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DTSTAMP:20220401T164757Z
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DESCRIPTION:In the future smart grid\, it is a significant trend to integra
 te large capacity renewable energy into medium voltage (MV) DC grids. The 
 high power conversion techniques for wind generation\, photovoltaic genera
 tion and hydrogen energy system integrated into MVDC grids are reviewed an
 d compared in this lecture\, including the system configurations\, AC-DC a
 nd DC-DC converter designs\, control strategies and fault protection. Nove
 l solutions of DC grid-connected photovoltaic generation system are presen
 ted\, providing new ways to integrate solar energy to DC grids with high e
 fficiency and high power density. As the key element of high power isolate
 d DC-DC converters\, high frequency transformers with high withstand volta
 ge are studied in terms of multi-physics modeling\, magnetic integration\,
  insulation design\, thermal design and multi-objective optimization.\n\nS
 peaker(s): Kai Sun\, \n\nAtlanta\, Georgia\, United States\, Virtual: http
 s://events.vtools.ieee.org/m/301548
LOCATION:Atlanta\, Georgia\, United States\, Virtual: https://events.vtools
 .ieee.org/m/301548
ORGANIZER:justin.zhang@gatech.edu
SEQUENCE:9
SUMMARY:Power Conversion Technology for Renewable Energy Systems Integrated
  into Medium Voltage DC Grids
URL;VALUE=URI:https://events.vtools.ieee.org/m/301548
X-ALT-DESC:Description: <br /><p>In the future smart grid\, it is a signifi
 cant trend to integrate large capacity renewable energy into medium voltag
 e (MV) DC grids. The high power conversion techniques for wind generation\
 , photovoltaic generation and hydrogen energy system integrated into MVDC 
 grids are reviewed and compared in this lecture\, including the system con
 figurations\, AC-DC and DC-DC converter designs\, control strategies and f
 ault protection. Novel solutions of DC grid-connected photovoltaic generat
 ion system are presented\, providing new ways to integrate solar energy to
  DC grids with high efficiency and high power density. As the key element 
 of high power isolated DC-DC converters\, high frequency transformers with
  high withstand voltage are studied in terms of multi-physics modeling\, m
 agnetic integration\, insulation design\, thermal design and multi-objecti
 ve optimization.</p>
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