• Title/Summary/Keyword: Power converter

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A Conduction Band Control AC-DC Buck Converter for a High Efficiency and High Power Density Adapter (고효율, 고전력밀도 아답터를 위한 도통밴드 제어 AC-DC 벅 컨버터)

  • Moon, SangCheol;Chung, Bonggeun;Koo, Gwanbon
    • Proceedings of the KIPE Conference
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    • 2017.07a
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    • pp.38-39
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    • 2017
  • This paper proposes a new control method for an AC-DC Buck converter which is utilized as a front-end converter of a 2-stage high power density adapter. In the conventional adapter applications, 2-stage configuration shows higher power transfer efficiency and higher power density than those of the single stage flyback converter. In the 2-stage AC-DC converter, the boost converter is widely used as a front-end converter. However, an efficiency variation between high AC line and low AC line is large. On the other hand, the proposed conduction band control method for a buck front-end converter has an advantage of small efficiency variation. In the proposed control method, switching operation is determined by a band control voltage which represents output load condition, and an AC line voltage. If the output load increasesin low AC line, the switching operation range is expanded in half of line cycle. On the contrary, in light load and high line condition, the switching operation is narrowed. Thus, the proposed control method reduces switching loss under high AC line and light load condition. A 60W prototype which is configured the buck and LLC converter with the proposed control method is experimented on to verify the validity of the proposed system. The prototype shows 92.16% of AC-DC overall efficiency and 20.19 W/in 3 of power density.

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Single Phase Utility Frequency AC-High Frequency AC Matrix Converter Using One-Chip Reverse Blocking IGBTs based Bidirectional Switches

  • Hisayuki, Sugimura;Kwon, Soon-Kurl;Lee, Hyun-Woo;Mutsuo, Nakaoka
    • Proceedings of the KIEE Conference
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    • 2006.10d
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    • pp.125-128
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    • 2006
  • This paper presents a novel type soft switching PWM power frequency AC-AC converter using bidirectional active switches or single phase utility frequency AC-high frequency AC matrix converter. This converter can directly convert utility frequency AC (UFAC, 50Hz/60Hz) power to high frequency AC (HFAC) power ranging more than 20kHz up to 100kHz. A novel soft switching PWM prototype of high frequency multi-resonant PWM controlled UFAC-HFAC matrix converter using antiparallel one-chip reverse blocking IGBTs manufactured by IXYS corp. is based on the soft switching resonance with asymmetrical duty cycle PWM strategy. This single phase UFAC-HFAC matrix converter has some remarkable features as electrolytic capacitor DC busline linkless topology, unity power factor correction and sine-wave line current shaping, simple configuration with minimum circuit components, high efficiency and downsizing. This series load resonant UFAC-HFAC matrix converter, incorporating bidirectional active power switches is developed and implemented for high efficiency consumer induction heated food cooking appliances in home uses and business-uses. Its operating performances as soft switching operating ranges and high frequency effective power regulation characteristics are illustrated and discussed on the basis of simulation and experimental results.

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Design and Implementation of 500 kHz High Frequency LLC Resonant Converter for High Power Density (높은 전력밀도를 갖는 500 kHz 고주파 LLC 컨버터의 설계와 구현)

  • Park, Hwa-Pyeong;Jung, Jee-Hoon
    • The Transactions of the Korean Institute of Power Electronics
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    • v.20 no.1
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    • pp.51-58
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    • 2015
  • In order to decrease the size of a switch mode power supply, high switching frequency can be an efficient way to reduce the size of passive components in the converter. In this paper, a 500-kHz high-frequency LLC resonant converter is proposed with an accurate design method of magnetizing inductance, as well as the relationship between the switching frequency and the size of the passive components. Simulation and experimental results are presented to verify the proposed methods and equations, including the temperature data of each passive and active device of the converter. Using those results, dominant power losses in the prototype converter under 500-kHz high-frequency operation are investigated, compared with the results from a 100-kHz converter. In addition, operating waveforms and power conversion efficiency will be shown to obtain design considerations for the high switching frequency LLC resonant converter.

Transient Response Improvement at Startup of Three Phase AC/DC Converter for DC Distribution System in Building Applications (빌딩용 직류배전 시스템의 3상 AC/DC 컨버터의 기동 시 과도상태 응답 개선)

  • Shin, Soo-Cheol;Lee, Hee-Jun;Lee, Jung-Hyo;Na, Jong-Kuk;Won, Chung-Yuen
    • The Transactions of the Korean Institute of Power Electronics
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    • v.18 no.2
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    • pp.138-144
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    • 2013
  • Most of the DC loads have had the sensitive characteristics electrically for input voltage. In this system, power converter is operated after connecting with DC loads to minimize the overshoot of the control voltage that may occur during connection of the loads. But whenever starting the power converter, parameters in circuit are different because power converter has been connected with diverse load types at each startup time. This is cause of a disadvantage to PI controller design of power converter. In this paper, the novel voltage control method using sliding mode control theory has proposed. This control method minimizes the overshoot of control voltage at startup of power converter. Despite the variations of the system parameters, the proposed voltage controller has fast response and robustness characteristics such as PI and sliding mode controllers. The proposed controller was applied to the three-phase AC/DC converter and each performance of controller was verified.

