• Title/Summary/Keyword: Parallel AC to DC Converter

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A Study on Parallel Operation of PWM Converter for Auxiliary Power Supply of High Speed Train (고속전철 보조전원장치용 PWM 컨버터의 병렬운전에 관한 연구)

  • Kim, Yeon-Chung;O, Geun-U;Won, Chung-Yeon;Choe, Jong-Muk;Gi, Sang-U
    • Journal of the Institute of Electronics Engineers of Korea SC
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    • v.37 no.6
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    • pp.64-72
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    • 2000
  • This paper deals with the parallel operation of two PWM converters for auxiliary block of high speed train. The parallel operation of AC/DC PWM converter controlled by 3-level PWM switching method to operate switching devices to realize a high power factor and reduce the primary side of the transformer current harmonics is proposed. In this paper, it is presented the phase shift technique between two converters switching phase, solution to eliminate the coupling effects due to the transformer and zero crossing detection method for synchronized with the source and controller. Experimental results for laboratory system with TMS320C31 microprocessor and 10[kVA]PWM converter confirm the validity of the proposed algorithm.

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The Parallel Operation of Single Phase PWM Rectifier using IGCT (IGCT를 이용한 단상 PWM정류기 병렬운전)

  • 이현원;장성영;김연준;이광주
    • The Transactions of the Korean Institute of Power Electronics
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    • v.5 no.1
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    • pp.11-18
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    • 2000
  • 대용량 반도체 소자인 IGCT를 사용하여 철도차량용 AC-to-DC 단상 PWM 컨버터를 제작 실험하였다. 컨버터의 용량을 향상시키기 위해 2대의 PWM 컨버터를 병렬 운전하였으며 병렬운전시 각각의 컨버터 스위칭각을 다르게 제어하여 각 컨버터의 전류 리플을 상쇄시켜 전원의 고조파 함유를 줄였다. 출력전압제어는 입력전류의 측정 없이 내부 계산에 의해 수행하였으며 단위역률을 제어하기 위해 소프트웨어적으로 간단히 PLL을 수행하였다.

The Parallel Operation of Single Phase PWM Rectifier using IGBT (IGBT를 이용한 단산 PWM정류기 병렬운전)

  • 이현원;장성영;김연준;이광주;김남해
    • Proceedings of the KIPE Conference
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    • 1999.07a
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    • pp.122-125
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    • 1999
  • The AC-to-DC single-phase PWM rectifier for traction applications using high power semiconductor, IGCT is made and tested. Parallel operation of two PWM converter is adopted for increasing capacity of converters. For reducing harmonics, the harmonic content is eliminated by the phase shift between two converters switching phase. The output voltage control is achieved by interns calculation without detecting the input current. The part of PLL used for controlling power factor is simply implemented by software.

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The composition of Boost converter and controller design for load current sharing (부하전류 분담을 위한 부스트 컨버터의 병렬 구성 및 제어기 설계)

  • Song, Sung-Ho;Park, Seok-Ha;Kim, Jin-Sung;Kim, Yang-Mo
    • Proceedings of the KIEE Conference
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    • 1997.07f
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    • pp.2055-2057
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    • 1997
  • In this study, we present the DPS system which is consist of several converters in parallel and supply the power to the load. The characteristics of the DPS using AC-bus or DC-bus, and load current sharing technique are discussed. We apply these techniques to the high-power paralleled DC/DC converter, and present the design requirements considered in the system.

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Stability Enhancement of a Hybrid Micro-grid System in Grid Fault Condition

  • Ambia, Mir Nahidul;Al-Durra, Ahmed;Caruana, Cedric;Muyeen, S.M.
    • Journal of international Conference on Electrical Machines and Systems
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    • v.2 no.2
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    • pp.225-231
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    • 2013
  • Low voltage ride through capability augmentation of a hybrid micro-grid system is presented in this paper which reflects enhanced reliability in the system. The control scheme involves parallel connected multiple ac-dc bidirectional converters. When the micro-grid system is subjected to a severe voltage dip by any transient fault single power converter may not be able to provide necessary reactive power to overcome the severe voltage dip. This paper discusses the control strategy of additional power converter connected in parallel with main converter to support extra reactive power to withstand the severe voltage dip. During transient fault, when the terminal voltage crosses 90% of its pre-fault value, additional converter comes into operation. With the help of additional power converter, the micro-grid system withstands the severe voltage fulfilling the grid code requirements. This multiple converter scheme provides the micro-grid system the capability of low voltage ride through which makes the system more reliable and stable.

Direction for Development of Energy Regeneration Device for DC Electric Railway System (DC전철구간의 에너지회생장치 개발 방향)

  • Kim, Yong-Ki;Bae, Chang-Han;Han, Moon-Seob;Yang, Young-Chul;Jang, Su-Jin
    • Proceedings of the KSR Conference
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    • 2007.05a
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    • pp.804-808
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    • 2007
  • when electric traction system used DC 1500V runs on decline of rail road track and slows down, Dc voltage goes beyond regular voltage. In this case extra power is forcibly wasted by resister because rectifier of substation and electric train including power converter and so on are out of order. This paper described a DC electric railway system, which can generate the excessive DC power form DC bus line to AC source in substation for traction system. The proposed regeneration inverter system for DC traction can be used as both an inverter and an active power filter(APF). As a regeneration inverter mode, it can recycle regenerative energy caused by decelerating tractions and as an active power filter mode, it can compensate for harmonic distortion produced by the rectifier substation. In addition, electric traction system products harmonic current and voltage distortion and reactive power because power converter is used so regeneration inverter normally runs such as active power filter(APF) for improving power quality. From the viewpoint of both power capacity and switching losses, the system is designed on the basis of three phase PWM inverters and composed of parallel inverters, output transformers, and an LCL filter.

