• Title/Summary/Keyword: Resonant converters

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A Generalization of High Frequency Converter with Lossless Snubber Cell (무손실 스너버 셀을 갖는 고주파 컨버터의 일반화)

  • Joung Gyu-Bum
    • The Transactions of the Korean Institute of Power Electronics
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    • v.9 no.5
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    • pp.478-484
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    • 2004
  • In this paper, two lossless snubber cells are proposed to generalize high frequency converter with losslless snubber. The selecting of snubber cells, which generalize high frequency converters, are depended on converter topologies. The cells have a saturable inductor, LC resonant tank and two diodes. In the cells, the saturable inductors extremely reduce resonant energy in the LC resonant tank. By minimizing resonant energy, the converter, which applies snubber cells, can operate at high frequency. These cells are applied for Buck, Boost, Buck-Boost, Cuk, ZETA, and SEPIC to generalize converter which have lossless snubber. The boost type converter has been implemented, with 400 kHz switching frequency for 125 W load to verify the converter characteristics.

A Novel SLLC Series Resonant Converter for The Boost DC/DC Converter (SLLC 직렬공진컨버터 적용 승압형 DC/DC 컨버터)

  • Kim, Eun-Soo;Kang, Sung-In;Chung, Bong-Geun;Cha, In-Su;Yoon, Jeong-Phil
    • The Transactions of the Korean Institute of Power Electronics
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    • v.12 no.1
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    • pp.56-64
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    • 2007
  • Recently, the high frequency link boost DC/DC converter has been used widely for PCS (Power Conditioning System) because of the requirements of small size and low cost. However, the high frequency link boost DC/DC converters applied the conventional voltage-fed converter and current-fed converter have some problems like high conduction losses and high surge voltage due to high circulating current and leakage inductance, respectively. To improve these problems, a novel secondary LLC (called SLLC) series resonant converter is proposed in this paper and its theoretical analysis, its operating waveforms, simulation and experimental results for a boost DC/DC converter using SLLC series resonant topology verifies the proposed topology. 800W experimental prototype is tested.

A Study on Full Bridge and Half Bridge Mode Transition Method of LLC Resonant Converter for Wide Input and Output Voltage Condition (넓은 입출력 전압을 위한 LLC 공진형 컨버터의 풀 브리지-하프 브리지 모드 변환 기법 연구)

  • Choe, Min-Yeong;Baek, Seung-Woo;Kim, Hag-Wone;Cho, Kwan-Yuhl;Kang, Jeong-Won
    • The Transactions of the Korean Institute of Power Electronics
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    • v.27 no.4
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    • pp.356-366
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    • 2022
  • This paper presents a mode transition method that applies frequency compensation technique of an LLC resonant converter for stable mode transition. LLC resonant converters used in various applications require high efficiency and high power density. However, because of circuit property, a wider voltage gain range equates to a greater circuit loss, so maintaining high efficiency at all voltage gain ranges is difficult. In this case, full bridge-half bridge mode transition method can be used, which maintains high efficiency even in a wide voltage gain range. However, this method causes damage to the circuit through overcurrent by the mode transition. This study analyzes the cause of the problem and proposes a mode transition method that applies frequency compensation technique to solve the problem. The proposed method verifies the stable transition through simulation analysis and experimental results.

A Medium-Voltage Matrix Converter Topology for Wind Power Conversion with Medium Frequency Transformers

  • Gu, Chunyang;Krishnamoorthy, Harish S.;Enjeti, Prasad N.;Zheng, Zedong;Li, Yongdong
    • Journal of Power Electronics
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    • v.14 no.6
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    • pp.1166-1177
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    • 2014
  • A new type of topology with medium-frequency-transformer (MFT) isolation for medium voltage wind power generation systems is proposed in this paper. This type of converter is a high density power conversion system, with high performance features suitable for next generation wind power systems in either on-shore or off-shore applications. The proposed topology employs single-phase cascaded multi-level AC-AC converters on the grid side and three phase matrix converters on the generator side, which are interfaced by medium frequency transformers. This avoids DC-Link electrolytic capacitors and/or resonant L-C components in the power flow path thereby improving the power density and system reliability. Several configurations are given to fit different applications. The modulation and control strategy has been detailed. As two important part of the whole system, a novel single phase AC-AC converter topology with its reliable six-step switching technique and a novel symmetrical 11-segment modulation strategy for two stage matrix converter (TSMC) is proposed at the special situation of medium frequency chopping. The validity of the proposed concept has been verified by simulation results and experiment waveforms from a scaled down laboratory prototype.

