• 제목/요약/키워드: Multilevel converter

검색결과 204건 처리시간 0.024초

태양광 멀티레벨 단상 인버터를 위한 단일 스위치를 가지는 삼중 출력 DC/DC 컨버터 설계 및 해석 (Design and Analysis of a Triple Output DC/DC Converter with One Switch for Photovoltaic Multilevel Single Phase Inverter)

  • 최우석;박성준
    • 조명전기설비학회논문지
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    • 제28권8호
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    • pp.82-89
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    • 2014
  • The industrial products to use single phase inverter are raised the necessity of power quality improvement, such as AC Motor Driver, Lighting, Renewable energy power converter. Also, it is increasing that applied the single phase multilevel inverter for high quality power at renewable energy power converter. Especially, the photovoltaic multilevel inverters have at least more than two DC_Link and more than one DC/DC Converter. This paper proposes a triple output DC/DC Converter with one switch for photovoltaic multilevel inverter. The proposed converter has advantages of low cost and volume because it has one switch. The operation principle of the converter is analyzed and verified. A prototype is implemented to verify of the proposed converter.

Single Input Multi Output DC/DC Converter: An Approach to Voltage Balancing in Multilevel Inverter

  • Banaei, M.R.;Nayeri, B.;Salary, E.
    • Journal of Electrical Engineering and Technology
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    • 제9권5호
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    • pp.1537-1543
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    • 2014
  • This paper presents a new DC/AC multilevel converter. This configuration uses single DC sources. The proposed converter has two stages. The first stage is a DC/DC converter that can produce several DC-links in the output. The DC/DC converter is one type of boost converter and uses single inductor. The second stage is a multilevel inverter with several capacitor links. In this paper, one single input multi output DC-DC converter is used in order to voltage balancing on multilevel converter. In addition, as compare to traditional multilevel inverter, presented DC/AC multilevel converter has less on-state voltage drop and conduction losses. Finally, in order to verify the theoretical issues, simulation and experimental results are presented.

Multilevel Modular Converter의 개선된 시뮬레이션 방법 (A kind of Improvement Simulation Method for Multilevel Module Converter)

  • 원진;파자르;이혜연;조진상;장수형
    • 전력전자학회:학술대회논문집
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    • 전력전자학회 2013년도 전력전자학술대회 논문집
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    • pp.151-152
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    • 2013
  • Multilevel Voltage Source Converter HVDC presents a new method for the energy transmission, The multilevel requires the converter bridge includes more than 100 converter modules, for the EMT simulation file, the simulation time increases to several hours; it can depress the research process. In the paper, author describes a method to simulate the multilevel arm based on time-varying equivalent. The result shows the extremely calculation time reduced with almost the same accuracy.

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Advanced Cascade Multilevel Converter with Reduction in Number of Components

  • Ajami, Ali;Oskuee, Mohammad Reza Jannati;Mokhberdoran, Ataollah;Khosroshahi, Mahdi Toupchi
    • Journal of Electrical Engineering and Technology
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    • 제9권1호
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    • pp.127-135
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    • 2014
  • In this paper a novel converter structure based on cascade converter family is presented. The suggested multilevel advanced cascade converter has benefits such as reduction in number of switches and power losses. Comparison depict that proposed topology has the least number of IGBTs among all multilevel cascade type converters which have been introduced recently. This characteristic causes low cost and small installation area for suggested converter. The number of on state switches in current path is less than conventional topologies and so the output voltage drop and power losses are decreased. Symmetric and asymmetric modes are analyzed and compared with conventional multilevel cascade converter. Simulation and experimental results are presented to illustrate validity, good performance and effectiveness of the proposed configuration. The suggested converter can be applied in medium/high voltage and PV applications.

A Novel Extended Topology for Cascade Multilevel Voltage Source Converter for High-Power Applications with Interesting Advantages

  • Alishah, Rasoul Shalchi;Nazarpour, Daryoosh;Hosseini, Seyed Hossein;Sabahi, Mehran
    • Journal of international Conference on Electrical Machines and Systems
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    • 제3권3호
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    • pp.298-304
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    • 2014
  • In this paper, a novel topology for cascade multilevel converter is introduced, which has many levels with fewer number of power electronic components. Less number of the switches leads to the reduction of size, losses, simple control strategy and high efficiency. For proposed multilevel converter, a new algorithm for determination of dc voltage source values has been recommended. The performance and operation of the proposed multilevel converter has been evaluated with the simulation results of a cascade 25-level converter.

