vector overmodulation method are analyzed, and an improved overmodulation method based on input current vector synthesized is presented. Simulation and experimental results are carried out to validate the effectiveness of the proposed method. Simulation results indicate that the proposed input current vector-synthesized overmodulation strategy has better output performances. The experimental results verify that theoretical analysis is right and the proposed method is feasible. [ABSTRACT FROM AUTHOR]

Published

2022

2. Design of a Wide-Dynamic RF-DC Rectifier Circuit Based on an Unequal Wilkinson Power Divider.

Author

Peng, Cheng, Ye, Zhihao, Wu, Jianhua, Chen, Cheng, and Wang, Zerun

Subjects

POWER dividers, MICROWAVE circuits, IMPEDANCE matching, ENERGY conversion, RADIO frequency, DESIGN, MATHEMATICAL models

Abstract

In this paper, a dual-channel RF-DC microwave rectifier circuit is designed with a 2:1 power distribution ratio in a Wilkinson power splitter. The rectifier circuit works at 2.45 Ghz. After impedance matching and tuning, the structure is able to broaden the dynamic power range of the rectifier circuit while maintaining maximum rectifier efficiency. Compared with the HSMS2820 rectifier branch, this design enhances the power dynamic ranges of 60% efficiency and 50% efficiency by 4 dBm and 3 dBm, respectively. Compared with the HSMS2860 rectifier branch, for the efficiency of 60% and efficiency of 50%, the power dynamic range is expanded by 5 dBm and 2 dBm, respectively. This shows that the technology is helpful for improving the stability of energy conversion at the receiver end of microwave wireless energy transmission systems. Finally, the rationality of this conclusion is verified by establishing a mathematical model. [ABSTRACT FROM AUTHOR]

Published

2021