• Title/Summary/Keyword: PFC AC-DC converter

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A Study on PFC AC-DC Converter of High Efficiency added in Electric Isolation (절연형 고효율 PFC AC-DC 컨버터에 관한 연구)

  • Kwak, Dong-Kurl;Kim, Sang-Roan
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.58 no.7
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    • pp.1349-1355
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    • 2009
  • This paper is studied on a novel power factor correction (PFC) AC-DC converter of high efficiency by soft switching technique. The input current waveform in the proposed converter is got to be a sinusoidal form composed of many a discontinuous pulse in proportion to the magnitude of a ac input voltage under the constant switching frequency. Therefore, the input power factor is nearly unity and the control method is simple. The proposed converter adding an electric isolation operates with a discontinuous current mode (DCM) of the reactor in order to obtain some merits of simpler control, such as fixed switching frequency, without synchronization control circuit used in continuous current mode (CCM). To achieve the soft switching (ZCS or ZVS) of control devices, the converter is constructed with a new loss-less snubber for a partial resonant circuit. It is that the switching losses are very low and the efficiency of the converter is high, Particularly, the stored energy in a loss-less snubber capacitor recovers into input side and increases input current from a resonant operation. The result is that the input power factor of the proposed converter is higher than that of a conventional PFC converter. This paper deals mainly with the circuit operations, theoretical, simulated and experimental results of the proposed PFC AC-DC converter in comparison with a conventional PFC AC-DC converter.

A Study on Soft Switching of Single-Stage PFC AC/DC Full Bridge Converter (Single-Stage PFC AC/DC Full Bridge Converter의 소프트 스위칭에 관한 연구)

  • 임경내;성병기;계문호;권순재;김철우
    • Proceedings of the KIPE Conference
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    • 1998.07a
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    • pp.401-404
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    • 1998
  • This paper proposes a new soft switching single stage AC/DC full bridge converter with unit power factor and isolated output. This circuit shows that it is possible to combine the boost converter which is for PFC(Power Factor Correction) and full bridge converter which is for DC/DC converter. A simple auxiliary circuit which includes neither lossy components nor active switches eliminates ringing of secondary side of the transformer. The characteristics of the proposed circuit are investigated and the validity is verified by the simulation results.

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Single Phase Single-Stage AC/DC Forword PFC Converter with PFC (단상 역율개선형 Single-stage AC/DC Forward Converter)

  • 김은수
    • Proceedings of the KIPE Conference
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    • 2000.07a
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    • pp.396-399
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    • 2000
  • 기존이 역률보상회로가 별도의 전력변화단을 가지고 있어 소자수가 많아지고 복잡한 하드웨어 구성을 가지고 있는 단점이 있다 본 논문에서는 별 도의 전력변환단을 가지지않고 PFC기능을 가지는 단일 전력단(Single-Stage) 단상 AC/DC Forward Converter에 대하여 실험하여 검증하였다

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Improved AC/DC PFC ZVT Boost Converter (개선된 AC/DC PFC ZVT Boost 컨버터)

  • Ryu, Jong-Gyu;Kim, Yong;Bae, Jin-Yong;Lee, Eun-Young;Cho, Kyu-Man
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.19 no.8
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    • pp.62-69
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    • 2005
  • This paper presents the improved AC/DC PFC(Power-Factor-Correction) ZVT(Zero-Voltage-Transition) Boost Converter. The conventional AC/DC PFC ZVT Boost Converter minimizes the switching loss of the main switch within all of the load range. That is because AC/DC PFC ZVT Boost converter makes the main switch and the auxiliary switch turn on simultaneously so that it makes ZVS (Zero-Voltage-Switching) possible at the light load. However, it has two problems that ale large loss of the auxiliary switch and the increasing of the reverse current of the main switch. Therefore this research presents high efficiency to reduce the current stress of the auxiliary switch and the reverse current of main switch by adding a diode to the conventional ZVT converter. The prototype of 640[W], 100[kHz] system using MOSFET is implemented for this experimental verification.

Improved ZVT AC/DC PFC Boost Converter (개선된 ZVT AC/DC PFC Boost 컨버터)

  • Ryu, Jong-Gyu;Kim, Yong;Bae, Jin-Yong;Gye, Sang-Bum;Kwon, Soon-Do
    • Proceedings of the KIEE Conference
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    • 2005.04a
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    • pp.172-175
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    • 2005
  • Recently international regulations governing the amount of harmonic currents(e.g IEC 61000-3-2) became mandatory and active Power factor correction (PFC) pre-regulator circuit became inevitable for the AC/DC converters. Among these topologies, the boost topology represents an optimum solution for a PFC pre-regulation in a high power application. This paper propose improved ZVT(Zero Voltage Transition) AC/DC PFC Boost using the average current control employing a soft-switching technique of the auxiliary switch with a minimum number of components. The conventional ZVT PFC Boost Converter has a disadvantage that the auxiliary switch turns off hard, which influences the overall efficiency and the EMI problem. In this paper, an improved ZVT PFC Boost converter using active snubber is proposed to minimize the switching loss of the auxiliary. The prototype of 100kHz, 640W system was implemented to show the improved performance.