A New Family of Cascaded Transformer Six Switches Sub-Multilevel Inverter with Several Advantages

  • Banaei, M.R.;Salary, E.
    • Journal of Electrical Engineering and Technology
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    • 제8권5호
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    • pp.1078-1085
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    • 2013
  • This paper presents a novel topology for cascaded transformer sub-multilevel converter. Eachsub-multilevel converter consists of two DC voltage sources with six switches to achieve five-level voltage. The proposed topology results in reduction of DC voltage sources and switches number. Single phase low frequency transformers are used in proposed topology and voltage transformation and galvanic isolation between load and sources are given by transformers. This topology can operate as symmetric or asymmetric converter but in this paper we have focused on symmetric state. The operation and performance of the suggested multilevel converter has been verified by the simulation results of a single-phase nine-level multilevel converter using MATLAB/SIMULINK.

Optimal Topologies for Cascaded Sub-Multilevel Converters

  • Babaei, Ebrahim
    • Journal of Power Electronics
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    • 제10권3호
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    • pp.251-261
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    • 2010
  • The general function of a multilevel converter is to synthesize a desired output voltage from several levels of dc voltages as inputs. In order to increase the steps in the output voltage, a new topology is recommended in [1], which benefits from a series connection of sub-multilevel converters. In the procedure described in this reference, despite all the advantages, it is not possible to produce all the steps (odd and even) in the output. In addition, for producing an output voltage with a constant number of steps, there are different configurations with a different number of components. In this paper, the optimal structures for this topology are investigated for various objectives such as minimum number of switches and dc voltage sources and minimum standing voltage on the switches for producing the maximum output voltage steps. Two new algorithms for determining the dc voltage sources magnitudes have been proposed. Finally, in order to verify the theoretical issues, simulation and experimental results for a 49-level converter with a maximum output voltage of 200V are presented.

Module Multilevel-Clamped Composited Multilevel Converter (M-MC2) with Dual T-Type Modules and One Diode Module

  • Luo, Haoze;Dong, Yufei;Li, Wuhua;He, Xiangning
    • Journal of Power Electronics
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    • 제14권6호
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    • pp.1189-1196
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    • 2014
  • A modular multilevel-clamped composited multilevel converter ($M-MC^2$) is proposed. $M-MC^2$ enables topology reconfiguration, power device reuse, and composited clamping. An advanced five-level converter ($5L-M-MC^2$) is derived from the concept of $M-MC^2$. $5L-M-MC^2$ integrates dual three-level T-type modules and one three-level neutral point clamped module. This converter can also integrate dual three-level T-type modules and one passive diode module by utilizing the device reuse scheme. The operation principle and SPWM modulation are discussed to highlight converter performance. The proposed $M-MC^2$ is comprehensively compared with state-of-the-art five-level converters. Finally, simulations and experimental results are presented to validate the effectiveness of the main contributions of this study.

Unification of Buck-boost and Flyback Converter for Driving Cascaded H-bridge Multilevel Inverter with Single Independent DC Voltage Source

  • Kim, Seong-Hye;Kim, Han-Tae;Park, Jin-Soo;Kang, Feel-Soon
    • Journal of international Conference on Electrical Machines and Systems
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    • 제2권2호
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    • pp.190-196
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    • 2013
  • It presents a unification of buck-boost and flyback converter for driving a cascaded H-bridge multilevel inverter with a single independent DC voltage source. Cascaded H-bridge multilevel inverter is useful to make many output voltage levels for sinusoidal waveform by combining two or more H-bridge modules. However, each H-bridge module needs an independent DC voltage source to generate multi levels in an output voltage. This topological characteristic brings a demerit of increasing the number of independent DC voltage sources when it needs to increase the number of output voltage levels. To solve this problem, we propose a converter combining a buck-boost converter with a flyback converter. The proposed converter provides independent DC voltage sources at back-end two H-bridge modules. After analyzing theoretical operation of the circuit topology, the validity of the proposed approach is verified by computer-aided simulations using PSIM and experiments.

Verification of New Family for Cascade Multilevel Inverters with Reduction of Components

  • Banaei, M.R.;Salary, E.
    • Journal of Electrical Engineering and Technology
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    • 제6권2호
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    • pp.245-254
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    • 2011
  • This paper presents a new group for multilevel converter that operates as symmetric and asymmetric state. The proposed multilevel converter generates DC voltage levels similar to other topologies with less number of semiconductor switches. It results in the reduction of the number of switches, losses, installation area, and converter cost. To verify the voltage injection capabilities of the proposed inverter, the proposed topology is used in dynamic voltage restorer (DVR) to restore load voltage. The operation and performance of the proposed multilevel converters are verified by simulation using SIMULINK/MATLAB and experimental results.