Analysis of Ripple Voltage at the Output of Five-Phase Converter with Five-Phase Inverter Drive for Renewable Energy App

Technological advancement in power electronic systems, renewable energy usage is tremendous applications in industries and electric vehicles. Various solar-powered systems are designed, and performances have been improved by the researchers. This proposed

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Abstract Technological advancement in power electronic systems, renewable energy usage is tremendous applications in industries and electric vehicles. Various solar-powered systems are designed, and performances have been improved by the researchers. This proposed work will imply on power-handling capability of ﬁve-phase inverter with DC Buck-Boost converter. Power from the solar cells will be buck boosted and charged to a battery and then used to power up the adjustable speed drives and AC systems. This paper is a simulation work, proposed to study the power-handling capability of the renewable energy and used in ﬁve-phase VSI, and also output of ﬁve-phase DC converter ripple voltage is analyzed and found minimum ripple voltage for DC-powered applications. Keywords Renewable energy Battery Simulink

Solar energy Buck-boost Five phases

1 Introduction Use of sustainable renewable energy resources is increasing as the oil, fuels sources are at risk of extension. In renewable energy sources, use of solar energy is growing enormously. Solar energy can be used in both domestic and industrial applications. Most of the industries mainly use applications of induction motors such as blowers, fans, high-voltage alternating current, industrial ASDs and intelligent automotive control. Use of induction machines is increasing in industries due to superior reliability, sturdiness or robustness, good efﬁciency, less maintenance while operating. Solar energy applications are either in small scale (pumping of water, home

Manjesh (&) Bangalore University, Bangalore, India e-mail: [email protected] © Springer Nature Singapore Pte Ltd. 2018 S. SenGupta et al. (eds.), Advances in Smart Grid and Renewable Energy, Lecture Notes in Electrical Engineering 435, https://doi.org/10.1007/978-981-10-4286-7_25

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appliances and domestic lighting, electric cars, defense and aerospace applications) or in large scale (electric hybrid systems, electrical power plants). Challenge rises when designing power converter systems, which couples to load from the input source efﬁciently [1]. As the advancement in technology of power system and devices, multi/polyphase has become alternative to three-phase systems. Fault lenience and power divided into three phases which is the main advantages over the three-phase systems. In a conventional three-phase system if a phase is inactive, then the complete system will be inactive. In case of multi-drives, it preserves and continues toward developing rotary magnetic flux, if single or other phase is inactive or faulted. In multi-drives DC link voltage will imposes high current per phase requirements, implying the advantage in multi/polyphase drives, because of these advantages ﬁve-phase systems are suitable than the three-phase systems, and reductions in current per phase for the given input/output can be obtained. Buck-boost DC–DC power converters are broadly utilized in solar energy applications; using this output voltage can be boosted or bucked. This type of power converter will c

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Analysis of Ripple Voltage at the Output of Five-Phase Converter with Five-Phase Inverter Drive for Renewable Energy App

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