• Environmental Engineering Research
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• 제17권2호
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• pp.89-94
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• 2012

Pyrolysis/gasification technology utilizes an energy conversion technique from various waste resources, such as biomass, solid waste, sewage sludge, and etc. to generating a syngas (synthesis gas). However, one of the major problems for the pyrolysis gasification is the presence of tar in the product gas. The tar produced might cause damages and operating problems on the facility. In this study, a gliding arc plasma reformer was developed to solve the previously acknowledged issues. An experiment was conducted using surrogate benzene and naphthalene, which are generated during the pyrolysis and/or gasification, as the representative tar substance. To identify the characteristics of the influential parameters of tar decomposition, tests were performed on the steam feed amount (steam/carbon ratio), input discharge power (specific energy input, SEI), total feed gas amount and the input tar concentration. In benzene, the optimal operating conditions of the gliding arc plasma 2 in steam to carbon (S/C) ratio, 0.98 $kWh/m^3$ in SEI, 14 L/min in total gas feed rate and 3.6% in benzene concentration. In naphthalene, 2.5 in S/C ratio, 1 $kWh/m^3$ in SEI, 18.4 L/min in total gas feed rate and 1% in naphthalene concentration. The benzene decomposition efficiency was 95%, and the energy efficiency was 120 g/kWh. The naphthalene decomposition efficiency was 79%, and the energy yield was 68 g/kWh.

• 대한전기학회논문지:전기기기및에너지변환시스템부문B
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• 제54권12호
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• pp.601-608
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• 2005

This paper presents a novel single-stage high-power-factor electronic ballast for fluorescent lamps operating in critical conduction mode. The proposed topology is based on integration of boost converter as power factor corrector(PFC) and a half-bridge high frequency parallel resonant inverter into a single stage. The input stage of the boost converter is operating in critical conduction mode for positive and negative half cycle voltage respectively at line frequency(60Hz). So that a boost converter makes the line current follow naturally the sinusoidal line voltage waveform. The simulated and experimental results for 100W fluorescent lamps operating at 42kHz switching frequency and 220V line voltage have been obtained. This proposed inverter will be able to be practically used as a power supply in various fields as induction heating applications, fluorescent lamp and DC-DC converter etc.

• 센서학회지
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• 제32권6호
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• pp.432-440
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• 2023

This study introduces an efficient readout circuit designed for two-electrode electrocardiogram (ECG) recording, characterized by its low-noise and low-power consumption attributes. Unlike its three-electrode counterpart, the two-electrode ECG is susceptible to common-mode interference (CMI), causing signal distortion. To counter this, the proposed circuit integrates a common-mode charge pump (CMCP) with a window comparator, allowing for a CMI tolerance of up to 20 V_PP. The CMCP design prevents the activation of electrostatic discharge (ESD) diodes and becomes operational only when CMI surpasses the predetermined range set by the window comparator. This ensures power efficiency and minimizes intermodulation distortion (IMD) arising from switching noise. To maintain ECG signal accuracy, the circuit employs a chopper-stabilized instrumentation amplifier (IA) for low-noise attributes, and to achieve high input impedance, it incorporates a floating high-pass filter (HPF) and a current-feedback instrumentation amplifier (CFIA). This comprehensive design integrates various components, including a QRS peak detector and serial peripheral interface (SPI), into a single 0.18-㎛ CMOS chip occupying 0.54 mm². Experimental evaluations showed a 0.59 µV_RMS noise level within a 1-100 Hz bandwidth and a power draw of 23.83 µW at 1.8 V.

