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DESCRIPTION:Title\n\nHigh Efficiency Reconfigurable Monolithic Switched-Cap
 acitor DC-DC Converter\n\nAbstract\n\nThe recent wireless sensing and emer
 ging Internet-of-Thing (IoT) market have enabled the development of miniat
 urized systems with different application requirements. While highly effic
 ient power management is mandatory to ensure the system performance and op
 eration lifetime\, on-chip inductive power converters generally exhibits i
 ncreased manufacturing cost despite of their higher achievable power densi
 ties. Due to the full integration together with high energy efficiency and
  adaptability\, reconfigurable switched-capacitor (SC) DC-DC converters ar
 e promising for ultra-compact on-chip power solutions. This talk will firs
 t cover the basic operations and control methodologies of SC DC-DC convert
 ers. It will then introduce the conventional SC DC-DC topologies\, followe
 d by the fundamental analyses and different loss mechanisms. Advanced reco
 nfigurable SC DC-DC converters capable of systematic multiple rational vol
 tage conversion ratio (VCR) generation and their fundamental limits will a
 lso be proposed\, and further compared with the state-of-the-art. Adaptive
  gate driving techniques with consistent switch driving voltage while prev
 enting reversion loss under wide voltage dynamics will also be introduced.
  These techniques enable highly efficient SC power converters with better 
 SoC integration for next generation ultra-compact low-cost IoT devices.\n\
 nSpeaker’s Biography\n\nMan-Kay Law received the B.Sc. degree in compute
 r engineering and the Ph.D. degree in electronic and computer engineering 
 from the Hong Kong University of Science and Technology (HKUST)\, Hong Kon
 g\, in 2006 and 2011\, respectively.\n\nIn 2011\, he joined HKUST as a Vis
 iting Assistant Professor. He is currently an Associate Professor with the
  State Key Laboratory of Analog and Mixed-Signal VLSI\, Institute of Micro
 electronics\, University of Macau\, Macau\, China. He has authored and coa
 uthored more than 90 technical publications\, and holds six U.S./Chinese p
 atents. His research interests are on the development of ultra-low-power C
 MOS sensing/readout circuits and energy harvesting (EH) techniques for wir
 eless and biomedical applications.\n\nDr. Law is a TPC member of IEEE ISSC
 C. He is also the country representative of China for the ISSCC Far-East r
 egion in 2019. He was a co-recipient of the ASQED Best Paper Award in 2013
 \, the A-SSCC Distinguished Design Award in 2015\, the ASPDAC Best Design 
 Award in 2016\, and the Macao Science and Technology Invention Award (Seco
 nd Class) by Macau Government–FDCT in 2014 and 2018. He is also the advi
 sor for student awards\, including the SSCS Pre-doctoral Achievement Award
  and the ISSCC Silkroad Award.\n\nSpeaker(s): Man-Kay Law\, \n\nVirtual: h
 ttps://events.vtools.ieee.org/m/283965
LOCATION:Virtual: https://events.vtools.ieee.org/m/283965
ORGANIZER:sameh@ieee.org
SEQUENCE:2
SUMMARY:IEEE EGYPT SSCS & CASS Joint Chapter seminar: High Efficiency Recon
 figurable Monolithic Switched-Capacitor DC-DC Converter by Man-Kay Law
URL;VALUE=URI:https://events.vtools.ieee.org/m/283965
X-ALT-DESC:Description: <br /><p><strong>Title</strong></p>\n<p><strong>&nb
 sp\;</strong></p>\n<p><strong>High Efficiency Reconfigurable Monolithic Sw
 itched-Capacitor DC-DC Converter</strong></p>\n<p><strong>&nbsp\;</strong>
 </p>\n<p><strong>Abstract</strong></p>\n<p><strong>&nbsp\;</strong></p>\n<
 p>The recent wireless sensing and emerging Internet-of-Thing (IoT) market 
 have enabled the development of miniaturized systems with different applic
 ation requirements. While highly efficient power management is mandatory t
 o ensure the system performance and operation lifetime\, on-chip inductive
  power converters generally exhibits increased manufacturing cost despite 
 of their higher achievable power densities. Due to the full integration to
 gether with high energy efficiency and adaptability\, reconfigurable switc
 hed-capacitor (SC) DC-DC converters are promising for ultra-compact on-chi
 p power solutions. This talk will first cover the basic operations and con
 trol methodologies of SC DC-DC converters. It will then introduce the conv
 entional SC DC-DC topologies\, followed by the fundamental analyses and di
 fferent loss mechanisms. Advanced reconfigurable SC DC-DC converters capab
 le of systematic multiple rational voltage conversion ratio (VCR) generati
 on and their fundamental limits will also be proposed\, and further compar
 ed with the state-of-the-art. Adaptive gate driving techniques with consis
 tent switch driving voltage while preventing reversion loss under wide vol
 tage dynamics will also be introduced. These techniques enable highly effi
 cient SC power converters with better SoC integration for next generation 
 ultra-compact low-cost IoT devices.</p>\n<p>&nbsp\;</p>\n<p><strong>Speake
 r&rsquo\;s Biography</strong></p>\n<p><strong>&nbsp\;</strong></p>\n<p>Man
 -Kay Law received the B.Sc. degree in computer engineering and the Ph.D. d
 egree in electronic and computer engineering from the Hong Kong University
  of Science and Technology (HKUST)\, Hong Kong\, in 2006 and 2011\, respec
 tively.</p>\n<p>In 2011\, he joined HKUST as a Visiting Assistant Professo
 r. He is currently an Associate Professor with the State Key Laboratory of
  Analog and Mixed-Signal VLSI\, Institute of Microelectronics\, University
  of Macau\, Macau\, China. He has authored and coauthored more than 90 tec
 hnical publications\, and holds six U.S./Chinese patents. His research int
 erests are on the development of ultra-low-power CMOS sensing/readout circ
 uits and energy harvesting (EH) techniques for wireless and biomedical app
 lications.</p>\n<p>Dr. Law is a TPC member of IEEE ISSCC. He is also the c
 ountry representative of China for the ISSCC Far-East region in 2019.&nbsp
 \; He was a co-recipient of the ASQED Best Paper Award in 2013\, the A-SSC
 C Distinguished Design Award in 2015\, the ASPDAC Best Design Award in 201
 6\, and the Macao Science and Technology Invention Award (Second Class) by
  Macau Government&ndash\;FDCT in 2014 and 2018. He is also the advisor for
  student awards\, including the SSCS Pre-doctoral Achievement Award and th
 e ISSCC Silkroad Award.</p>
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