Surya Santoso scite author profile

This paper aims to understand, identify, and mitigate the impacts of residential electric vehicle (EV) charging on distribution system voltages. A thorough literature review on the impacts of residential EV charging is presented, followed by a proposed method for evaluating the impacts of EV loads on distribution system voltage quality. Practical solutions to mitigate EV load impacts are discussed as well including infrastructural changes and indirect controlled charging with Time-of-Use (TOU) pricing. An optimal TOU schedule is also presented, with the aim of maximizing both customer and utility benefits. The paper also presents a discussion on implementing smart charging algorithms to directly control EV charging rates and EV charging starting times. Finally, a controlled charging algorithm is proposed to improve voltage quality at the EV load locations while avoiding customer inconvenience. The proposed method significantly decreases the impacts of EV load charging on system peak load demand and feeder voltages.

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Characterization of distribution power quality events with Fourier and wavelet transforms

Santoso

Grady

Powers

et al. 2000

IEEE Trans. Power Delivery

372

125

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Power quality disturbance data compression using wavelet transform methods

Santoso

Powers

Grady

1997

IEEE Trans. Power Delivery

307

124

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Power quality disturbance waveform recognition using wavelet-based neural classifier. I. Theoretical foundation

Santoso¹,

Powers²,

Grady³

et al. 2000

IEEE Trans. Power Delivery

277

106

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Surya Santoso

Power quality assessment via wavelet transform analysis

Electric Vehicle Charging on Residential Distribution Systems: Impacts and Mitigations

Characterization of distribution power quality events with Fourier and wavelet transforms

Power quality disturbance data compression using wavelet transform methods

Power quality disturbance waveform recognition using wavelet-based neural classifier. I. Theoretical foundation

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