• 대한전기학회:학술대회논문집
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• 대한전기학회 1998년도 하계학술대회 논문집 E
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• pp.1803-1805
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• 1998

Electron temperature, electron density and electron energy distribution function were measured in Radio-Frequency Inductively Coupled Plasma(RFICP) using a probe method. Measurements were conducted in argon discharge for pressure from 10 mTorr to 40 mTorr and input rf power from 100W to 600W and flow rate from 3 sccm to 12 sccm. Spatial distribution electron temperature and electron density and electron energy distribution function were measured for discharge with same aspect ratio(R/L=2). Electron temperature was found to depend on pressure, but only weakly on power. Electron density and electron energy distribution function strongly depended on both pressure and power. Electron density and electron energy distribution function increased with increasing flow rate. Radial distribution of the electron density and electron energy distribution function were peaked in the plasma center. Normal distribution of the electron density electron energy distribution function were peaked in the center between quartz plate and substrate. These results were compared to a simple model of ICP, then we found out the generation mechanism of Radio-Frequency Inductively Coupled Plasma.

• 한국전자통신학회논문지
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• 제18권5호
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• pp.777-784
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• 2023

감지 증폭기는 메모리 설계에 필수적인 주변 회로로서, 작은 차동 입력 신호를 감지하여 디지털 신호로 증폭하기 위해 사용된다. 본 논문에서는 인 메모리 컴퓨팅 회로에서 활용 가능한 고속 감지 증폭기를 제안하였다. 제안하는 회로는 추가적인 방전 경로를 제공하는 트랜지스터 Mtail을 통해 감지 지연 시간을 감소시키고, m-GDI(:modified Gate Diffusion Input)를 적용하여 감지 증폭기의 회로 성능을 개선하였다. 기존 구조와 비교했을 때 감지 지연 시간은 16.82% 감소하였으며, PDP(: Power Delay Product)는 17.23%, EDP(: Energy Delay Product)은 31.1%가 감소하는 결과를 보였다. 제안하는 회로는 TSMC의 65nm CMOS 공정을 사용하여 구현하였으며 SPECTRE 시뮬레이션을 통해 본 연구의 타당성을 검증하였다.

• 한국안전학회지
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• 제26권6호
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• pp.13-19
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• 2011

The purpose of this study is to examine the cause of damage to electrolytic capacitors and to present the heat generation mechanism in order to prevent the occurrence of similar problems. From the analysis results of electrolytic capacitors collected from accident sites, the fire causing area can be limited to the primary power supply for the initial accident. From the tests performed by applying overvoltage, surge, etc., it is thought that the fuse, varistor, etc., are not directly related to the accidents that occurred. The analysis of the characteristics using a switching regulator showed that the charge and discharge characteristics fell short of standard values. In addition, it is thought that heated electrolytic capacitors caused thermal stress to nearby resistances, elements, etc. It can be seen that the heat generation is governed by the over-ripple current, application of AC overvoltage, surge input, internal temperature increase, defective airtightness, etc. Therefore, when designing an electrolytic capacitor, it is necessary to comprehensively consider the correct polarity arrangement, appropriate voltage application, correct connection of equivalent series resistance(ESR) and equivalent series inductance(SEL), rapid charge and discharge control, sufficient margin of dielectric tangent, etc.

• Journal of Astronomy and Space Sciences
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• 제27권3호
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• pp.253-262
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• 2010

The electrical power system (EPS) of Korean satellites in low-earth-orbit is designed to achieve energy balance based on a one-orbit mission scenario. This means that the battery has to be fully charged at the end of a one-orbit mission. To provide the maximum solar array (SA) power generation, the peak power tracking (PPT) method has been developed for a spacecraft power system. The PPT is operated by a software algorithm, which tracks the peak power of the SA and ensures the battery is fully charged in one orbit. The EPS should be designed to avoid the stress of electronics in order to handle the main bus power from the SA power. This paper summarizes the results of energy balance to achieve optimal power sizing and the actual trend analysis of EPS performance in orbit. It describes the results of required power for the satellite operation in the worst power conditions at the end-of-life, the methods and input data used in the energy balance, and the case study of energy balance analyses for the normal operation in orbit. Both 10:35 AM and 10:50 AM crossing times are considered, so the power performance in each case is analyzed with the satellite roll maneuver according to the payload operation concept. In addition, the data transmission to the Korea Ground Station during eclipse is investigated at the local-time-ascending-node of 11:00 AM to assess the greatest battery depth-of-discharge in normal operation.

