• Journal of the Institute of Electronics Engineers of Korea SD
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• v.47 no.5
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• pp.71-79
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• 2010

This paper presents a design of a LLC resonant controller IC. LLC resonant controller IC controls the voltage of the 2nd side by adjusting frequency the input frequency of the external resonant circuit. The clock generator is integrated to provide the pulse to the resonant circuit and its frequency is controlled by the external resistor. Also, the frequency of the VCO is adjusted by the feedback voltage. The protection circuits such as UVLO(Under Voltage Lock Out), brown out, fault detector are implemented for the reliable and stable operation. The HVG, and LVG drivers can provide the high current and voltage to the IGBT. The designed LLC resonant controller IC is fabricated with the 0.35 um 2P3M BCD process. The overall die size is $1400um{\times}1450um$, and supply voltage is 5V, 15V.

• Journal of Advanced Navigation Technology
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• v.20 no.6
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• pp.556-561
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• 2016

This paper describes implementation of a 13.56 MHz, 5 kW RF high power generator for ISM band applications. This RF generator consists of four LDMOS modules of 1.25kW class-AB push-pull power amplifier with drive amplifier and its outputs are combined by using Wilkinson type transmission-line transformers. Its generator has a high efficiency and output power better than linearity. In order to discharge power transistor heats, we used on water cooled copper plate. Also, these have a composite circuit of combiner and low-pass filter and safety circuit to detector over and reflected power. The RF generator has achieved a efficiency of 79 % at 5.33 kW of saturated power level experimentally.

• Journal of the Institute of Electronics and Information Engineers
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• v.50 no.2
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• pp.122-133
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• 2013

An arbiter-based simple phase decision circuit (PDC) optimized for high-resolution phase-to-digital converter made up of an analog phase-frequency detector and a time-to-digital converter for all-digital phase-locked loops is proposed. It can distinguish very small phase difference between two pulses even though it consumes lower power and has smaller input-to-output delay than the previously reported PDC. Proposed PDC is realized using 130-nm CMOS process and demonstrated by transistor-level simulations. A 5-bit P2D having no offset nor deadzone using the PDC is also demonstrated. A harmonic-lock-free and small-phase-offset delay-locked loop for fixing the P2D resolution regardless of PVT variations is also proposed and demonstrated.

• Journal of Sensor Science and Technology
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• v.20 no.3
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• pp.156-161
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• 2011

We fabricated a schottky barrier metal oxide semiconductor field effect transistor(SB-MOSFET) by applying indium-tin-oxide(ITO) to the source/drain on a highly resistive GaN layer grown on a silicon substrate. The MOSFET, with 10 ${\mu}M$ gate length and 100 ${\mu}M$ gate width, exhibits a threshold gate voltage of 2.7 V, and has a sub-threshold slope of 240 mV/dec taken from the $I_{DS}-V_{GS}$ characteristics at a low drain voltage of 0.05 V. The maximum drain current is 18 mA/mm and the maximum transconductance is 6 mS/mm at $V_{DS}$=3 V. We observed that the spectral photo-response characterization exhibits that the cutoff wavelength was 365 nm, and the UV/visible rejection ratio was about 130 at $V_{DS}$ = 5 V. The MOSFET-type UV detector using ITO, has a high UV photo-responsivity and so is highly applicable to the UV image sensors.

• Proceedings of the Korean Vacuum Society Conference
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• 2012.02a
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• pp.193-194
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• 2012

그래핀(graphene)은 탄소원자가 육각형 벌집 모양 배열의 격자구조를 가지는 원자 한층 두께의 이차원 물질이다. 그래핀은 전도띠(conduction band)와 가전자띠(valence band)가 한 점에서 만나고 에너지와 역격자의 k 벡터가 선형적으로 비례하는 에너지 구조를 가진다. 이로 인해 그래핀은 매우 빠른 전하 이동도를 가지며 원자 한 층의 두께임에도 불구하고 약 2.3%의 빛을 흡수할 수 있으며 자외선 영역부터 적외선 영역까지의 넓은 파장대의 빛을 흡수 할 수 있다. 이와 같은 그래핀의 우월한 성질을 이용하면 광 응답에 고속으로 반응하고 높은 주파수의 광통신에서도 작동 할 수 있는 그래핀 광소자를 제작할 수 있게 된다. 하지만 미래의 고속 그래핀 광소자를 실현하기에 앞서 그래핀의 광응답에 대한 정확한 이해가 필요하다. 그리하여 본 연구에서는 그래핀 광소자를 제작하고 광소자의 광응답 전기적 성질을 분석하여 그래핀의 광응답 특성을 얻어내고자 실험을 진행하였다. 그래핀을 채널 물질로 하고 소스, 드레인, 후면 게이트를 가지는 일반적인 그래핀 전계효과 트랜지스터(field-effect transistor)를 제작하고 채널에 빛을 비추고 비추지 않은 상태에서의 전기적 성질을 측정하고 그 때 얻어진 그래프의 광응답의 원인을 조사하였다. 이 때 얻어지는 $I_D-V_G$ 그래프가 광 조사 시 왼쪽으로 이동하게 되는데 이의 원인을 각 게이트 전압 구간별로 $I_D$-t 그래프를 획득하여 분석하였다. 또한 광원에 펄스를 인가하여 펄스 형태의 광원을 그래핀 전계효과 트랜지스터에 조사시키고 이에 따른 전기적 성질 변화를 관찰하였다 이 때 다양한 게이트 전압이 인가된 상태에서 레이저 펄스 광원에 의한 광전류를 검출하였으며 이를 분석하였다.

• Journal of the Korean Society of Radiology
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• v.1 no.1
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• pp.11-16
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• 2007

In this study, we have performed contrast-detail analysis for an amorphous selenium(a-Se) based digital X-ray imaging system by using a contrast-detail phantom(CDRAD 2.0) to test its low contrast performance. The X-ray imaging system utilizes an 500-mm-thick a-Se semiconductor X-ray absorber coated over an amorphous silicon(a-Si) TFT(thin-film transistor) detector matrix with a $139mm{\times}139mm$ pixel size and a $46.7cm{\times}46.7cm$ active area. In the measurement of contrast-detail curves we first acquired X-ray images of the CDRAD 2.0 phantom at given test conditions(i.e., 40, 50, 60, 70, 80 kVp, and 16 mA.s), and then evaluated the contrast-detail characteristics of the imaging system from each phantom image by using an image quality factor called the image-quality-figure-inverse(IQFinv). The IQFinv values for the imaging system gradually improved with the photon fluence, indicating the improvement of image visibility: 24.4, 35.3, 39.2, 41.5, and 43.4 at photon fluences of $1.8{\times}105$, $5.9{\times}105$, $11.3{\times}105$, $19.4{\times}105$, and $29.4{\times}105$ photons/$mm^2$, respectively.