• Title/Summary/Keyword: zero-current switching (ZCS)

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Series Load Resonant High Frequency Inverter with ZCS-PDM Control Scheme for Induction-Heated Fusing Roller

  • Sugimura, Hisayuki;Kwen, Soon-Kurl;Koh, Kang-Hoon;Lee, Hyun-Woo;Nakaoka, Mutsuo
    • Proceedings of the Korean Institute of IIIuminating and Electrical Installation Engineers Conference
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    • 2005.11a
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    • pp.415-420
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    • 2005
  • This paper presents the two lossless auxiliary inductors-assisted voltage source type half bridge (single ended push pull: SEPP) series resonant high frequency inverter for induction heated king roller in copy and printing machines. The simple high-frequency inverter treated here can completely achieve stable zero current soft switching (ZCS) commutation for wide its output power regulation ranges and load variations under its constant high frequency pulse density modulation (PDM) scheme. Its transient and steady state operating principle is originally described and discussed for a constant high-frequency PDM control strategy under a stable ZCS operation commutation, together with its output effective power regulation characteristics-based on the high frequency PDM strategy. The experimental operating performances of this voltage source SEPP ZCS-PDM series resonant high frequency inverter using IGBTs are illustrated as compared with computer simulation results and experimental ones. Its power losses analysis and actual efficiency are evaluated and discussed on the basis of simulation and experimental results. The feasible effectiveness of this high frequency inverter appliance implemented here is proved from the practical point of view.

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Phase-Shift Triple Full-Bridge ZVZCS Converter with All Soft Switched Devices

  • Zhu, Junjie;Qian, Qinsong;Lu, Shengli;Sun, Weifeng
    • Journal of Power Electronics
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    • v.19 no.6
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    • pp.1337-1350
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    • 2019
  • This paper proposes a Phase-Shift Triple Full-Bridge (PSTB) Zero-Voltage Zero-Current-Switching (ZVZCS) converter with a high switching frequency and high efficiency. In the proposed converter, all three bridge legs are shared leading-legs, and all three transformers work in the Discontinuous Conduction Mode (DCM). Thus, all of the switches and diodes in the PSTB ZVZCS can be soft switched. Moreover, since all of the transformers can pass energy from the primary-side to the secondary-side when their primary-side currents are not zero, there is no circulating current. As a result, the PSTB ZVZCS converter can achieve a high efficiency at high operating frequencies. A theoretical analysis and the characteristics of the proposed converter are presented and verified on a 1MHz 200~300V/24V 1.2kW hardware prototype. The proposed converter can reach a peak efficiency of 96.6%.

A study on the CICDR-TL(Coupled Inductor Current Doubler Rectifier-Three Level) DC/DC Converter with Phase Shift Control (위상이동 방식을 적용한 CICDR-TL(Coupled Inductor Current Doubler Rectifier-Three Level) DC/DC 컨버터에 관한 연구)

  • Lee, Dong-Hyun;Kim, Yong;Bae, Jin-Yong;Kim, Pill-Soo
    • Proceedings of the KIEE Conference
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    • 2004.04a
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    • pp.159-162
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    • 2004
  • The paper proposes the coupled inductor rectifier of Three Level DC/DC converter CICDR-TL(Coupled Inductor Current Doubler Rectifier-Three Level) achieves Zero Voltage Switching (ZVS) for the switches in a wide load range and Zero Current Switching (ZCS) in a light load range. Advantages and disadvantages of this topology compared to the conventional Center Tapped TL Converter are discussed. Experimental evaluation results obtained on a 27V 60A DC/DC converter prototype for the 1.8kW 40kHz IGBT based experimental circuit.