• 전력전자학회논문지
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• 제4권5호
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• pp.449-454
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• 1999

본 논문에서는 자동차 헤드라이트용 고압방전등 안정기의 새로운 전력변환 구조를 제안한다. 제안된 전력변환 구조는 기존의 안정기와 같이 고압방전등의 전력제어를 하는 고주파 DC-DC 컨버터와 저주파 DC-AC 인버터로 구성되어 있지만, 컨버터에 보조권선을 사용하여 고압방전등의 점등개시용 절연파괴전압을 얻기 위한 고압변압기의 1차측 전압을 DC-DC 컨버터의 직류단과 분리하여 공급하게 되어 있다. 따라서 기존의 시스템에 비해 작은 전압 정격을 가지는 소자를 사용할 수 있어 시스템의 효율 향상 및 가격 절감을 할 수 있다.

• 한국수소및신에너지학회논문집
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• 제18권2호
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• pp.132-139
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• 2007

Popular techniques for producing synthesis gas by converting methane include steam reforming and catalyst reforming. However, these are high temperature and high pressure processes limited by equipment, cost and difficulty of operation. Low temperature plasma is projected to be a technique that can be used to produce high concentration hydrogen from methane. It is suitable for miniaturization and for application in other technologies. In this research, the effect of changing each of the following variables was studied using an AC Glidarc system that was conceived by the research team: the gas components ratio, the gas flow rate, the catalyst reactor temperature and voltage. Glidarc plasma reformer was consisted of 3 electrodes and an AC power source. And air was added for the partial oxidation reaction of methane. The result showed that as the gas flow rate, the catalyst reactor temperature and the electric power increased, the methane conversion rate and the hydrogen concentration also increased. With $O_2/C$ ratio of 0.45, input flow rate of 4.9 l/min and power supply of 1 kW as the reference condition, the methane conversion rate, the high hydrogen selectivity and the reformer energy density were 69.2%, 36.2% and 35.2% respectively.

• 산업식품공학
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• 제15권4호
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• pp.398-403
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• 2011

비열살균기술로서 저온플라즈마 활용 가능성을 탐색하고자 유전체장벽 방전 플라즈마(DBDP)생성장치를 제작하여 최적 플라즈마생성 조건을 도출하고 Staphyloocus aureus를 대상으로 살균성능을 조사하였다. DBDP생성장치는 전력공급장치, 변압기, 전극, 시료처리부 등 네 부분으로 구성하였다. 인가전압은 단상 200 V AC를 사용하고, 변압기를 통하여 10.0-50.0 kV로 변환하고 10.0-50.0 kHz의 주파수의 펄스 구형파를 유전체인 세라믹 블록 내에 장치한 전극에 투입함으로써 상압에서 플라즈마를 생성하였다. 주파수를 올림에 따라 높은 전류가 유입되었고, 이에 비례하여 전력소비량이 증가하였다. 전류세기 1.0-2.0 A, 주파수32.0-35.3 kHz 범위에서 균일하고 안정적인 플라즈마 발생이 이루어졌으며 시료를 투입하지 않은 상태에서의 최적 전극간격은 1.85 mm 이었다. 전극간격을 높임에 따라 소비전력이 증가하였으나 시료 처리에 적합한 전극간격은 2.65 mm였다. DBDP 처리에 의한 온도상승은 최대 20$^{\circ}C$에 불과하여 열에 의한 생물학적 효과는 무시할 수 있었으며 따라서 비열기술임이 확인되었다. Staphyloocus aureus를 대상으로 DBDP 처리할 경우 초기 5분 동안은 살균치가 직선적인 증가를 보이다가 이후 다소 완만해지는 경향을 보였으며 1.25 A에서 10분간 처리 시 살균치는 5.0을 상회하였다.