• Title/Summary/Keyword: Multiple output converter

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A New Multiple-Output Switched-Capacitor Based DC/DC Converter (Switched-Capacitor회로를 이용한 새로운 다출력 DC-DC 컨버터)

  • 여주용;최병조;김흥근;안태영
    • Proceedings of the KIPE Conference
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    • 1999.07a
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    • pp.631-634
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    • 1999
  • A new multiple-output dc-to-dc converter based on a switched capacitor circuit is proposed. The proposed converter offers multiple outputs that can be individually regulated by a direct output voltage feedback or indirect cross regulations. The performance of the new converter is demonstrated using a 10W experimental converter that delivers 5V/1A output and 3.3V/1A output from a 10∼15V input source.

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Novel Multiple Output Converter using Quasi Load

  • Choi, Kyu-Sik;Hyun, Byeong-Chul;Lee, Seoung-Woon;Cho, Bo-Hyung
    • Proceedings of the KIPE Conference
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    • 2010.07a
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    • pp.125-126
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    • 2010
  • In this paper, a novel multiple output converter using quasi load is proposed. Conventional multiple output converters using multi-winding transformer has poor output voltage regulations. To solve this problem, there are many proposals like post regulation method, weighted control method, and etc. However, the post regulation method regulates output voltage tightly but its conduction loss and cost are increased. And the weighted control can achieve high efficiency and low cost but its regulation is not enough. To solve these problems, this paper proposes a novel multiple output converter using quasi load. The proposed method uses a quasi load which acts like an active dummy load for tight regulation but there is rarely increase of loss and cost. The proposed method is verified by hardware test by two output(24V and 15V) flyback type converter.

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Analysis and Design for Ripple Generation Network Circuit in Constant-on-Time-Controlled Fly-Buck Converter (COT 제어 플라이벅 컨버터를 위한 전압 리플 보상회로의 분석 및 설계)

  • Cho, Younghoon;Jang, Paul
    • The Transactions of the Korean Institute of Power Electronics
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    • v.27 no.2
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    • pp.106-117
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    • 2022
  • Multiple output converters can be utilized when various output voltages are required in applications. Recently, one of the multiple output converters called fly-buck has been proposed, and has attracted attention due to the advantage that multiple output can be easily obtained with a simple structure. When constant on-time (COT) control is applied, the output ripple voltage must be treated carefully for control stability and voltage regulation characteristics in consideration of the inherent energy transfer characteristics of the fly-buck converter. This study analyzes the operation principle of the fly-buck converter with a ripple generation network and presents the design guideline for the improved output voltage regulation. Validity of the analysis and design guideline is verified using a 5 W prototype of the COT controlled fly-buck converter with a ripple generation network for telecommunication auxiliary power supply.

Buck-Boost Interleaved Inverter Configuration for Multiple-Load Induction Cooking Application

  • Sharath Kumar, P.;Vishwanathan, N.;Bhagwan, K. Murthy
    • Journal of Electrical Engineering and Technology
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    • v.10 no.1
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    • pp.271-279
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    • 2015
  • Induction cooking application with multiple loads need high power inverters and appropriate control techniques. This paper proposes an inverter configuration with buck-boost converter for multiple load induction cooking application with independent control of each load. It uses one half-bridge for each load. For a given dc supply of $V_{DC}$, one more $V_{DC}$ is derived using buck-boost converter giving $2V_{DC}$ as the input to each half-bridge inverter. Series resonant loads are connected between the centre point of $2V_{DC}$ and each half-bridge. The output voltage across each load is like that of a full-bridge inverter. In the proposed configuration, half of the output power is supplied to each load directly from the source and remaining half of the output power is supplied to each load through buck-boost converter. With buck-boost converter, each half-bridge inverter output power is increased to a full-bridge inverter output power level. Each half-bridge is operated with constant and same switching frequency with asymmetrical duty cycle (ADC) control technique. By ADC, output power of each load is independently controlled. This configuration also offers reduced component count. The proposed inverter configuration is simulated and experimentally verified with two loads. Simulation and experimental results are in good agreement. This configuration can be extended to multiple loads.

Multiple Output Charger based on the Novel Time Division Multiple Control Technique (새로운 시분할 다중 제어 기법에 기반한 다중 출력 충전기)

  • Tran, Van-Long;Choi, Woo-Jin
    • Proceedings of the KIPE Conference
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    • 2013.11a
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    • pp.13-14
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    • 2013
  • Multiple output converters (MOCs) are widely used for applications which require various kinds of the output voltages due to its advantages in cost, volume, and efficiency. However, most of the MOCs developed so far can regulate only one output tightly and require as many secondary windings in the transformer as the number of the outputs. In this paper, a novel Time Division Multiple Control (TDMC) method to regulate all the outputs in high precision is proposed and applied to the double ended forward converter for the multiple battery charger. Additional benefit of the proposed topology is to require only one secondary winding in the transformer for all the outputs. The proposed converter can charge two different kinds of batteries or same kind of batteries in different state of charges (SOCs) by CC/CV mode independently with the even degree of tight regulation, thereby satisfying the ripple requirements for each battery.