A 48V-400V Non-isolated Bidirectional Soft-switching DC-DC Converter for Residential ESS (PPS 제어기법을 적용한 48V-400V 비절연 양방향 DC-DC컨버터)

  • Jeong, Hyeon-Ju;Kwon, Min-Ho;Choi, Se-Wan
    • The Transactions of the Korean Institute of Power Electronics
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    • v.23 no.3
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    • pp.190-198
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    • 2018
  • This paper proposes a nonisolated, bidirectional, soft-switching DC - DC converter with PWM plus phase shift (PPS) control. The proposed converter has an input-parallel/output-series configuration and can achieve the interleaving effect and high voltage gains, resulting in decreased voltage ratings in all related devices. The proposed converter can operate under zero-voltage switching (ZVS) conditions for all switches in continuous conduction mode. The power flow of the proposed converter can be controlled by changing the phase shift angle, and the duty is controlled to balance the voltage of four high voltage side capacitors. The PPS control device of the proposed converter is simple in structure and presents symmetrical switching patterns under a bidirectional power flow. The PPS control also ensures ZVS during charging and discharging at all loads and equalizes the voltage ratings of the output capacitors and switches. To verify the validity of the proposed converter, an experimental investigation of a 2 kW prototype is performed in both charging and discharging modes under different load conditions and a bidirectional power flow.

Single-Stage High Power Factor Converter for 90-260Vrms Input (90-260Vrms 입력 범위를 갖는 단일 전력단 고역률 컨버터)

  • 김학원;문건우;조관열;윤명중
    • The Transactions of the Korean Institute of Power Electronics
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    • v.7 no.1
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    • pp.18-29
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    • 2002
  • Generally, the single-stage power factor corrected converter has a problem of high dc link voltage. In the case of high line voltage, especially, the dc link voltage is verb high under the light load condition. To solve this problem, a new single stage power factor corrected AC/DC converter has been proposed. The proposed converter has huck topology as a power factor corrector. To prove feasibility of the proposed converter, the design example of the proposed converter has been presented. The design considerations and experimental results for the proposed converter have been shown. The experimental results show that the line input current harmonics can meet IEC1000-3-2 Class D requirements for the range of line input voltage from 90Vrms to 260Vrms.

High Efficiency Active Clamp Forward Converter with Synchronous Switch Controlled ZVS Operation

  • Lee Sung-Sae;Choi Seong-Wook;Moon Gun-Woo
    • Journal of Power Electronics
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    • v.6 no.2
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    • pp.131-138
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    • 2006
  • An active clamp ZVS PWM forward converter using a secondary synchronous switch control is proposed in this paper. The proposed converter is suitable for low-voltage and high-current applications. The structure of the proposed converter is the same as a conventional active clamp forward converter. However, since it controls the secondary synchronous switch to build up the primary current during a very short period of time, the ZVS operation is easily achieved without any additional conduction losses of magnetizing current in the transformer and clamp circuit. Furthermore, there are no additional circuits required for the ZVS operation of power switches. Therefore, the proposed converter can achieve high efficiency with low EMI noise, resulting from soft switching without any additional conduction losses, and shows high power dens~ty, a result of high efficiency, and requires no additional components. The operational principle and design example are presented. Experimental results demonstrate that the proposed converter can achieve an excellent ZVS performance throughout all load conditions and demonstrates significant improvement in efficiency for the 100W (5V, 20A) prototype converter.

High Power Factor 3-Phase AC-DC Converter without LC Filter (LC필터가 없는 고역율 3상 AC-DC 컨버터)

  • Nam, Jing-Rak
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.11 no.10
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    • pp.1894-1898
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    • 2007
  • Conventional 3-phase AC-DC converter is frequently in the industrial world. In this paper, the high power factor 3-phase AC-DC converter which can reduce its weight and volume is proposed. The high power factor 3-phase AC-DC converter without LC filter can realize light weight and low-cost. In spite of elimination of LC filter, the performance of the high power 3-phase AC-DC converter is almost the same as conventional 3-phase AC-DC converter. Finally, this result can be expected to be applied to aviation and the space industry with high power density and high power factor.

Digital-controlled Single-phase Power-factor Correction Converter Operating in Critical Current Conduction Mode (임계전류도통모드로 동작하는 디지털제어 단상 역률개선 컨버터)

  • Jeong, Gang-Youl
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.11 no.7
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    • pp.2570-2578
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    • 2010
  • This paper presents a digital-controlled single-phase power-factor correction (PFC) converter operating in critical current conduction mode. The proposed converter utilizes the DC-DC boost converter topology for the PFC and operates the inductor current in critical conduction mode. Because the proposed converter is controlled digitally using a micom, its control circuit is simplified and the converter operates more effectively. This paper first explains the operational principles of the proposed converter and then analyzes the converter circuit. And this paper explains the implementation method of proposed converter with a detail design example, which is divided into software and circuit design parts. Also, it is shown through the experimental results of the prototype converter by the designed circuit parameters that the proposed converter has good performance as a single-phase PFC converter.

Design of low power TTL-to-CMOS converter (저전력형 TTL-to-CMOS 변환기의 설계)

  • 유창식;김원찬
    • Journal of the Korean Institute of Telematics and Electronics A
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    • v.31A no.6
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    • pp.128-133
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    • 1994
  • This paper proposes a new TTL-to-CMOS converter which has low power dissipation. This converter has no static power dissipation for typical TTL output voltage levels. The simulatio result shows that the power dissipation is reduced to about 1/20 of conventional level converter using CMOS inverters. It also has hysteresis due to the positive feedback which makes the converter noise immune. The logic threshold voltages in the hysteresis characteristic can be optimized by changing the size ratios of the transistors.

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