Abstract

The cascaded multilevel inverter (CMI) is one type of common inverter in industrial applications. This type of inverter can be synthesized either as a symmetric configuration with several identical H-bridge (HB) cells or as an asymmetric configuration with non-identical HB cells. In photovoltaic (PV) applications with the CMI, the PV modules can be used to replace the isolated dc sources; however, this brings inter-module leakage currents. To tackle the issue, the single-source CMI is preferred. Furthermore, in a grid-tied PV system, the main constraint is the capacitive leakage current. This problem can be addressed by providing a common ground, which is shared by PV modules and the ac grid. This paper thus proposes a topology that fulfills the mentioned requirements and thus, CMI is a promising inverter with wide-ranging industrial uses, such as PV applications. The proposed CMI topology also features high boosting capability, fault current limiting, and a transformerless configuration. To demonstrate the capabilities of this CMI, simulations and experimental results are provided.

Highlights

  • Multilevel inverters (MIs) are attractive devices in many industrial applications

  • The neutral point clamped converter (NPC) and cascaded multilevel inverter (CMI) are two types of multilevel inverters, which are popular in PV applications [1,2]

  • The inter-module leakage currents result from differential-mode voltage (DMV) and common mode voltage (CMV) variations

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Summary

Introduction

Multilevel inverters (MIs) are attractive devices in many industrial applications. These devices can reduce the total harmonic distortion (THD), electromagnetic interference (EMI), dv/dt, switching frequency and voltage stress. The main advantage of CTMIs is their ability to provide galvanic isolation between the dc source and the load/grid This is the case when applying HFLMIs in PV applications, where the leakage current issue is addressed. [16], several level-double networks (LDN) are used as the auxiliary blocks to enhance the quality of the output voltage This topology can offer a common ground between the PV module and the grid, which results in the elimination of the leakage current. In light of the above, a single-source asymmetric CMI is proposed in this paper, which provides a common ground for ac and dc sides This topology uses capacitors instead of the isolated dc sources in the HB cells.

Three-Phase C-Vdocnfiguration-2Vdc
Benchmarking with Prior-Art Inverters
SSiimmuullaation Results
46 VValue
Off-Gird Results
Grid-Tied Results

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