Harmonic reduction in a boost-star three-phase single switch power factor correction circuit operating in discontinuous conduction mode

This paper presents the application of average current mode control to reduce the THD i and increase the PF in a Three-Phase Boost Rectifier driving a small wind turbine. It is used as the input stage of small wind turbines with permanent magnet synchronous generators operating at variable speed. The Boost Rectifier output is connected to an inverter which injects the energy to a distribution power grid. The operation in discontinuous conduction mode allows significantly reducing the Total Harmonic Distortion of the current in the small wind turbine. However, it is necessary to add an input filter so that the switching ripple doesn´t affect the small wind turbine. It is evaluated the convenience of the current sensors placement in the DC side of the rectifier or at the output of the generator. The results demonstrate that it is better to place the sensors at the output of the generator, because it is achieved a smaller THD i and a higher PF.

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Average Current Mode Control of Three-Phase Boost Rectifiers with Low Harmonic Distortion Applied to Small Wind Turbines

Carranza

Figueres

Sanfeliú

et al. 2009

2009 Electronics, Robotics and Automotive Mechanics Conference (CERMA)

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Adaptive Harmonic Injection Mechanism for Single-Switch Three-Phase DCM Boost Rectifier

Lin

Cheng²

2018

2018 IEEE Energy Conversion Congress and Exposition (ECCE)

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Simulation model of an input power factor of a single — Phase AC-DC drive

Osunde

2012

2012 IEEE 4th International Conference on Adaptive Science &Amp; Technology (ICAST)

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Harmonic reduction in a boost-star three-phase single switch power factor correction circuit operating in discontinuous conduction mode

Cited by 8 publications

References 12 publications

Average Current Mode Control of Three-Phase Boost Rectifiers with Low Harmonic Distortion Applied to Small Wind Turbines

Average Current Mode Control of Three-Phase Boost Rectifiers with Low Harmonic Distortion Applied to Small Wind Turbines

Adaptive Harmonic Injection Mechanism for Single-Switch Three-Phase DCM Boost Rectifier

Simulation model of an input power factor of a single — Phase AC-DC drive

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Harmonic reduction in a boost-star three-phase single switch power factor correction circuit operating in discontinuous conduction mode

Cited by 8 publications

References 12 publications

Average Current Mode Control of Three-Phase Boost Rectifiers with Low Harmonic Distortion Applied to Small Wind Turbines

Average Current Mode Control of Three-Phase Boost Rectifiers with Low Harmonic Distortion Applied to Small Wind Turbines

Adaptive Harmonic Injection Mechanism for Single-Switch Three-Phase DCM Boost Rectifier

Simulation model of an input power factor of a single &#x2014; Phase AC-DC drive

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Product

Resources

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Simulation model of an input power factor of a single — Phase AC-DC drive