• Title/Summary/Keyword: Sinusoidal rectifier

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The Improvement Effect of Input Current Waveform of Two New Main Switching Boost Rectifiers

  • Ha, Sung-Hyun;Kim, Chang-Il;Kim, Soo-Wook;Nam, Jing-Rak;Mun, Sang-Pil
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.22 no.3
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    • pp.15-26
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    • 2008
  • This paper proposes a new sinusoidal rectifier which improves input factor and input current waveform without complicated switching modulation such as pulse width or a complicated feed back control. The proposed rectifier consists of a pair of capacitors connected in series, a full bridge diode rectifier, a pair of inductors, and a pair of switching devices connected in series. While the configuration of the sinusoidal rectifier is simple in itself, it effectively reduces the reactive power and harmonics involved(IEC555-2 SC77A90 Class C) in input line current. The excellent properties of the new sinusoidal rectifier are verified by theoretical analysis and experimental results.

Drawing Sinusoidal Input Currents of Series-Connected Diode Rectifiers by A Current Injection Technique (직렬접속형 다이오드 정류기 시스템의 전류주입에 의한 고조파 저감)

  • 최세완;오준용;원충연;김영석
    • Proceedings of the KIPE Conference
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    • 1999.07a
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    • pp.346-349
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    • 1999
  • This paper proposes a new series-connected diode rectifier which draws sinusoidal input currents. The proposed rectifier system is configured by adding an auxiliary circuit to the conventional 12-pulse series-connected diode rectifier and employing a current injection technique. A low kVA (0.02Po (PU) ) active current source injects a triangular current results in near sinusoidal input current from the utility with less than 1% THD. The resulting system is suitable for high voltage and high power applications. Experimental results is provided from a 220VA rectifier system.

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Drawing Sinusoidal Input Currents of Series-Connected Diode Rectifiers by A Current Injection Technique (직렬접속형 다이오드 정류기 시스템의 전류주입에 의한 고조파 저감)

  • O, Jun-Yong;Choe, Se-Wan;Kim, Yeong-Seok;Won, Chung-Yeon
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.48 no.11
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    • pp.640-645
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    • 1999
  • This paper proposes a new series-connected diode rectifier which draws sinusoidal input currents. The proposed rectifier system is configured by adding an auxiliary circuit to the conventional 12-pulse series-connected diode rectifier and employing a current injection technique. A low kVA($0.02P_{\circ}$(PU) ) active current source injects a triangular current into the interphase reactor of the diode rectifier. The current injection results in near sinusoidal input current from the utility with less than 1% THD. The resulting system is suitable for high voltage and high power applications. Experimental and simulation results are provided from a 220V, 3kVA prototype rectifier system.

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Improvement of Switching Converter's Input Wave Using VIENNA Rectifier (VIENNA 정류기를 이용한 스위칭 컨버터의 입력 파형 개선)

  • Jung, Hun-Sun;Choi, Jae-Ho;Chung, Gyo-Bum
    • Proceedings of the KIEE Conference
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    • 2007.04c
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    • pp.201-204
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    • 2007
  • This paper proposes a improvement of switching converter's input wave form using VIENNA Rectifier(three-phase three-switch three-level PWM Rectifier). VIENNA Rectifier is based on the combination of a three-phase diode bridge and dc/dc boost converter. It can be available to get sinusoidal mains current, and low-blocking voltage stress on rower transistors. In addition, it can control output voltage.

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Topology of Single-Phase PFC Rectifier Circuit with Sinusoidal of Input Current (입력전류의 정현화에 의한 단상PFC정류회로의 토폴로지)

  • Lee, S.H.;Kim, Y.M.;Kwon, S.K.;Suh, K.Y.
    • Proceedings of the KIEE Conference
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    • 2002.11c
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    • pp.290-293
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    • 2002
  • For small capacity rectifier circuits such as these for consumer electronics and appliances, capacitor input type rectifier circuits are generally used. Consequently, various harmonics generated within the power system become a serious problem. Various studies of this effect have been presented previously. However, most of these employ switching devices, such as FETs and the like. The absence of switching devices makes systems more tolerant to over-load, and brings low radio noise benefits. We propose a power factor connection scheme using a LC resonant in commercial frequency without switching devices. In this method, It makes a sinusoidal wave by widening conduction period using the current resonance in commercial frequency, Hence, the harmonic characteristics can be significantly improved, where the lower order harmonics, such as the fifth and seventh orders are much reduced. The result are confirmed by the theoretical and experimental implementations.

