TY - GEN
T1 - Design of Self-Impedance Matching Ultra-Wideband Rectification Circuit
AU - Gyawali, Babita
AU - Thapa, Samundra Kumar
AU - Aboualalaa, Mohamed
AU - Barakat, Adel
AU - Yoshitomi, Kuniaki
AU - Pokharel, Ramesh Kumar
N1 - Publisher Copyright: © 2022 The Institute of Electronics Information and Communication Engineers (IEICE) of Japan.
PY - 2022
Y1 - 2022
N2 - An ultrawideband rectifier without an external impedance matching circuit offers many benefits, such as compact circuit size and lower losses. Generally, the rectifier is designed using the conventional voltage doubler circuit, which has varying input impedance for the operating frequency. But, to achieve the wideband rectification, the input impedance of the proposed circuit must be matched with 50 O impedance throughout the desired frequency band. For varying impedance, it is challenging to design the impedance matching network. In [11], the idea of a virtual DC battery is utilized to achieve ultra-wideband rectification without using any external matching at input section. For the further improvement of rectification efficiency, in this work, parallel diode connection is proposed instead of single diode. The proposed design achieved maximum flat conversion efficiency for energy harvesting and wireless power transfer applications.
AB - An ultrawideband rectifier without an external impedance matching circuit offers many benefits, such as compact circuit size and lower losses. Generally, the rectifier is designed using the conventional voltage doubler circuit, which has varying input impedance for the operating frequency. But, to achieve the wideband rectification, the input impedance of the proposed circuit must be matched with 50 O impedance throughout the desired frequency band. For varying impedance, it is challenging to design the impedance matching network. In [11], the idea of a virtual DC battery is utilized to achieve ultra-wideband rectification without using any external matching at input section. For the further improvement of rectification efficiency, in this work, parallel diode connection is proposed instead of single diode. The proposed design achieved maximum flat conversion efficiency for energy harvesting and wireless power transfer applications.
KW - energy harvesting
KW - impedance matching
KW - rectifier
KW - wideband
KW - wireless power transfer
UR - https://www.scopus.com/pages/publications/85146667003
M3 - Conference contribution
T3 - Asia-Pacific Microwave Conference Proceedings, APMC
SP - 671
EP - 673
BT - 2022 Asia-Pacific Microwave Conference, APMC 2022 - Proceedings
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2022 Asia-Pacific Microwave Conference, APMC 2022
Y2 - 29 November 2022 through 2 December 2022
ER -