S
Shenglong Yu
Researcher at Deakin University
Publications - 8
Citations - 106
Shenglong Yu is an academic researcher from Deakin University. The author has contributed to research in topics: Switched reluctance motor & Demodulation. The author has an hindex of 3, co-authored 8 publications receiving 17 citations.
Papers
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Journal ArticleDOI
A Novel Power and Signal Composite Modulation Approach to Powerline Data Communication for SRM in Distributed Power Grids
TL;DR: The signal modulation is realized by tuning the turn-off angle of the SRM to produce voltage ripples on the power transmission line, whereas autoregressive power spectrum density method is innovatively utilized to demodulate useful data from the powerline.
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A New Modulation–Demodulation Approach to DC Power-line Data Transmission for SRG-Integrated Microgrid
TL;DR: A new modulation–demodulation strategy is proposed to realize effective power-line communication (PLC) between SRG and other converters in an inverter-interfaced distributed power grid, using maximum entropy spectrum estimation (MESE) method.
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An Autonomous Impedance Adaptation Strategy for Wireless Power Transfer System Using Phase-Controlled Switched Capacitors
TL;DR: A novel autonomous impedance adaptation (AIA) strategy is proposed to realize adaptive impedance matching for WPT systems using a phase-controlled switched capacitor (PCSCap) to exert the highest possible power transfer efficiency.
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Four Novel Embedded Z-Source DC–DC Converters
TL;DR: In this paper, the authors developed a series of improved Z-source dc-dc converters to realize additional voltage pumping and high power density through two propositions, i.e., Proposition 1 develops two improved positive-and negative-connected Zsource DC-dc Converters (IPZSC and INZSC), using the same number of components as in the existing voltage pumping Zsource converter.
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Controllability Analysis and Verification for High-Order DC–DC Converters Using Switched Linear Systems Theory
TL;DR: High-order mathematical models are established for typical single-stage multicell high-order dc–dc converters and their controllability is studied using switched linear systems theories to provide a theoretical framework and useful references for parameter and control designs for high- order converters in practical applications.