Programmable Device Circuits and Systems

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Analysis of a Novel Step up Three Phase Multilevel Inverter Topology using Star and Delta Load


Affiliations
1 Department of Electrical and Electronics Engineering, Jyothi Engineering College, Thrissur, India
     

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Inverters are used in wide area of interests including household and industries. But in many microgrid applications, industrial applications and aircraft applications, where a renewable energy sources such as photovoltaic, wind, fuel cells etc are used, the classical three level inverters cannot be used due to polluted sinusoidal output. To overcome this difficulty multilevel inverters are used. The output of multi-level inverters almost follows the sinusoidal waveform. The more the number of levels, the more faithful is the sinusoidal wave. This paper proposes a new three phase step up multilevel inverter. MATLAB simulation of a typical five level inverter is done and result analysis is presented. Only a single voltage source is used as input. The number of output levels is determined by the number of switched capacitor cells.  Also, different levels can be achieved by cascading repeated blocks. Problems of numerous active switches and thereby the need of complex gating circuitry are avoided in this topology.


Keywords

Multilevel Inverter, SHE, Switched Capacitors, THD.
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  • Analysis of a Novel Step up Three Phase Multilevel Inverter Topology using Star and Delta Load

Abstract Views: 168  |  PDF Views: 3

Authors

Justin John
Department of Electrical and Electronics Engineering, Jyothi Engineering College, Thrissur, India
Jenson Jose
Department of Electrical and Electronics Engineering, Jyothi Engineering College, Thrissur, India

Abstract


Inverters are used in wide area of interests including household and industries. But in many microgrid applications, industrial applications and aircraft applications, where a renewable energy sources such as photovoltaic, wind, fuel cells etc are used, the classical three level inverters cannot be used due to polluted sinusoidal output. To overcome this difficulty multilevel inverters are used. The output of multi-level inverters almost follows the sinusoidal waveform. The more the number of levels, the more faithful is the sinusoidal wave. This paper proposes a new three phase step up multilevel inverter. MATLAB simulation of a typical five level inverter is done and result analysis is presented. Only a single voltage source is used as input. The number of output levels is determined by the number of switched capacitor cells.  Also, different levels can be achieved by cascading repeated blocks. Problems of numerous active switches and thereby the need of complex gating circuitry are avoided in this topology.


Keywords


Multilevel Inverter, SHE, Switched Capacitors, THD.