• Proceedings of the Korean Vacuum Society Conference
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• 2010.08a
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• pp.133-133
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• 2010

중성입자빔 입사장치(neutral beam injection, NBI)의 중성빔 에너지 효율은 이온원의 수소 이온밀도 분율이 결정한다. 이온원에서 만들어진 $H^+$, $H_2^+$ 그리고 ${H_3}^+$는 중성화 과정(neutralization) 중 해리(dissociation) 때문에 각각 입사 에너지의 1, 1/2 그리고 1/3을 가진 중성입자가 된다. 중성빔 에너지 효율 제고하기 위해서는 이온원의 전체 이온 중 단원자 수소 이온 밀도 증가가 필요하다. 유도결합형 수소 플라즈마 이온원에서 RF 안테나 주파수에 따른 플라즈마 밀도와 단원자 수소 이온 밀도 비율 변화를 관찰하였다. RF 플라즈마에서 가스 압력이 결정하는 전자의 운동량 전달 충돌 주파수 대비 높은 RF 안테나 주파수(13.56 MHz)와 낮은 RF 안테나 주파수(수백 kHz)의 전력을 인가하였으며, Langmuir 탐침, 안테나 V-I 측정기 그리고 QMS(quadrupole mass spectrometer)을 이용하여 플라즈마 특성을 진단하였다. 플라즈마 밀도와 수소 이온 밀도 분율은 플라즈마 가열 메커니즘과 수소 플라즈마 내 반응 메커니즘에 의해 결정된다. 플라즈마 가열 메커니즘에 따른 실험 결과에 대한 RF 안테나 주파수 효과는 플라즈마 트랜스포머 회로 모델을 통해 해석하였으며, 수소 플라즈마 내 반응은 0-D 정상 상태의 입자 및 전력 평형 방정식 결과로 해석하였다.

• The Journal of the Korea institute of electronic communication sciences
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• v.11 no.6
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• pp.591-596
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• 2016

This paper presents a study on the subject for the design and implementation of high-speed frequency hopping RF transceiver used for tactical communications systems. Jump the transmission / reception frequency of the L-band to hop tens per second is possible by maximizing the immunity to interference, and is applicable to communication systems having a charging rotation function. To high-speed frequency hopping it is necessary to apply the necessary fast frequency hopping scheme DDS Driven PLL added. In this paper, the RF transceiver design and simulation analysis capabilities with fast frequency tactical communication systems, were implemented after the main test for functionality and performance. Was demonstrated hop high-speed jump tens per second through a test, the main transmission output, were measured RF key performance, such as received noise figure, by using the VSG and VSA generates a ${\pi}/4$ DQPSK modulated signal constellation and by EVM measurement that there is no problem in applying the communications system described above was pre-validated.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2010.05a
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• pp.512-515
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• 2010

SIGINT(SIGnal INTelligence) includes several parameters intercepted by measurement and analysis of the RF(Radio frequency) signal from free space. One of the important parameters is frequency information. Expecially, in order to perform instantaneous frequency measurement of Radar and Missile seeker's RF signals, we use dedicated RF modules as a DFD(Digital Frequency Discriminator) to provide frequency information by measurement of the relative phase difference between signals via intended RF delay lines. It must measure and provide realtime based frequency information on short pulsed RF signal up to 100 nSec or less. This document proposes Ultra wideband DFD consisted of a RF input section of Wideband 4 channel RF delay line and correlator, a digital processing section to measure and provide frequency information from I/Q signal, and a frequency calibration section. Also, it will show design suitability based on test results measured under test condition of very short input pulse signals.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.37 no.8
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• pp.9-16
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• 2000

MOS transistors are fabricated and evaluated for RF IC applications such as mobile communication systems using 0.35m CMOS process. Characteristics of MOSFETs are analyzed at various channel length, width and bias conditions. From the analysis, cut-off frequency ($f_T$) is independent on channel width but maximum oscillation frequency ($f_{max}$) tends to derease as the channel width increases. As channel length increases, $f_T$ and fmax decrease. $f_T$ is 22GHz and fmax is 28GHz at its maximum value. High frequency noise performance is improved with larger channel width and smaller channel length at same bias conditions. NFmin at 2GHz is 0.45dB as a minimum value. From the evaluation, MOSFETs designed using 0.35m CMOS process demonstrated a full potential for the commercial RF ICs for mobile communication systems near 2GHz. And optimization methods of the CMOS transistors for RF applications are presented in this paper.

