• Title/Summary/Keyword: Input series output parallel (ISOP)

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Digital Control Strategy for Input-Series-Output-Parallel Modular DC/DC Converters

  • Sha, Deshang;Guo, Zhiqiang;Liao, Xiaozhong
    • Journal of Power Electronics
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    • v.10 no.3
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    • pp.245-250
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    • 2010
  • Input-series-output-parallel (ISOP) converters consisting of multiple modular DC/DC converters can enable low voltage rating switches to be used under high voltage input applications. This paper presents a digital control strategy, which can achieve equal sharing of input voltage for a modular ISOP system consisting of two-transistor forward DC/DC converters by forcing the input voltages of neighboring modules to be equal. The proposed scheme is analyzed using small signals analysis based on the state space average method. The performance of the proposed control strategy is verified with an experimental prototype of an ISOP converter made up of three two-switch forward converters.

Input Voltage Sharing Control for Input-Series-Output-Parallel DC-DC Converters without Input Voltage Sensors

  • Guo, Zhiqiang;Sha, Deshang;Liao, Xiaozhong
    • Journal of Power Electronics
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    • v.12 no.1
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    • pp.83-87
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    • 2012
  • Input-series-output-parallel (ISOP) modular converters consisting of multiple modular DC/DC converters can enable low voltage rating switches for use in high voltage input applications. In this paper, an input voltage sharing control strategy for input-series-output-parallel (ISOP) full-bridge (FB) DC/DC converters is proposed. By sensing the difference in the input current of two modules, the system can achieve input voltage sharing for DC-DC modules. The effectiveness of the proposed control strategy is verified by simulation and experimental results obtained with a 200w-50kHz prototype.

DSP Based Series-Parallel Connected Two Full-Bridge DC-DC Converter with Interleaving Output Current Sharing

  • Sha, Deshang;Guo, Zhiqiang;Lia, Xiaozhong
    • Journal of Power Electronics
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    • v.10 no.6
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    • pp.673-679
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    • 2010
  • Input-series-output-parallel (ISOP) connected DC-DC converters enable low voltage rating switches to be used in high voltage input applications. In this paper, a DSP is adopted to generate digital phase-shifted PWM signals and to fulfill the closed-loop control function for ISOP connected two full-bridge DC-DC converters. Moreover, a stable output current sharing control strategy is proposed for the system, with which equal sharing of the input voltage and the load current can be achieved without any input voltage control loops. Based on small signal analysis with the state space average method, a loop gain design with the proposed scheme is made. Compared with the conventional IVS scheme, the proposed strategy leads to simplification of the output voltage regulator design and better static and dynamic responses. The effectiveness of the proposed control strategy is verified by the simulation and experimental results of an ISOP system made up of two full-bridge DC-DC converters.

A Study on the Affected of DC-Link Voltage Balance Control of the Vienna Rectifier Linked With the Input Series Output Parallel LLC Converter (직렬 입력 병렬 출력 연결된 LLC 컨버터를 갖는 비엔나 정류기의 DC 링크 전압 평형 제어에 관한 연구)

  • Baek, Seung-Woo;Kim, Hag-Wone;Cho, Kwan-Yuhl
    • The Transactions of the Korean Institute of Power Electronics
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    • v.26 no.3
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    • pp.205-213
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    • 2021
  • Due to the advantage of reducing the voltage applied to the switch semiconductor, the input series and output parallel combination is widely used in systems with high input voltage and large output current. On the other hand, the LLC converter is widely used as a high-efficiency power converter, and when connected by ISOP combination, there is a possibility that input voltage imbalance may occur due to a mismatch of passive devices. To avoid damaging the switching device, this study analyzed the DC-link voltage imbalance of a high-capacity supply using an ISOP LLC converter. In addition, the case where DC-link unbalance control was applied and the case not applied was analyzed respectively. Based on this analysis, an initial start-up algorithm was proposed to prevent input power semiconductor device damage due to DC-link over-voltage. The effectiveness of the proposed algorithm has been verified through simulations and experiments.