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Novel Zero-Voltage and Zero-Current-Switching (ZVZCS) Full Bridge PWM Converter with a Low Output Current Ripple (낮은 인덕터 맥동전류를 가지는 새로운 영전압 영전류 스위칭 풀 브릿지 DC/DC 컨버터)

  • Baek, J.W.;Cho, J.G.;Yoo, D.W.;Song, D.I.;Rim, G.H.
    • Proceedings of the KIEE Conference
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    • 1997.07f
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    • pp.2204-2206
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    • 1997
  • A novel zero voltage and zero current switching (ZVZCS) full bridge (FB) PWM converter with a low output current ripple is proposed. The proposed circuit improve the demerits of the previously presented ZVBCS-FB-PWM converters[5-8] such as use of lossy components or additional active switches. A simple auxiliary circuit which includes neither lossy components nor active switches provides ZVZCS conditions to primary switches, ZVS for leading-leg switches and ZCS for lagging-leg switches. In addition, this proposed circuit reduces a output current ripple considerably. Many advantages including simple circuit topology, high efficiency, low cost and low current ripple make the new converter attractive far high power (> 1kW) applications.

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Analysis of three-phase current type PWM converter using resonant DC Link snubber (공진 DC 링크 스너버를 이용한 3상 전류형 PWM 컨버터의 해석)

  • Kim, Young-Mun;Kang, Wook-Jung;Mun, Sang-Pil
    • The Transactions of the Korean Institute of Electrical Engineers P
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    • v.52 no.2
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    • pp.49-55
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    • 2003
  • This paper presents a novel three-phase current-fed Pulse Width Modulation converter with switched capacitor type resonant DC link commutation circuit operating PWM pattern strategy under a design consideration of low-pass filter, which can operate on the basis of the principle of zero current soft switching commutation. In the first place, the steady state operating principle of this converter with a new resonant DC link snubber circuit is described in connection with the equivalent operation circuit, together with the practical design procedure of the switched-capacitor type resonant DC link circuit is discussed from a theoretical viewpoint on the basis of a design example for high-power applications. The actively delayed time correction method to compensate distorted currents due to a relatively long resonant commutation time is newly implemented in the open loop control scheme so as to acquire the new optimum PWM pattern. Finally, the experiment of set-up in laboratory system of this converter is concretely demonstrated herein to confirm a zero current soft-switching commutation of this converter. The comparative evaluations between current-fed hard switching PWM and soft-switching PWM converters are carried out from a viewpoint of their PWM converter characteristics.

Medium Voltage Resonant Converter with Balanced Input Capacitor Voltages and Output Diode Currents

  • Lin, Bor-Ren;Du, Yan-Kang
    • Journal of Power Electronics
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    • v.15 no.2
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    • pp.389-398
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    • 2015
  • This paper presents a 1.92 kW resonant converter for medium voltage applications that uses low voltage stress MOSFETs (500V) to achieve zero voltage switching (ZVS) turn-on. In the proposed converter, four MOSFETs are connected in series to limit the voltage stress of the power switches at half of the input voltage. In addition, three resonant circuits are adopted to share the load current and to reduce the current stress of the passive components. Furthermore, the transformer primary and secondary windings are connected in series to balance the output diode currents for medium power applications. Split capacitors are adopted in each resonant circuit to reduce the current stress of the resonant capacitors. Two balance capacitors are also used to automatically balance the input capacitor voltage in every switching cycle. Based on the circuit characteristics of the resonant converter, the MOSFETs are turned on under ZVS. If the switching frequency is less than the series resonant frequency, the rectifier diodes can be turned off under zero current switching (ZCS). Experimental results from a prototype with a 750-800 V input and a 48V/40A output are provided to verify the theoretical analysis and the effectiveness of the proposed converter.

Characteristic Analysis of SEPP Type D-Class High Frequency Resonant Inverter using ZVS (ZVS를 이용한 SEPP형 D급 고주파 공진 인버터의 특성해석)

  • 김종해;민병재;노채균;김동희;원재선
    • Proceedings of the KIPE Conference
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    • 1997.07a
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    • pp.116-123
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    • 1997
  • This paper was described about principle and form of proposed circuit made use of soft switching technology ZVS(Zero Voltages Switching) and ZCS(Zero Current Switching) to reduce turn on and off loss at switching. Also, the analysis of the proposed circuit is described generally by using normalized parameter and basic operating principle and driving characteristics have been evaluated as to switching frequency and load p arameter. Based on the characteristics value, a method of circuit design is proposed. In addition, Pspice's simulation and experimental waveforms are compared with theoretical ones. The experimental results shows that the proposed Inverter can be used practically such as power source system for induction cooker etc.