• Proceedings of the Korean Information Science Society Conference
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• 2006.10d
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• pp.30-33
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• 2006

RFID(Radio Frequency Identification)은 RF주파수를 이용해서 사물이나 사람의 정보를 인식하는 자동인식 기술이다. 이 기술은 무선 주파수를 사용해서 대량의 사물을 동시에 인식 할 수 있다는 장점이 있지만, 무선 주파수를 사용하기 때문에, 프라이버시 문제와 주파수 충돌문제와 같은 부수적인 단점을 가지고 있다. 리더 충돌문제를 해결하기 위한 여러 가지 많은 연구들이 진행 되고 있지만, 현재까지 연구된 대부분은 고정적인 환경에서의 해결 방법들이다. 본 논문에서는 앞으로 다가올 모바일 사회에 대비해서, 밀집된 모바일 환경에서의 리더 충돌 방지 기법을 제안한다. 이 기법은 모바일 리더의 위치를 계산하고, 적절한 주파수를 할당하고 동적으로 RF의 세기를 조절함으로써 리더의 충돌을 방지 한다.

• Journal of the Institute of Electronics and Information Engineers
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• v.49 no.9
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• pp.270-275
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• 2012

This paper describes design of a variable-N frequency synthesizer for RF PLL with $0.13{\mu}m$ silicon CMOS technology being used as an application of the UWB system like MBOA. To get good performance of speed and noise super dynamic circuits was used, and to get variable-N division ratio MOSFET switching circuits was used. Especially to solve narrow bandwidth problem of the dynamic circuits load resistance value of unit divider block was varied. Simulation results of the designed circuit shows very fast and wide operation characteristics as 5~26GHz frequency range.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.48 no.1
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• pp.56-61
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• 2011

This paper describes design of a programmable frequency synthesizer for RF PLL with $0.18{\mu}m$ silicon CMOS technology being used as an application of the UWB system like MBOA. To get good performance of speed and noise super dynamic circuits was used, and to get programmable division ratio switching circuits was used. Especially to solve narrow bandwidth problem of the dynamic circuits load resistance value of unit divider block was varied. Simulation results of the designed circuit shows very fast and wide operation characteristics as 1~14GHz frequency range.

• The Journal of the Institute of Internet, Broadcasting and Communication
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• v.18 no.5
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• pp.223-228
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• 2018

In this paper the water sensor using a coaxial cavity resonator is designed and manufactured. The water sensor which can sense water drop linearly has been constructed with voltage controlled oscillator(VCO), coaxial cavity resonator, RF switch, RF detector, A/D converter, DAC and micro controller. The operating frequency range of the designed water sensor is from 2.5GHz to 3.2GHz and the input voltage and current source are 24[V/DC] and 1[A]. The designed sensor circuit includes VCO, RF switch, RF detector which varies the frequency characteristics of the devices in the high frequency of 3GHz. And so we should correct the error of the frequency characteristics of those devices in the sensor circuit. To do this, we make the reference path which switches the signals to the RF detector directly without sending it to the resonator. According to the result of simulation and measurement, we can see that there is 0-50MHz difference between simulated resonator frequency and manufactured resonator frequency.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2006.05a
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• pp.997-1000
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• 2006

In this paper, we have used the 900Mha RF band and produced the transmitter-receivers to measure the distance of moving range of a crane. We selected the analog signal of 450Khz middle frequency band of the RF Baseset module, and the property data of phase response is analysed to estimate the range distance. We have earned the good results from the experiment.

• The Journal of The Korea Institute of Intelligent Transport Systems
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• v.4 no.3 s.8
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• pp.45-50
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• 2005

In this paper, a broadband single balanced mixer is presented using a wideband rat-race implementation by vertical coupling. Frequency is selected as $1.5{\sim}3$ GHz for RF, $1.64{\sim}3.14$ GHz for LO, and 140 MHz for IF signals. When LO signal with 6 dBm at 2.7 GHz is injected, a conversion loss of 7.5 dB and RF to LO isolation of 30 dB are obtained. Also, an average conversion loss of 10 dB, RF to LO isolation of 30 dB, and LO to IF isolation of 45 dB are obtained for frequency band of $1.5{\sim}3$ GHz.