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윤남원,권영준,신봉조,박근형,Youn, Nam-Won,Kwon, Young-Jun,Shin, Bong-Jo,Park, Keun-Hyung 한국전기전자재료학회 2005 전기전자재료학회논문지 Vol.18 No.4
The RFID tag IC has been presently abstracting great attention in the world because it can be one of the important sensor elements in the ubiquitous sense network in the future. The 125 kHz and 13.56 MHz RFID tag IC's have already been developed and now widely used in the world and the UHF band tag IC is under development. Domestically, the development of the 125 kHz tag IC was reported before, but there has been no report about the development of the 13.56 MHz tag IC up to now. In this paper, the results of the design, fabrication and measurement of a 13.56 MHz tag IC are discussed. The digital and the analog circuits for the chip were designed and the chip was fabricated using 0.35 ㎛ standard CMOS technology and measured with a separately prepared reader. It was found from the measurement results that it operated properly within 8 cm range of the reader.
김기복,김병극,이승석,윤남원,윤동진,안윤국 한국비파괴검사학회 2003 한국비파괴검사학회지 Vol.23 No.1
고온(500℃) 환경에서 접촉식 탐상이 가능한 초음파 탐촉자를 개발하고 평가하였다. 고온용 탐촉자는 Curie 온도가 600 ℃ 이상인 bismuth titanate 계열의 압전세라믹 소자, 텅스텐 분말과 inorganic binder를 혼합한 후면재, 알루미나 튜브, 전면재, 하우징 등으로 구성되었다. 기본 공진주파수가 각각 1.04 및 2.08 ㎒의 2 종류 탐촉자를 제작하였으며 각종 고온용 커플런트의 온도특성을 시험하였다. 개발된 고온용 탐촉자를 이용하여 강재 시편을 대상으로 시편에서의 초음파 반사신호를 측정한 결과 시편의 온도가 증가함에 따라 반사신호의 크기는 감소하였다. 고온에서 반복측정 실험결과 500℃에서 연속적인 접촉식 초음파 탐상이 가능한 것으로 나타났다. Piezoelectric ultrasonic transducers for high temperature contact measurement were developed. These high temperature ultrasonic transducers (HTUT) consisted of bismuth titanate piezoceramic element whose Curie temperature is higher than 600℃, a backing material of the mixture of tungsten powder and inorganic binder, an inner alumina tube, a wear plate and a housing. The operational frequencies of the HTUT were 1.04 and 2.08 ㎒, respectively. Various commercially available couplant for high temperature were evaluated and compared. As a couplant for high temperature ultrasonic testing between HTUT and test specimen, gold epoxy was selected. The peak amplitude of pulse-echo signals from steel test specimen decreased with increasing temperature. The operational temperature of the HTUT reached up to 500℃ at which the continuous contact measurement was possible.