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Soft Switching DC-DC Converter for AC Module Type PV Module Integrated Converter (AC 모듈형 태양광 모듈 집적형 컨버터를 위한 소프트 스위칭 DC-DC 컨버터)

  • Youn, Sun-Jae;Kim, Young-Ho;Jung, Yong-Chae;Won, Chung-Yuen
    • The Transactions of the Korean Institute of Power Electronics
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    • v.18 no.3
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    • pp.247-255
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    • 2013
  • In this paper, a soft switching DC-DC converter for AC module type photovoltaic (PV) module integrated converter is proposed. A push-pull converter is suitable for a low voltage PV AC module system because the step-up ratio of a high frequency transformer is high and the number of primary side switches is relatively small. However, the conventional push-pull converters do not have high efficiency because of high switching losses by hard switching and transformer losses (copper and iron losses) by high turns-ratio of the transformer. In the proposed converter, primary side switches are turned on at zero voltage switching (ZCS) condition and turned off at zero current switching (ZVS) condition through parallel resonance between secondary leakage inductance of the transformer and a resonant capacitor. Therefore the proposed push-pull converter decreases the switching loss using soft switching of the primary switches. Also, the turns-ratio of the transformer can be reduced by half using a voltage-doubler of secondary side. The theoretical analysis of the proposed converter is verified by simulation and experimental results.

ZVT Series Capacitor Interleaved Buck Converter with High Step-Down Conversion Ratio

  • Chen, Zhangyong;Chen, Yong;Jiang, Wei;Yan, Tiesheng
    • Journal of Power Electronics
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    • v.19 no.4
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    • pp.846-857
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    • 2019
  • Voltage step-down converters are very popular in distributed power systems, voltage regular modules, electric vehicles, etc. However, a high step-down voltage ratio is required in many applications to prevent the traditional buck converter from operating at extreme duty cycles. In this paper, a series capacitor interleaved buck converter with a soft switching technique is proposed. The DC voltage ratio of the proposed converter is half that of the traditional buck converter and the voltage stress across the one main switch and the diodes is reduced. Moreover, by paralleling the series connected auxiliary switch and the auxiliary inductor with the main inductor, zero voltage transition (ZVT) of the main switches can be obtained without increasing the voltage or current stress of the main power switches. In addition, zero current turned-on and zero current switching (ZCS) of the auxiliary switches can be achieved. Furthermore, owing to the presence of the auxiliary inductor, the turned-off rate of the output diodes can be limited and the reverse-recovery switching losses of the diodes can be reduced. Thus, the efficiency of the proposed converter can be improved. The DC voltage gain ratio, soft switching conditions and a design guideline for the critical parameters are given in this paper. A loss analysis of the proposed converter is shown to demonstrate its advantages over traditional converter topologies. Finally, experimental results obtained from a 100V/10V prototype are presented to verify the analysis of the proposed converter.

The Design of an Electronic Ballast by Single Switching Type (단일 스위칭 방식의 전자식 안정기 설계)

  • 노재엽;김순기;이준호;이진우
    • Proceedings of the Korean Institute of IIIuminating and Electrical Installation Engineers Conference
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    • 2002.11a
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    • pp.271-274
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    • 2002
  • 본 논문에서는 Class E zero-current-switching (ZCS) 인버터를 이용하여 단일 스위치로서 램프를 점등하는 타여자 방식의 전자식 안정기를 제안하였다. 이론을 통해 각 파라미터를 계산하고, PSpice 시뮬레이션을 통하여 안정상태의 램프출력을 예측하였다. 또한, MOSFET의 전압 스트레스를 고려한 스너버 회로를 구성하여 스위칭 서지전압의 발생을 억제하였으며, 실제 전자식 안정기를 제작하여 전기적 특성을 살펴보았다.

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