Power Limiter with PIN Diode Embedded in Cavity to Minimize Parasitic Inductance

Dong Yun Jung; Kun Sik Park; Jong Il Won; Doohyung Cho; Sungkyu Kwon; Hyun Gyu Jang; Jong-Won Lim

doi:10.26866/jees.2022.6.l.10

Journal of Electromagnetic Engineering and Science (Nov 2022)

Power Limiter with PIN Diode Embedded in Cavity to Minimize Parasitic Inductance

Dong Yun Jung,
Kun Sik Park,
Jong Il Won,
Doohyung Cho,
Sungkyu Kwon,
Hyun Gyu Jang,
Jong-Won Lim

Affiliations

Dong Yun Jung: DMC Convergence Research Department, Electronics and Telecommunications Research Institute, Deajeon, Korea
Kun Sik Park: DMC Convergence Research Department, Electronics and Telecommunications Research Institute, Deajeon, Korea
Jong Il Won: ICT Creative Research Laboratory, Electronics and Telecommunications Research Institute, Deajeon, Korea
Doohyung Cho: DMC Convergence Research Department, Electronics and Telecommunications Research Institute, Deajeon, Korea
Sungkyu Kwon: DMC Convergence Research Department, Electronics and Telecommunications Research Institute, Deajeon, Korea
Hyun Gyu Jang: DMC Convergence Research Department, Electronics and Telecommunications Research Institute, Deajeon, Korea
Jong-Won Lim: DMC Convergence Research Department, Electronics and Telecommunications Research Institute, Deajeon, Korea

DOI: https://doi.org/10.26866/jees.2022.6.l.10
Journal volume & issue: Vol. 22, no. 6
pp. 686 – 688

Abstract

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This letter introduces a power limiter that limits the input power to protect the receiver when a large power enters the radio frequency receiver. When the power limiter receives a large power signal, a positive-intrinsic-negative (PIN) diode is turned on to limit the input power by lowering the impedance. We analyzed the characteristics of the power limiter according to the method of connecting the PIN diode in parallel with the input and output transmission lines of the power limiter. By embedding a PIN diode into the cavity and minimizing the length of the wire, a power limiter was designed and implemented to minimize parasitic inductance. In the S-band, the proposed power limiter’s insertion loss was below 0.5 dB, and the reflection loss characteristics were below 15 dB. Furthermore, it achieved an output P1dB of 21.8 dBm at 3.5 GHz.

Published in Journal of Electromagnetic Engineering and Science

ISSN: 2671-7255 (Print); 2671-7263 (Online)
Publisher: The Korean Institute of Electromagnetic Engineering and Science
Country of publisher: Korea, Republic of
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering; Science: Physics: Electricity and magnetism
Website: http://www.jees.kr/

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