Modeling, Analysis, and Enhanced Control of Modular Multilevel Converters with Asymmetric Arm Impedance for HVDC Applications

  • Dong, Peng;Lyu, Jing;Cai, Xu
    • Journal of Power Electronics
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    • v.18 no.6
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    • pp.1683-1696
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    • 2018
  • Under the conventional control strategy, the asymmetry of arm impedances may result in the poor operating performance of modular multilevel converters (MMCs). For example, fundamental frequency oscillation and double frequency components may occur in the dc and ac sides, respectively; and submodule (SM) capacitor voltages among the arms may not be balanced. This study presents an enhanced control strategy to deal with these problems. A mathematical model of an MMC with asymmetric arm impedance is first established. The causes for the above phenomena are analyzed on the basis of the model. Subsequently, an enhanced current control with five integrated proportional integral resonant regulators is designed to protect the ac and dc terminal behavior of converters from asymmetric arm impedances. Furthermore, an enhanced capacitor voltage control is designed to balance the capacitor voltage among the arms with high efficiency and to decouple the ac side control, dc side control, and capacitor voltage balance control among the arms. The accuracy of the theoretical analysis and the effectiveness of the proposed enhanced control strategy are verified through simulation and experimental results.

Active Damping of LLCL Filters Using PR Control for Grid-Connected Three-Level T-Type Converters

  • Alemi, Payam;Jeong, Seon-Yeong;Lee, Dong-Choon
    • Journal of Power Electronics
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    • v.15 no.3
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    • pp.786-795
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    • 2015
  • In this paper, an active damping control scheme for LLCL filters based on the PR (proportional-resonant) regulator is proposed for grid-connected three-level T-type PWM converter systems. The PR controller gives an infinite gain at the resonance frequency. As a result, the oscillation can be suppressed at that frequency. In order to improve the stability of the system in the case of grid impedance variations, online grid impedance estimation is applied. Simulation and experimental results have verified the effectiveness of the proposed scheme for three-phase T-type AC/DC PWM converters.

DC-Link Active Power Filter for High-Power Single-Phase PWM Converters

  • Li, Hongbo;Zhang, Kai;Zhao, Hui
    • Journal of Power Electronics
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    • v.12 no.3
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    • pp.458-467
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    • 2012
  • Single phase converters suffer from ripple power pulsating at twice the line frequency. The ripple power is usually absorbed by a bulky capacitor bank and/or a dedicative LC resonant link, resulting in a low power density and a high cost. An alternative solution is using a dc link active power filter (APF) to direct the pulsating power into another energy-storage component. The main dc link filter capacitor can then be reduced substantially. Based on a mainstream dc APF topology, this paper proposed a new control strategy incorporating both dual-loop control and repetitive control. The circuit parameter design is also re-examined from a control point of view. The proposed APF scheme has better control performance, and is more suited for high power applications since it works in CCM and with a low switching frequency.

A Study of the PI Controller and the PR Controller for Parallel Operation of Single-Phase AC/DC Converters (단상 AC/DC 컨버터의 병렬운전을 위한 비례 적분 제어기와 비례 공진 제어기에 관한 연구)

  • Kim, Jung-Min;Choi, Seong-Chon;Kim, Bum-Jun;Cho, Jin-Ho;Won, Chung-Yuen
    • Proceedings of the KIPE Conference
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    • 2016.11a
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    • pp.61-62
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    • 2016
  • It is the general trend that AC/DC power system topologies with various sources and loads. To control the AC/DC power system, different kind of control system are needed. This paper discusses the parallel operation of single-phase AC/DC converters using a proportional integral (PI) controller and a proportional resonant (PR) controller. The performance of PI and PR controller have been evaluated by simulation.

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Unity Power Factor Control of Sensorless Switched Reluctance Motor

  • Jeyakumar, A. Ebenezer;Shanmuganandan, K.J.
    • 제어로봇시스템학회:학술대회논문집
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    • 2004.08a
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    • pp.1147-1152
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    • 2004
  • Switched Reluctance Motors have an inexpensive, intrinsic simplicity and low cost that makes them well suited to home appliance and office applications. However the motor suffering with necessity of shaft position sensor, lead to non-linearity of operations. Further, the involvement of static converters deteriorates the operational power factor. Implementation of a sensorless algorithm, can remove the need of position sensors. Also, the drive includes a compact power factor control in the input stage by implementing Zero Current Switching Quasi-Resonant Boost Technology. This paper presented, aims at optimized low line current distortion, high power factor, low cost and a shaft position sensorless Switched Reluctance Motor drive.

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A Hybrid PWM-Resonant DC-DC Converter for Electric Vehicle Battery Charger Applications

  • Lee, Il-Oun
    • Journal of Power Electronics
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    • v.15 no.5
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    • pp.1158-1167
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    • 2015
  • In this paper, a new hybrid DC-DC converter is proposed for electric vehicle 3.3 kW on-board battery charger applications, which can be modulated in a phase-shift manner under a fixed frequency or frequency variation. By integrating a half-bridge (HB) LLC series resonant converter (SRC) into the conventional phase-shift full-bridge (PSFB) converter with a full-bridge rectifier, the proposed converter has many advantages such as a full soft-switching range without duty-cycle loss, zero-current-switching operation of the rectifier diodes, minimized circulating current, reduced filter inductor size, and better utilization of transformers than other hybrid dc-dc converters. The feasibility of the proposed converter has been verified by experimental results under an output voltage range of 250-420V dc at 3.3 kW.