Design of an Input-Parallel Output-Parallel Multi-Module DC-DC Converter Using a Ring Communication Structure

  • Hu, Tao;Khan, Muhammad Mansoor;Xu, Kai;Zhou, Lixin;Rana, Ahmad
    • Journal of Power Electronics
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    • v.15 no.4
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    • pp.886-898
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    • 2015
  • The design feasibility of a micro unidirectional DC transmission system based on an input-parallel output-parallel (IPOP) converter is analyzed in this paper. The system consists of two subsystems: an input-parallel output-series (IPOS) subsystem to step up the DC link voltage, and an input-series output-parallel (ISOP) subsystem to step down the output voltage. The two systems are connected through a transmission line. The challenge of the delay caused by the communication in the control system is addressed by introducing a ring communication structure, and its influence on the control system is analyzed to ensure the feasibility and required performance of the converter system under practical circumstances. Simulation and experiment results are presented to verify the effectiveness of the proposed design.

Control Scheme for Input Terminal Voltage Balancing of ISOP DAB Converter by EtherCAT Communication (EtherCAT 통신을 이용한 ISOP DAB Converter의 입력단 전압 밸런싱 제어)

  • Hwang, Junsik;Kim, Sungmin;Byen, Byeng Joo;Jeong, B.H.
    • Proceedings of the KIPE Conference
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    • 2020.08a
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    • pp.451-452
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    • 2020
  • 입력 전압과 출력 전압의 변환비가 큰 시스템에서는 전압 변환비가 큰 한 개의 컨버터 설계하기보다는 다수의 컨버터를 직렬 혹은 병렬로 구성하여 용량을 증가시키는 것이 유리하며, 모듈형으로 컨버터를 제작하여 연결할 경우, 다양한 용량의 컨버터를 구현할 수 있다. 입력 전압이 출력 전압보다 큰 시스템에서는 ISOP(Input Series-Output Parallel) 방식을 사용한다. 시스템을 ISOP로 시스템을 구성할 경우 직렬로 연결된 모듈들의 직류단 전압 불균형 문제가 발생한다. 이를 해결하기 위해 각 모듈의 직류단 전압을 제어한다. 본 논문에서는 EtherCAT 통신을 사용하여 ISOP 연결된 컨버터를 제어하였고 10개의 컨버터 모듈을 이용한 실험을 통해 제시하는 방법의 성능을 검증하였다.

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Input-Series-Output-Parallel Connected DC/DC Converter for a Photovoltaic PCS with High Efficiency under a Wide Load Range

  • Lee, Jong-Pil;Min, Byung-Duk;Kim, Tae-Jin;Yoo, Dong-Wook;Yoo, Ji-Yoon
    • Journal of Power Electronics
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    • v.10 no.1
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    • pp.9-13
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    • 2010
  • This paper proposes an input-series-output-parallel connected ZVS full bridge converter with interleaved control for photovoltaic power conditioning systems (PV PCS). The input-series connection enables a fully modular power-system architecture, where low voltage and standard power modules can be connected in any combination at the input and/or at the output, to realize any given specifications. Further, the input-series connection enables the use of low-voltage MOSFETs that are optimized for a very low RDSON, thus, resulting in lower conduction losses. The system costs decrease due to the reduced current, and the volumes of the output filters due to the interleaving technique. A topology for a photovoltaic (PV) dc/dc converter that can dramatically reduce the power rating and increase the efficiency of a PV system by analyzing the PV module characteristics is proposed. The control scheme, consisting of an output voltage loop, a current loop and input voltage balancing loops, is proposed to achieve input voltage sharing and output current sharing. The total PV system is implemented for a 10-kW PV power conditioning system (PCS). This system has a dc/dc converter with a 3.6-kW power rating. It is only one-third of the total PV PCS power. A 3.6-kW prototype PV dc/dc converter is introduced to experimentally verify the proposed topology. In addition, experimental results show that the proposed topology exhibits good performance.

Modeling and Control of ISOP Active-Clamp-Forward Converter for xEV Low Voltage DC/DC Converter

  • Naradhipa, Adhistira M.;Kim, Byeongwoo;Kim, Kangsan;Cho, Woosik;Choi, Sewan;Huh, Dongyoung;Kim, Soohong;Cho, Kyungrae
    • Proceedings of the KIPE Conference
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    • 2018.07a
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    • pp.99-101
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    • 2018
  • This paper present an input-series output-parallel active-clamp-forward converter for low voltage dc/dc xEV application. The converter can achieve ZVS turn-on for all switches. An accurate small signal model of the converter which includes the effect of leakage inductance is given and controller design based on modeling is described. Experimental and simulation results from a 3.2kW, 100kHz prototype are presented in order to verify the validity of the converter operation and the designed control parameters.

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