• 제목/요약/키워드: High Voltage DC Transmission

검색결과 95건 처리시간 0.023초

고전압 입력용 SMPS의 고효율 전략 (High Efficiency Strategy of High Input Voltage SMPS)

  • 우동영;박성미;박성준
    • 한국산업융합학회 논문집
    • /
    • 제22권3호
    • /
    • pp.365-371
    • /
    • 2019
  • Recently, the demonstration and research on the power transmission using high voltage DC such as HVDC(High Voltage DC), Smart Grid, DC transmission and distribution have been actively conducted. In order to control the power converter in high-voltage DC power transmission system, SMPS(Switching Modulation Power Supply) for power converter control using high-voltage DC input is essential. However, the demand for high-pressure SMPS is still low, so the development is not enough. In the low-output SMPS using the high-voltage input, it is difficult to achieve high efficiency due to the switching transient loss especially at light load. In this paper, we propose a new switching scheme for high power SMPS control for low output power. The proposed method can provide better efficiency increase effect in the light load region compared to the existing PWM method. To verify the feasibility of the proposed method, a 40 W SMPS for HVDC MMC(Modulation Multi-level Converter) was designed and verified by simulation.

모델급 초전도 직류 송전 선로의 설계 (Design of a laboratory-scale superconducting DC transmission line)

  • 김성규;딘민차우;박민원;유인근
    • 대한전기학회:학술대회논문집
    • /
    • 대한전기학회 2015년도 제46회 하계학술대회
    • /
    • pp.1102-1103
    • /
    • 2015
  • The researchers worldwide have been trying to apply high temperature superconducting wire for power system devices. High voltage direct current (HVDC) transmission system has been used for bulk and long-distance power transmission. The authors designed a laboratory-scale superconducting DC transmission line to investigate its applicability to an HVDC system. The superconducting DC transmission line was simulated in connection to a laboratory-scale HVDC system using PSCAD/EMTDC. The operating characteristics of the superconducting DC transmission line connected to HVDC system and the effects of the superconducting DC transmission line on HVDC system were analyzed and compared with the results of a conventional DC transmission line. The results of operating characteristics for the superconducting DC transmission line were discussed in detail.

  • PDF

고효율 마이크로파 무선 전력 수신 집적회로 설계 및 구현 (A Design of High Efficiency Microwave Wireless Power Acceptor IC)

  • 정원재;정효빈;김상규;장종은;박준석
    • 전기학회논문지
    • /
    • 제62권8호
    • /
    • pp.1125-1131
    • /
    • 2013
  • Wireless power transmission technology has been studied variety. Recently, wireless power transmission technology used by resonance and magnetic induction field is applied to various fields. However, magnetic resonance and inductive coupling are have drawbacks - power transmission distance is short. Microwave transmission and accept techniques have been developed to overcome short distance. However, improvement in efficiency is required. This paper, propose a high-efficiency microwave energy acceptor IC(EAIC). Suggested EAIC is consists of RF-DC converter and DC-DC converter. Wide Input power range is -15 dBm ~ 20 dBm. And output voltage is boosted up to 5.5 V by voltage boost-up circuit. EAIC can keep the output voltage constant. Available efficiency of RF-DC converter is 95.5 % at 4 dBm input. And DC-DC efficiency is 94.79 % at 1.1 mA load current. Fully EAIC efficiency is 90.5 %.

AC/DC 병가선로의 개폐서지 과전압 해석 (Analysis of Switching Surge Over-voltage in AC/DC Hybrid Transmission Lines)

  • 유성수;신구용;문채주
    • 한국전자통신학회논문지
    • /
    • 제17권3호
    • /
    • pp.459-466
    • /
    • 2022
  • 개폐서지는 전력시스템에서 발생하는 과전압 현상 중의 하나이며 변전소의 차단기 등 개폐장치의 동작이나 송전선로의 고장으로 인해 발생한다. 특히 송전선로의 절연설계를 위하여 개폐서지의 피크를 산정하는 것은 매우 중요하고 AC/DC 병가선로의 안정적인 운영을 위한 절연협조의 기본적인 검토항목이다. 본 논문에서는 새로운 AC/DC 병가구조의 전력시스템에 대한 상정해석을 위하여 AC 765kV와 DC ±500kV Bi-Pole 시스템이 조합된 송전선로를 대상으로 하였다. 일반적으로 교류 송전시스템의 절연설계를 위한 비정상적인 과전압은 외부과전압으로 낙뢰에 의한 과전압과 내부과전압으로 개폐에 의한 과전압을 고려한다. 직류 송전시스템의 경우에는 개폐에 의한 과전압 보다 송전선로의 중간에서 지락고장이 발생하면 인접한 정상선로에 유기되는 내부과전압을 개폐서지라하며 직류송전선로에 유기되는 가장 큰 일시적인 과전압을 의미한다. 본 논문의 연구목적으로 구성된 선로에 대하여 EMTDC 소프트웨어를 사용하여 모의하였으며, 다양한 AC/DC 혼합 형태에 대한 개폐과전압의 영향을 검토하였다.

신뢰성 개선된 IGBT 소자 신구조 (Advanced IGBT structure for improved reliability)

  • 이명진
    • 디지털콘텐츠학회 논문지
    • /
    • 제18권6호
    • /
    • pp.1193-1198
    • /
    • 2017
  • 본 논문에서 개발된 IGBT 구조는 DC 송배전을 위한 고전력 스위치 반도체로서 사용되며, 빠른 스위칭 속도 및 개선된 항복전압 특성을 확보하여, 향후 신재생 장거리 DC 송전을 위한 중요한 전자 소자로서 이용될 것이 기대되고 있다. 새로운 타입의 차세대 전력 반도체로서, 스위칭 속도를 향상시키면서 동시에 항복 전압의 특성을 개선시켜, 전력 손실 특성을 줄이도록 설계되었고, 높은 전류 밀도의 장점을 동시에 획득 가능하다. 이러한 개선된 특성은 Planar IGBT의 N-drift 영역에 $SiO_2$를 추가로 도입함으로서 얻어지며, Sentaurus TCAD 시뮬레이션 툴을 사용하여, 비교 분석하였다.