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$S^4$-PFC AC/DC Converter To Reduce DC Bus Stress With Coupling Inductor ($S^4$-PFC에서 커플링 인덕터를 이용하여 DC 버스 스트레스를 저감시킨 AC/DC 컨버터)

  • Lee, Jang-Hyun;Kim, Tai-Woong;Lee, Sung-Palk
    • Proceedings of the KIEE Conference
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    • 1999.07f
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    • pp.2515-2517
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    • 1999
  • In this paper we analysis DC bus voltage stress at high line voltage and light load in $S^4$-PFC Isolated AC/DC converter with DC bus voltage feedback using coupling in transformer. In this converter, the principle of operation and the practical problems in the design are considered. Simulation and experimental results are presented to verify the operation and performance of the $S^4$-PFC converter with DC bus voltage feedback. Experimental sets are performed in the conditions; switching frequency 100 kHz, output of 5 V, 60W, and universal line input voltage.

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A New Single-Stage PFC AC/DC Converter with Low Link-Capacitor Voltage

  • Lee, Byoung-Hee;Kim, Chong-Eun;Park, Ki-Bum;Moon, Gun-Woo
    • Journal of Power Electronics
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    • v.7 no.4
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    • pp.328-335
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    • 2007
  • A conventional Single-Stage Power-Factor-Correction (PFC) AC/DC converter has a link capacitor voltage problem under high line input and low load conditions. In this paper, this problem is analyzed by using the voltage conversion ratio of the DC/DC conversion cell. By applying this analysis, a new Single-Stage PFC AC/DC converter with a boost PFC cell integrated with a Voltage-Doubler Rectified Asymmetrical Half-Bridge (VDRAHB) is proposed. The proposed converter features good power factor correction, low current harmonic distortions, tight output regulations and low voltage of the link capacitor. An 85W prototype was implemented to show that it meets harmonic requirements and standards satisfactorily with near unity power factor and high efficiency over universal input.

A Study on PFC Buck-Boost AC-DC Converter of Soft Switching (소프트 스위칭형 PFC 벅-부스트 AC-DC 컨버터에 관한 연구)

  • Kwak, Dong-Kurl
    • The Transactions of the Korean Institute of Power Electronics
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    • v.12 no.6
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    • pp.465-471
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    • 2007
  • The system efficiency of the proposed Buck-Boost AC-DC converter is increased by soft switching method. The converter includes to merit of power factor correction (PFC) from sinusoidal control of input current. The switching behavior of control switches operates with soft switching by partial resonance, and then the proposed converter has high system efficiency with decrement of switching power loss. The input current waveform in proposed converter is got to be a sinusoidal form of discontinuous quasi-pulse row in proportion to magnitude of AC input voltage under the constant duty cycle switching. Therefore, the input power factor is nearly unity. The output voltage of the converter is regulated by PWM control technique. The discontinuous mode action of current flowing into inductor makes to simplify control method and control components. The proposed PFC Buck-Boost converter is analyzed to compare with the conventional PFC Buck-Boost converter. Some computer simulative results and experimental results confirm to the validity of the analytical results.

New Single Stage PFC Full Bridge AC/DC Converter (새로운 방식의 PFC Single Stage Full Bridge AC/DC Converter)

  • 임창섭;권순걸
    • Journal of the Institute of Convergence Signal Processing
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    • v.3 no.3
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    • pp.70-75
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    • 2002
  • This paper proposes new single stage power factor correction (PFC) full bridge converter. The proposed converter is combined previous ZVS full bridge DC/DC converter with two inductors, two diodes, two magnetic coupling transformer for PFC. This process of power is isolated from the source and also regulate stable DC output voltage in a category. In this topology, the voltage stress of main switches is reduced by zero voltage switching. Moreover, the proposed converter doesn't need active PFC switch and auxiliarly circuits, like control and gating board, so it could decrease the size and cost and increase the efficiency.

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High Power Factor High Efficiency PFC AC/DC Converter for LCD Monitor Adapter (LCD 모니터의 어댑터를 위한 고역률 고효율 PFC AC/DC 컨버터)

  • Park K. H.;Kim C. E.;Youn M. J.;Moon G. W.
    • Proceedings of the KIPE Conference
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    • 2003.11a
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    • pp.85-89
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    • 2003
  • Many single-stage PFC(power-facto.-correction) ACHC converters suffer from the high link voltage at high input voltage and light load condition. In this paper, to suppress the link voltage, a novel high power factor high efficiency PFC AC/DC converter is proposed using the single controller which generates two gate signals so that one of them is used far gate signal of the flyback DC/DC converter switch and the other is applied to the Boost PFC stage. A 130w prototype for LCD monitor adapter with universal input $(90-265V_{rms})$ and 19.5V 6.7A output is implemented to verify the operational principles and performances. The experimental results show that the maximum link voltage stress is about 450V at 270Vac input voltage. Moreover, efficiency and power factor are over $84\%$ and 0.95, respectively, under the full load condition.

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