Global-Navigation Satellite Service를 위한 Electromagnetic Band Gap 구조체 설계

Seong Kweon Kim; Changwon  Jung

doi:10.13067/JKIECS.2015.10.1.27

Global-Navigation Satellite Service를 위한 Electromagnetic Band Gap 구조체 설계

Translated title of the contribution: Design of Electromagnetic Band Gap Structure for Global Navigation Satellite Service

Seong Kweon Kim, Changwon Jung

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper, a mushroom typed electromagnetic band gap (EBG) structure to be inserted in the printed circuit board (PCB)inner layer in order to stabilize the PCB power line is proposed for global-navigation satellite service (GNSS). In designing theproposed EBG structure, the target stop-bandwidth was designed from 1.55GHz to 1.81GHz including GNSS and mobilecommunication-related frequency bandwidth. In this bandwidth, the insertion loss(S21) was observed below about –40dB. From thesimulation results, it is expected that the stabilization of power delivery network (PDN) structure in the PCB circuit design shouldbe improved and the effective correspondence to EMI will be helpful.

Translated title of the contribution	Design of Electromagnetic Band Gap Structure for Global Navigation Satellite Service
Original language	Korean
Pages (from-to)	27-32
Number of pages	6
Journal	한국전자통신학회 논문지
Volume	10
Issue number	1
DOIs	https://doi.org/10.13067/JKIECS.2015.10.1.27
State	Published - Jan 2015

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title = "Global-Navigation Satellite Service를 위한 Electromagnetic Band Gap 구조체 설계",

abstract = "In this paper, a mushroom typed electromagnetic band gap (EBG) structure to be inserted in the printed circuit board (PCB)inner layer in order to stabilize the PCB power line is proposed for global-navigation satellite service (GNSS). In designing theproposed EBG structure, the target stop-bandwidth was designed from 1.55GHz to 1.81GHz including GNSS and mobilecommunication-related frequency bandwidth. In this bandwidth, the insertion loss(S21) was observed below about –40dB. From thesimulation results, it is expected that the stabilization of power delivery network (PDN) structure in the PCB circuit design shouldbe improved and the effective correspondence to EMI will be helpful.",

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Global-Navigation Satellite Service를 위한 Electromagnetic Band Gap 구조체 설계

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