Fe-계 연자성 금속분말을 이용한 940 MHz 단거리 전용 통신 (DSRC) 대역 전파 흡수체

김병철; 서만철; 윤여춘; ByeongCheol Kim; ManCheol Seo; Yeochun Yun

Korean Journal of Materials Research, Vol.29, No.6, 363-370, June, 2019

DOI10.3740/MRSK.2019.29.6.363 Export Citation

Fe-계 연자성 금속분말을 이용한 940 MHz 단거리 전용 통신 (DSRC) 대역 전파 흡수체

Electromagnetic Wave Absorber Sheet for 940 MHz Dedicated Short Range Communication Frequency Bands Using Fe Based Alloy Soft Magnetic Metal Powder

김병철^†, 서만철, 윤여춘¹

한국산업기술대학교 생명화학공학과
¹㈜제이엠씨

ByeongCheol Kim^†, ManCheol Seo, and Yeochun Yun¹

Department of Chemical Engineering & Biotechnology, Korea Polytechnic University, 237, Sangidaehak-ro, Siheung-si, Gyeonggi-do 15073, Republic of Korea
¹JMC Co., LTD., 345, Cheongneung-daero, Namdong-gu, Incheon 21643, Republic of Korea

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The recent development of information and communication technologies brings new changes to automobile traffic systems. The most typical example is the advancement of dedicated short range communication(DSRC). DSRC mainly consists of an intelligent transportation system(ITS), an electronic toll collection system(ETCS) and an advanced traveler information system(ATIS). These wireless communications often cause unnecessary electromagnetic waves, and these electromagnetic waves, in turn, cause frequent system malfunction. To solve this problem, an absorber of electromagnetic waves is suggested. In this research, various materials, such as powdered metal and iron oxides, are used to test the possibility for an effective absorption of the unnecessary electromagnetic waves. The various metal powders are made into a thin sheet form by compositing through processing. The electromagnetic characteristics(complex permittivity, complex permeability) of the fabricated sheet are measured. As a result, we achieve -6.5 dB at 940 MHz(77.6 % absorption rate) with a 1.0 mm-thickness electromagnet wave absorber, and -9.5 dB at 940 MHz(88.8 % absorption rate) with a 2.0 mm-thickness absorber.

Keywords:absorber;electro-magnetic wave;metal powder;reflection loss;dedicated short range communication

[References]

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[1] The Korea Transport Institute, “Analysis of Traffic congestion cost and Trends in Korea”, Retrieved January 19, 2018 from http://www.index.go.kr/potal/main/EachDtlPageDetail.do?idx_cd=1248.

[2] U.S Department of Transportation On the Web. Retrieved June 20, 2019 from https://www.transportation.gov/administrations/research-and-technology/.

[3] ITS Korea On the Web. Retrieved June 20, 2019 from https://itskorea.kr/boardDetail.do?type=7&idx=7858.

[4] Foss T, Meijer GR, Zandbergen A, IEE Colloquium on Electronic Techniques for Road Pricing and Tolling, The Institution of Electrical Engineers, London, UK., p.2/1, (1995).

[5] Ween JM, Queen BM, Intelligence Transportation System Architectures, p. 986, Artech House, New jersey, USA (1999).

[6] Hager R, Hoff S, IEEE, 3, 1591 (1994)

[7] Weir WB, IEEE Trans., 62, 1 (1974)