Abstract

Cascade multilevel inverters have been developed by the authors for utility applications. A cascade M-level inverter consists of (M-1)/2 H-bridges in which each bridge has its own separate DC source. The new inverter: (1) can generate almost sinusoidal waveform voltage while only switching one time per fundamental cycle, (2) can eliminate transformers of multipulse inverters used in conventional utility interfaces and static VAr compensators, and (3) makes possible direct parallel or series connection to medium- and high-voltage power systems without any transformers. In other words, the cascade inverter is much more efficient and suitable for utility applications than traditional multipulse and pulse width modulation (PWM) inverters. The authors have experimentally demonstrated the superiority of the new inverter for reactive power (VAr) and harmonic compensation. This paper summarizes features, feasibility, and control schemes of the cascade inverter for utility applications including utility interface of renewable energy, voltage regulation, VAr compensation, and harmonic filtering in power systems. Analytical, simulated, and experimental results demonstrate the superiority of the new inverters.

Highlights

  • Flexible AC transmission systems (FACTS), custom power, and power quality have been hot topics because of the increasing power demand, the widespread use of non-linear electronic equipment, and the higher power quality requirements of sensitive loads

  • A multipulse inverter consisting of several voltage-source inverters connected together through zigzagarrangement transformers is used for renewable energy utility interfaces and var compensation [1-71

  • This paper summarizes features, feasibility, and control schemes of the cascade inverter for voltage regulation, var compensation, and harmonic filtering in power systems

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Summary

INTRODUCTION

Flexible AC transmission systems (FACTS), custom power, and power quality have been hot topics because of the increasing power demand, the widespread use of non-linear electronic equipment, and the higher power quality requirements of sensitive loads. A multipulse inverter consisting of several voltage-source inverters connected together through zigzagarrangement transformers is used for renewable energy utility interfaces and var compensation [1-71. The cascade M-level inverter consists of (M-1)/2 H-bridges in which each bridge has its own separate dc source This multilevel inverter generates almost sinusoidal staircase voltage while switching only one time per line cycle, eliminating the required bulky transformers of the multipulse inverter based static var compensators (SVCs) and reducing the initial and running costs tremendously compared with the traditional PWM inverter. Analytical, simulated, and experimental results demonstrate the superiority of the new compensator

11. CASCADE MULTILEVEL INVERTERS
Utility Interface of Renewable Energy Sources
Voltage Regulation and Phase Shifting
Reactive Power Control and Compensation
Infinite
CONTROL SCHEMES
Harmonic Filtering
EXPERIMENTAL RESULTS
CONCLUSIONS
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