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A Study on Characteristic Analysis of AC to AC Current-Fed Type High Frequency Resonant Inverter with High Power Factor (고역율 AC/AC 전류형 고주파 공진 인버터의 특성해석에 관한 연구)

  • Kim, Jong-Hae;Won, Jae-Sun
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.28 no.1
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    • pp.16-28
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    • 2014
  • This paper presents a novel high-power-factor circuit topology of AC to AC current-fed type high frequency resonant inverter which includes the function of power factor correction(PFC) in the proposed inverter to operate the AC input block with high power factor. The proposed circuit topology of AC to AC current fed type high resonant inverter removes DC link electrolytic capacitor and has also the one of power factor correction(PFC) in the inverter circuit without an additional PFC circuit since the input current by constituting it in parallel as an unit inverter, which assumes the class-E high frequency resonant inverter of conventional current-fed type, flows in the form of the resultant current flowing through each constant current reactor($L_{d1}$, $L_{d2}$). The circuit analysis of proposed inverter is generally described by adopting the normalized parameters and the evaluation of its operating characteristics are conducted by using the parameters such as the ratio of switching and resonant frequency(${\mu}$), coupling coefficient(k) and so on. An example of procedure for circuit design based on the characteristic values obtained from the theoretical analysis is presented. To confirm the validity of the theoretical analysis, the experimental results are also presented. In the future, the proposed inverter shows it can be practically used as power supply system for induction heating application, DC-DC converter etc.

Novel Converter Topology for a Three Phase to Three Phase PWM Rectifier/Inverter System (비용절감형 컨버터 구조를 갖는 3상-3상 PWM 정류기/인버터 시스템)

  • Kim, Gi-Taek;Park, Tae-Yeol;Lee, Hae-Chun
    • Journal of Industrial Technology
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    • v.18
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    • pp.323-328
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    • 1998
  • A current controlled VSI-PWM rectifier and inverter with capacitor dc link is regarded as one of the most promising structures for three-phase to three-phase to three-phase power conversion. This type of converter normally requires twelve switches for a rectifier and inverter composed of self turn-off switch such as a bi-polar transistor or IGBT with an anti-parallel diode. In this paper, a new three-phase to three-phase converter for ac motor drives is proposed. The proposed converter employs only eight switches and has the capability of delivering sinusoidal input currents with unity power factor and bidirectional power flow. This paper describes the feasibility and the operational limitations of the proposed structure. A mathematical model of the system is derived using generalized modulation theory and experimental results for steady state and dynamic behavior are presented to verify the developed model.

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Variable Charger of Vehicle using Relay (릴레이를 이용한 차량용 배터리의 가변 충전기)

  • Song, Sung-Geun;Chung, Seung-Tae;Kang, Sung-Gu;Lee, Sang-Hun
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.26 no.9
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    • pp.47-56
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    • 2012
  • This research is to develop satiable battery charger with a variety of capacity and voltage specifications of battery. For this, voltage or current were controlled through buck converter which is DC voltage that already received three-phase at primary side and passed bridge rectifier diode. And, it was comprised of full-bridge converter and HFTR for insulation and a square wave AC. The transformer primary side was comprised in series to divide certain charging current and the secondly side was comprised of 6 fixed transformers so that they can generate certain amount of power and various output voltage through relay parallel compound 6 DC Link outputs. To confirm such structure's verification and validity, simulation with PSIM was conducted, and validity of proposed variable charger system was verified through 3kW stack production.

Variable Output and Parallel Operation Control of EV Charger (전기자동차용 충전기의 가변출력 및 병렬운전 제어)

  • Lee, Sang-Hyeok;Kang, Seong-Gu;Awasthi, Prakash;Hwang, Jung-Goo;Lee, Seung-Yul;Wi, Han-Byul;Park, Sung-Jun
    • The Transactions of the Korean Institute of Power Electronics
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    • v.18 no.2
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    • pp.153-160
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    • 2013
  • This research paper describes the development of battery charger with a variable output voltage capacity for charging the batteries used in electrical vehicles. The voltage and current accordingly is control via the buck converter that receives three phase current at primary side and fed to bridge rectifier which is comprised of full bridge converter and HFTR(High Frequency Transformer) for isolation and a square wave AC output. The transformer primary side is in series to divide certain charging current and the secondary side is comprised of six fix transformers so that they can generate certain amount of power and various output voltage through relay connection using 6 DC outputs. Moreover, all parallel connected full bridge serial resonant converter communicate together with upper(main) controller. The constructed structure is verified by conducting the test on PSIM as well as experimentally.