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Multiple Output Forward Converter for PC Power Supply with Weighted Voltage Mode Control (가중치 전압 모드 제어를 적용한 PC 전원용 다중출력 포워드 컨버터)

  • 이경주;김성민;이득기;정종진;김흥근
    • The Transactions of the Korean Institute of Power Electronics
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    • v.6 no.4
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    • pp.307-316
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    • 2001
  • In this paper, the multiple output forward converter forPC power supply with weighted voltage mode control which improves the characteristics of DC and transient responses is analyzed and designed. The power stage model of this converter including all the major parasitic components is derived and the small signal model is also derived. Determination of the weighting factors and a design procedure for the loop compensation are presented. Finally, the proposed controller is verified through the simulation of three output forward converter with SABER, and the experiment.

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Load-Balance-Independent High Efficiency Single-Inductor Multiple-Output (SIMO) DC-DC Converters

  • Ko, Younghun;Jang, Yeongshin;Han, Sok-Kyun;Lee, Sang-Gug
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.14 no.3
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    • pp.300-312
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    • 2014
  • A single-inductor multiple-output (SIMO) DC-DC converter providing buck and boost outputs with a new switching sequence is presented. In the proposed switching sequence, which does not require any additional blocks, input energy is delivered to outputs continuously by flowing current through the inductor, which leads to high conversion efficiency regardless of the balance between the buck and boost output loads. Furthermore, instead of multiple output loop compensation, only the freewheeling current feedback loop is compensated, which minimizes the number of off-chip components and nullifies the need for the equivalent series resistance (ESR) of the output capacitor for loop compensation. Therefore, power conversion efficiency and output voltage ripples can be improved and minimized, respectively. Implemented in a 0.35-${\mu}m$ CMOS, the proposed SIMO DC-DC converter achieves high conversion efficiency regardless of the load balance between the two outputs with maximum efficiency reaching up to 82% under heavy loads.

The study of the Asymmetrical Half-Bridge Converter With magnetic coupled post regulator

  • Hyeon, Byeong-Cheol;Cho, Bo-Hyung
    • Proceedings of the KIPE Conference
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    • 2007.11a
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    • pp.121-123
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    • 2007
  • In this paper, a multiple-output converter using a coupledinductor is proposed. The Asymmetrical Half-Bridge Converter (AHBC), which is used as a master converter, obtains ZVS in the primary side switches. For the tight output voltage regulation of the slave output, the Secondary Side Post Regulator (SSPR) is adopted. The proposed magnetically coupled output filter inductor reduces the number of semi-conductor devices and magnetic components. Also, the circuit enables ZCS off switching in the SSPR MOSFET and rectifying diodes. The modes of operation which are caused by the coupled-inductor and post regulator are explained. The analyzed modes of operation of the proposed multiple-output converter are verified by the simulation and experimental results.

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A Multiple-Voltage Single-Output DC/DC Up/Down Converter (UP/DOWN 변환이 동시에 지원되는 다중 전압 단일 출력 DC/DC 변환기)

  • 조상익;김정열;임신일;민병기
    • Proceedings of the IEEK Conference
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    • 2002.06e
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    • pp.207-210
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    • 2002
  • This paper describes a design of multiple-mode single-output DC/DC converter which can be used in both up and down conversion. Proposed up/down converter does not produce a negative voltage which is generated in conventional buck-boost type converter. Three types of operation mode(up/down/bypass) are controlled by the input voltage sense and command signals of target output voltage. PFM(pulse frequency modulation) control is adopted and modified for fast tracking and for precise output voltage level with an aid of output voltage sense. Designed DC/DC converter has the performance of less than 5 % ripple and higher than 80 % efficiency. Chip area is 3.50 mm ${\times}$ 2.05 mm with standard 0.35 $\mu\textrm{m}$ CMOS technology.

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Weighted Voltage Mode Control of Multiple Output Forward Converter for PC Power Supply (PC 전원용 다중출력 포워드 컨버터의 가중치 전압 모드 제어)

  • 차영길
    • Proceedings of the KIPE Conference
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    • 2000.07a
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    • pp.501-504
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    • 2000
  • In this paper the PC power supply is studied from the point of system stability. The power stage model of a multiple output forward converter with weighted voltage mode control is derived including all the major parasitic components and the small signal model is also derived. Determination of the weighting factors and a design procedure for the loop compensation are presented. Finally the model is verified through the simulation of three output forward converter with SABER.

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