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A New Active Interphase Reactor with Sinusoidal Input Current in the Static Power Converter System (정전력 변환시스템에서 정현파 입력전류를 얻기위한 전류주입형 인터페이스 리액터)

  • Choi, Se-Wan;Lee, Hong-Hee;Kim, Sang-Uk
    • Proceedings of the KIEE Conference
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    • 1996.07a
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    • pp.372-375
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    • 1996
  • In this paper, a new active interphase reactor for twelve-pulse diode rectifiers is proposed. The proposed system draws near sinusoidal currents from the utility. In this scheme, a low kVA(0.02 $P_o$ (PU)) active current source injects a triangular current into an interphase reactor of a twelve-pulse diode rectifier. The modification results in near sinusoidal input current with less than 1% THD. Experimental results are provided from a 208V, 10kVA rectifier system.

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A New High Power Factor Correction Diode Rectifier System (새로운 능동형 고역률 다이오드 정류기시스템)

  • 김현정;최세완;원충연;김규식
    • The Transactions of the Korean Institute of Power Electronics
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    • v.8 no.6
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    • pp.543-550
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    • 2003
  • Thin paper proposes a new three-phase rectifier that actively shapes the input current sinusoidal by means of two rectifier bridges, each followed by a dc-dc boost converter. The proposed approach draws sinusoidal input current at unity power factor and has output voltage regulation capability The size and weight of magnetic material Is reduced by Incorporating a low KVA three-phase autotransformer and by directly connecting the dc outputs each other without using low frequency interphase transformer(IPT). The operation principle is described along with simple control method, and experimental results on a 1.5KW prototype are provided.

Current Control for an AFE Rectifier Using Space Vector PWM (공간벡터변조방식에 의한 AFE정류기의 전류제어)

  • Jeon, Cheol-Hwan;Hur, Jae-Jung;Yoon, Kyoung-Kuk;Yoo, Heui-Han;Kim, Sung-Hwan
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.25 no.4
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    • pp.498-503
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    • 2019
  • Electric propulsion ships are gaining widespread interest in the marine industry owing to extreme air pollution concerns. Consequently, several studies are actively being conducted for improving the power quality. Various methods have been developed that incorporate passive filters, notch filters, and active filters for reducing the harmonic content in the input current of a conventional diode front end rectifier. Among such filters, the active front end (AFE) rectifier is considered as an excellent technology. In this paper, current control for an AFE rectifier employing space vector PWM (Pulse Width Modulation) is proposed. Conventional current control methods for the AFE rectifier, hysteresis, SPWM (Sinusoidal Pulse Width Modulation), and SVPWM (Space Vector Pulse Width Modulation) were simulated by employing the PSIM software tool for analysis and comparisons. The results corroborate that SVPWM has the simplest structure and provides the best performance.

A Wide Input Range Active Multi-pulse Rectifier For Utility Interface Of Power Electronic Converters

  • Hahn Jaehong;Enjeti Prasad N.;Park In-Gyu
    • Proceedings of the KIPE Conference
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    • 2001.10a
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    • pp.512-517
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    • 2001
  • In this paper, a wide input range active multi-pulse rectifier for utility interface of power electronic converters is proposed. The scheme combines multi-pulse method using a V-A transformer and boost rectifier modules. A current control scheme for the rectifier modules is proposed to achieve sinusoidal line currents in the utility input over a wide input range of input voltage and output load conditions. A design example is included for a 208V to 460V input, $700V_{dc}$ do 10kW output rectifier system. Simulation results are shown.

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