A single-phase D-STATCOM inverter for distributed energy sources

Sotoodeh, Pedram; Tareila, Colin P.; Miller, Ruth Douglas

doi:10.1109/naps.2012.6336371

Cited by 6 publications

(1 citation statement)

References 47 publications

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“…The topology of the five-level hybrid clamped inverter developed in [170] is Fig. 18 shows the system configuration of the cascaded NPC/H-bridge inverter to integrate PV arrays to the utility grid.…”

Section: Hybrid Multilevel Mfi (Mfi-hm)mentioning

confidence: 99%

Review of Multifunctional Inverter Topologies and Control Schemes Used in Distributed Generation Systems

Teke¹,

Latran²

2014

Journal of Power Electronics

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Recent developments in power electronics technology have spurred interest in the use of renewable energy sources as distributed generation (DG) generators. The key component in DG generators is a grid-connected inverter that serves as an effective interface between the renewable energy source and the utility grid. The multifunctional inverter (MFI) is special type of grid-connected inverter that has elicited much attention in recent years. MFIs not only generate power for DGs but also provide increased functionality through improved power quality and voltage and reactive power support; thus, the capability of the auxiliary service for the utility grid is improved. This paper presents a comprehensive review of the various MFI system configurations for single-phase (two-wire) and three-phase (three-or four-wire) systems and control strategies for the compensation of different power quality problems. The advances in practical applications and recent research on MFIs are presented through a review of nearly 200 papers.

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Section: Hybrid Multilevel Mfi (Mfi-hm)mentioning

confidence: 99%