基于开关电容器的单相无变压器并网逆变器

IF 1.7 3区 物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Sudipto Mondal;Nazmul Islam Nahin;Shuvra Prokash Biswas;Anas Bin Islam;Md. Rabiul Islam;Afef Fekih;Mohua Biswas
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引用次数: 0

摘要

与基于变压器的逆变器相比,无变压器并网逆变器效率高、设计紧凑、成本效益高,因此越来越受到人们的青睐。然而,这些逆变器面临着重大挑战,尤其是漏电流和有限的升压能力。本文通过利用开关电容器(SC)的五级无变压器逆变器(TLI)拓扑结构,提出了解决这些问题的新方案。该逆变器利用七个绝缘栅双极晶体管 (IGBT)、两个二极管和两个 SC 来实现五级升压输出,同时确保低漏电流。通过保持恒定的共模电压(CMV),实现了近零漏电流。有限控制集模型预测控制(FCS-MPC)取代了传统的调制器,有助于电网电流跟踪和减少电流谐波。仅使用七个开关和两个 SC 可提高效率并减少损耗。全面的 MATLAB/Simulink 仿真和实验原型验证了所提 TLI 在太阳能光伏集成方面的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Switched-Capacitor Based Single-Phase Transformerless Inverter for Grid Integration
Transformerless grid-connected inverters are gaining popularity due to their high efficiency, compact design, and cost-effectiveness than transformer-based inverters. However, these inverters face significant challenges, particularly leakage current and limited voltage boost capability. This paper presents a novel solution to these issues through a five-level transformerless inverter (TLI) topology utilizing switched capacitors (SCs). The inverter utilizes seven insulated gate bipolar transistors (IGBTs), two diodes, and two SCs to achieve a five-level boosted output while ensuring low leakage current. Near-zero leakage current is enabled by maintaining a constant common mode voltage (CMV). Finite control set model predictive control (FCS-MPC), instead of traditional modulators, facilitates grid current tracking and reduced current harmonics. The use of only seven switches and two SCs results in increased efficiency and reduced losses. Comprehensive MATLAB/Simulink simulations and an experimental prototype validate the effectiveness of the proposed TLI for solar PV integration.
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来源期刊
IEEE Transactions on Applied Superconductivity
IEEE Transactions on Applied Superconductivity 工程技术-工程:电子与电气
CiteScore
3.50
自引率
33.30%
发文量
650
审稿时长
2.3 months
期刊介绍: IEEE Transactions on Applied Superconductivity (TAS) contains articles on the applications of superconductivity and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Large scale applications include magnets for power applications such as motors and generators, for magnetic resonance, for accelerators, and cable applications such as power transmission.
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