개선된 De-loading기법을 이용한 해상풍력 연계용 HVDC의 DC 전압의 제어방안 (DC-link Voltage Control of HVDC for Offshore Wind Farm using Improved De-loading Method)

  • 허재선;문원식;박상인;김두희;김재철
    • 전기학회논문지
    • /
    • 제64권3호
    • /
    • pp.399-404
    • /
    • 2015
  • This paper presents the DC voltage control method in DC link of High Voltage Direct Current(HVDC) for an offshore wind farm in Low Voltage Ride Through(LVRT) situation. Wind generators in an offshore wind farm are connected to onshore network via HVDC transmission. Due to LVRT control of grid side inverter in HVDC, power imbalancing in DC link is generated and this consequentially causes rising of DC voltage. A de-loading scheme is one of the method to protect the wind power system DC link capacitors from over voltage. But the flaw of this method is slow control response time and that it needs long recovery time to pre-fault condition after fault clear. Thus, this paper proposes improved de-loading method and we analyze control performance for DC voltage in LVRT control of HVDC for an offshore wind farm.

극 수에 따른 저압직류 배전계통의 순시전압강하 분석 (Analysis on Voltage Sag in Low Voltage DC Distribution System according to the Number of Poles)

  • 노철호;김두웅;권기현;오윤식;한준;김철환
    • 조명전기설비학회논문지
    • /
    • 제29권11호
    • /
    • pp.66-73
    • /
    • 2015
  • AC-based power systems, having the advantages that voltage transformation and long distance transmission are easy, have been constructed since the last 19th century. However, DC-based power system is paid attention these days because of the development of power electronic devices as well as the increase of digital loads and distributed generation. For instance, the transmission systems using High Voltage DC (HVDC) are commercially operated in the world and the researches on distribution system using Low Voltage DC (LVDC) are gradually increased. This paper analyzes voltage sag, resulted from faults, in LVDC distribution system according to the number of poles. Modeling and simulation with various conditions are conducted by using ElectroMagnetic Transients Program (EMTP). Moreover, some countermeasures to reduce voltage sag in LVDC distribution system are suggested briefly.

Copper Particle Effect on the Breakdown Strength of Insulating Oil at Combined AC and DC Voltage

  • Wang, You-Yuan;Li, Yuan-Long;Wei, Chao;Zhang, Jing;Li, Xi
    • Journal of Electrical Engineering and Technology
    • /
    • 제12권2호
    • /
    • pp.865-873
    • /
    • 2017
  • Converter transformer is the key equipment of high voltage direct current transmission system. The solid suspending particles originating from the process of installation and operation of converter transformer have significant influence on the insulation performance of transformer oil, especially in presence of DC component in applied voltage. Under high electric field, the particles easily lead to partial discharge and breakdown of insulating oil. This paper investigated copper particle effect on the breakdown voltage of transformer oil at combined AC and DC voltage. A simulation model with single copper particle was established to interpret the particle effect on the breakdown strength of insulating oil. The experimental and simulation results showed that the particles distort the electric field. The breakdown voltage of insulating oil contaminated with copper particle decreases with the increase of particle number, and the breakdown voltage and the logarithm of particle number approximately satisfy the linear relationship. With the increase of the DC component in applied voltage, the breakdown voltage of contaminated insulating oil decreases. The simulation results show that the particle collides with the electrode more frequently with more DC component contained in the applied voltage, which will trigger more discharge and decrease the breakdown voltage of insulating oil.

AC 및 DC 송전 선로 병렬 연계에 따른 정상상태 커플링 영향 분석 (The Study of Steady-State Interaction Between AC and DC Lines on the Same Transmission Tower)

  • 윤종수
    • 전기학회논문지
    • /
    • 제59권7호
    • /
    • pp.1221-1225
    • /
    • 2010
  • The application of the AC and DC lines on the same transmission tower is an economical and practical approaching that increase the power transmission capacity of an existing transmission corridor. But, In this case, Inductive and capacitive coupling between AC and DC lines on the same tower should be investigated in advance. According to the installation plan of 80kV ${\pm}$60MW bipole HVDC in Cheju, KOREA that will be commissioned until 2011, DC lines will parallely operate with 154kV 2 AC lines in existed 154kV AC 4 lines transmission tower. This paper presents the steady state analysis results about the interaction between 154kV AC and 80kV DC lines in the same transmission tower.

AC 및 DC 송전선로 과도상태 커플링 영향 분석 (The Study of Transient Coupling between AC and DC lines on the Same Transmission Tower)

  • 윤종수
    • 전기학회논문지
    • /
    • 제60권1호
    • /
    • pp.14-19
    • /
    • 2011
  • The implemetation of the AC and DC lines on the same transmission tower is an economical and practical approaching that increase the power transmission capacity of an existing transmission corridor. But, In this case, Inductive and capacitive coupling between AC and DC lines on the same tower should be investigated in advance. According to the installation plan of ${\pm}80kV$ 60MW bipole HVDC in Jeju island, KOREA that will be commissioned until 2011, DC lines will parallely operate with 154kV 2 AC lines in existed 154kV AC 4 lines transmission tower. This paper presents the transient analysis results about the interaction between 154kV AC and 80kV DC lines in the same transmission tower.