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압전 트랜스포머를 이용한 PDA용 CCFL구동회로의 모델링과 동작특성
황락훈(L.H.Hwang),장은성(E.S.Jang),남우영(W.Y.Nam),류주현(J.H Yoo),오동언(D.O.Oh),조문택(M.T.Cho),안익수(I.S.Ahn),주해종(H.J.Joo) 전력전자학회 2003 전력전자학술대회 논문집 Vol.2003 No.7(1)
In This paper, to apply piezoelectric transformer for PDA backlight inverter, piezoelectric transformer using the composition which Nb₂O_5 added into PNW-PMN-PZT ceramics was fabricated as Rosen-type one with the size of 1165mm³. And their electrical characteristics were investigated with the variations of load resistance and driving frequency And then, the driving circuit for PDA CCFL(O.6W) which composed of the two MOSFETs connecting in series was manufactured using piezoelectric transformer, VCO and one-chip microprocessor. After driving for 25 min using the proposed circuit for PDA CCFL(O.6W), driving frequency of 214.4kHz, input voltage of 31.78 V and input current of 21.1mA were shown. And then, output voltage of 293.2 V and output current of 22mA were shown At the same time, efficiency of 96.2% and temperature rise of 3.6℃ were appeared at the piezoelectric transformer
이선형(S. H. Lee),주태우(T. W. Joo),강영수(Y. S. Kang),김길영(K. Y. Kim),허준영(J. Y. Huh) 유공압건설기계학회 2013 유공압건설기계학회 학술대회논문집 Vol.2013 No.6
The term "fuse" is used here in analogy with electrical fuses which perform a similar function. The electrical fuse senses the overload and disconnects the electrical circuit effectively shutting it off. In this way, further equipment damage is eliminated and a potential safety hazard is avoided. The hydraulic fuse provides similar protection to a hydraulic circuit. A hydraulic fuse is used to detect a leakage condition(such as a broken line or a disconnected hose) and shut off the circuit to reduce the loss of hydraulic pressure. It is a safety feature, designed to allow systems to continue operating, or at least to not fail catastrophically, in the event of a system breach. It does this by stopping the flow of hydraulic fluid through itself if the flow exceeds a predetermined passed volume. The hydraulic fuse may be self-resetting or have a manual reset. In this paper, we studied temperature parameters influencing upon volumetric capacity of the hydraulic fuse optimized performance.
박동성(D.-S. Park),주재준(J.-J. Joo),문경모(K.-M. Moon),장용복(Y.-B. Chang),박영민(Y.-M. Park),김남원(N.-W. Kim),이현정(H.-J. Lee),곽상우(S.-W. Kwag),송낙형(N.-H. Song),우인식(I.-S. Woo),양형렬(H.-L. Yang) 대한기계학회 2012 대한기계학회 춘추학술대회 Vol.2012 No.11
Korea Superconducting Tokamak Advanced Research (KSTAR) was constructed for Korean fusion research and has been operated successfully since 2008. Different from other tokamak devices, KSTAR is fully superconducting (SC) magnet tokamak which consists of 30 magnets and is made of Nb₃Sn and NbTi superconductor. To reach appropriate operating condition of the KSTAR SC magnets, the magnets temperature should be cooled down to liquid helium temperature. A Helium Refrigeration System(HRS) with an exegetic equivalent cooling power of 9㎾ at 4.5K is dedicated to cool down and keep the KSTAR SC magnets in cryogenic temperature. Since the commissioning period and the first campaign of KSTAR, the HRS has showed sufficient performance for the KSTAR SC magnets operation. The estimated time of cool-down for KSTAR cold components was 30 days, but the KSTAR SC magnets were reached to cryogenic temperature in 23 days at the first cool-down operation. Due to the long period of the KSTAR campaign, the reliable operation of the HRS is as important as its performance. During the past 4 years of campaign, the abnormal events were occurred several times and they were influenced to the reliability of the KSTAR HRS and the system availability was decreased. This paper will present the operation result of the KSTAR HRS since the first campaign and the record of the abnormal events and reliability will be discussed.