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PIER PIER B PIER C PIER M PIER Letters
2012-06-26
A High Attenuation Electromagnetic Pulse Protector with Gdt, Mov and Parallel Coupled BPF on High Thermal Conductivity Substrates
By
Ming-Jer Jeng,

    Dr. Ming-Jer Jeng

    Department of Electrical Engineering

    Chang Gung University

    Taiwan

    Homepage

Atanu Das,

    Mr. Atanu Das

    Department of Electronic Engineering & Green Technology Research Center

    Chang Gung University

    Taiwan, R.O.C.

    Homepage

Liann-Be Chang,

    Prof. Liann-Be Chang

    Department of Electronic Engineering & Green Technology Research Center

    Chang Gung University

    Taiwan, R.O.C.

    Homepage

Ching-Chi Lin,

    Dr. Ching-Chi Lin

    Department of Electronic Engineering & Green Technology Research Center

    Chang Gung University

    Taiwan, R.O.C.

    Homepage

Yi-Cherng Ferng,

    Mr. Yi-Cherng Ferng

    Department of Electronic Engineering & Green Technology Research Center

    Chang Gung University

    Taiwan, R.O.C.

    Homepage

Chien-Fu Shih,

    Dr. Chien-Fu Shih

    Department of Electronic Engineering & Green Technology Research Center

    Chang Gung University

    Taiwan, R.O.C.

    Homepage

Sheng-You Liao,

    Dr. Sheng-You Liao

    Department of Electronic Engineering & Green Technology Research Center

    Chang Gung University

    Taiwan, R.O.C.

    Homepage

Shu-Tsun Chou,

    Dr. Shu-Tsun Chou

    Department of Electronic Engineering & Green Technology Research Center

    Chang Gung University

    Taiwan, R.O.C.

    Homepage

Ji-Chyun Liu,

    Prof. Ji-Chyun Liu

    Dept. of Electrical Engineering

    Ching Yun University

    Taiwan

    Homepage

Lee Chow

    Dr. Lee Chow

    Department of Physics

    University of Central Florida

    USA

    Homepage

Progress In Electromagnetics Research Letters, Vol. 33, 73-81, 2012
doi:10.2528/PIERL12041804
Abstract
An alternative approach for robust electromagnetic pulse (EMP) protection circuit was proposed by using a parallel coupled band-pass filter (BPF) with high thermal conductivity AlN substrate in between with a traditional gas discharge tube (GDT) and fast response metal oxide varistor (MOV). This proposed configuration can suppress slow as well as fast voltage surges. The fabricated BPF with a center frequency of 2.5 GHz on the high thermal conductive (180~200 W/m·K) AlN substrate could efficiently suppress high power over voltage surge. Through the purposed cascade protection configuration, it is observed that 6KV ESD fast introduced pulse (5 ns/50 ns) and 4 KV lightning surge pulse(1 us/50 us) were attenuated to 511V and 396 V, respectively, and that is capable to be applied to an EMP protection circuit in the front end of a linear amplifier applications.
Citation
Ming-Jer Jeng, Atanu Das, Liann-Be Chang, Ching-Chi Lin, Yi-Cherng Ferng, Chien-Fu Shih, Sheng-You Liao, Shu-Tsun Chou, Ji-Chyun Liu, and Lee Chow, "A High Attenuation Electromagnetic Pulse Protector with Gdt, Mov and Parallel Coupled BPF on High Thermal Conductivity Substrates," Progress In Electromagnetics Research Letters, Vol. 33, 73-81, 2012.
doi:10.2528/PIERL12041804
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