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DTSTAMP:20221026T161625Z
UID:65C32D68-38BB-4169-B73F-57EDD2A37E01
DTSTART;TZID=America/New_York:20221021T150000
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DESCRIPTION:Introduction of Battery Management System\n\nLithium-ion batter
 y is undoubtedly the key player in the\ncurrent global electrification tra
 nsition. Beside its\nadvantages of higher energy density and volumetric\nd
 ensity\, it is also more volatile compared to traditional\nlead-acid batte
 ries. Therefore\, proper management and\ncontrol of lithium-ion batteries 
 using an embedded\nsystem called battery management system or BMS is\nnece
 ssary. On the one hand\, BMS closely monitors each\nindividual cell in the
  battery pack via various sensors to\nestimate battery internal status. On
  the other hand\, BMS\ntimely communicate with other electronic control un
 its\n(ECU)\, e.g. inverter\, vehicle control unit\, in the system to\nprev
 ent abusing conditions that could accelerate battery\ndegradation or even 
 trigger catastrophic battery\nthermal runaway. This seminar will provide a
 n\nintroduction of BMS with some further explanation on the\nBMS algorithm
  and software development.\n\nSpeaker(s): Yiqi\, \n\nStorrs\, Connecticut\
 , United States\, Virtual: https://events.vtools.ieee.org/m/328099
LOCATION:Storrs\, Connecticut\, United States\, Virtual: https://events.vto
 ols.ieee.org/m/328099
ORGANIZER:jointpelspes@uconn.edu
SEQUENCE:2
SUMMARY:Invited Talk: Dr. Yiqi Liu
URL;VALUE=URI:https://events.vtools.ieee.org/m/328099
X-ALT-DESC:Description: <br /><p>Introduction of Battery Management System<
 br /><br />Lithium-ion battery is undoubtedly the key player in the<br />c
 urrent global electrification transition. Beside its<br />advantages of hi
 gher energy density and volumetric<br />density\, it is also more volatile
  compared to traditional<br />lead-acid batteries. Therefore\, proper mana
 gement and<br />control of lithium-ion batteries using an embedded<br />sy
 stem called battery management system or BMS is<br />necessary. On the one
  hand\, BMS closely monitors each<br />individual cell in the battery pack
  via various sensors to<br />estimate battery internal status. On the othe
 r hand\, BMS<br />timely communicate with other electronic control units<b
 r />(ECU)\, e.g. inverter\, vehicle control unit\, in the system to<br />p
 revent abusing conditions that could accelerate battery<br />degradation o
 r even trigger catastrophic battery<br />thermal runaway. This seminar wil
 l provide an<br />introduction of BMS with some further explanation on the
 <br />BMS algorithm and software development.</p>
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