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PRODID:IEEE vTools.Events//EN
CALSCALE:GREGORIAN
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TZID:Asia/Taipei
BEGIN:STANDARD
DTSTART:19790930T230000
TZOFFSETFROM:+0900
TZOFFSETTO:+0800
TZNAME:CST
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BEGIN:VEVENT
DTSTAMP:20231128T155113Z
UID:11F6DD22-96CB-43F2-9FF9-C8BCD586308A
DTSTART;TZID=Asia/Taipei:20230922T163000
DTEND;TZID=Asia/Taipei:20230922T173000
DESCRIPTION:Abstract：\n\nThe use of millimeter-wave communications in 5G 
 radios becomes viable if extensive beamforming is employed to\novercome th
 e high path loss and the power consumption is sufficiently low to afford f
 requent high-throughput connections for mobile devices. Recent beamforming
  receivers in the vicinity of 28 GHz draw\, per element\, 28 mW to 50 mW. 
 Moreover\, most reported receivers do not include complete on-chip LO synt
 hesis.\nA key observation in the design of beamforming receivers is that t
 he phase shift network typically consumes high power whether it appears in
  the RF path or the LO path. This presentation introduces a new technique 
 that avoids the bandwidth-loss-phase shift tradeoffs of conventional topol
 ogies. In addition\, several other new concepts are offered that reduce th
 e power with no noise figure penalty. Fabricated in TSMC’s 28-nm CMOS te
 chnology\, the eight-element prototype draws 166 mW\, achieving a minimum 
 noise figure of 3.7 dB\, a phase resolution of 11.7 degrees\, and an LO ji
 tter of 155 fs.\n\nBiography：\n\nBehzad Razavi is Professor of Electrica
 l Engineering at UCLA\, where he conducts research on analog and RF integr
 ated circuits. Prof. Razavi has served as an IEEE Distinguished Lecturer a
 nd published more than 200 papers and eight books. He has received nine IE
 EE best paper awards and six teaching and education awards\, and his books
  have been published in seven languages. He received the IEEE Pederson Awa
 rd in Solid-State Circuits and was recognized as one of the top ten author
 s in the 50-year history of the IEEE International Solid-State Circuits Co
 nference. He is a member of the US National Academy of Engineering and a f
 ellow of the US National Academy of Inventors.\n\nAgenda: \n\n\nRoom: 142\
 , Bldg: EE Bldg. No. 2.\, NTU\,No. 1\, Sec. 4\, Roosevelt Rd.\, Taipei\, T
 'ai-pei\, Taiwan
LOCATION:Room: 142\, Bldg: EE Bldg. No. 2.\, NTU\,No. 1\, Sec. 4\, Roosevel
 t Rd.\, Taipei\, T'ai-pei\, Taiwan
ORGANIZER:yudoliao@nctu.edu.tw
SEQUENCE:6
SUMMARY:A Low-Power 28-GHz Beamforming Receiver with On-Chip LO Synthesis
URL;VALUE=URI:https://events.vtools.ieee.org/m/387214
X-ALT-DESC:Description: <br /><p><strong>Abstract：</strong></p>\n<p>The u
 se of millimeter-wave communications in 5G radios becomes viable if extens
 ive beamforming is employed to<br />overcome the high path loss and the po
 wer consumption is sufficiently low to afford frequent high-throughput con
 nections for mobile devices. Recent beamforming receivers in the vicinity 
 of 28 GHz draw\, per element\, 28 mW to 50 mW. Moreover\, most reported re
 ceivers do not include complete on-chip LO synthesis.<br />A key observati
 on in the design of beamforming receivers is that the phase shift network 
 typically consumes high power whether it appears in the RF path or the LO 
 path. This presentation introduces a new technique that avoids the bandwid
 th-loss-phase shift tradeoffs of conventional topologies. In addition\, se
 veral other new concepts are offered that reduce the power with no noise f
 igure penalty. Fabricated in TSMC&rsquo\;s 28-nm CMOS technology\, the eig
 ht-element prototype draws 166 mW\, achieving a minimum noise figure of 3.
 7 dB\, a phase resolution of 11.7 degrees\, and an LO jitter of 155 fs.</p
 >\n<p>&nbsp\;</p>\n<p><strong>Biography：</strong></p>\n<p>Behzad Razavi 
 is Professor of Electrical Engineering at UCLA\, where he conducts researc
 h on analog and RF integrated circuits. Prof. Razavi has served as an IEEE
  Distinguished Lecturer and published more than 200 papers and eight books
 . He has received nine IEEE best paper awards and six teaching and educati
 on awards\, and his books have been published in seven languages. He recei
 ved the IEEE Pederson Award in Solid-State Circuits and was recognized as 
 one of the top ten authors in the 50-year history of the IEEE Internationa
 l Solid-State Circuits Conference. He is a member of the US National Acade
 my of Engineering and a fellow of the US National Academy of Inventors.</p
 ><br /><br />Agenda: <br /><p><img src="https://sscstc.web.nycu.edu.tw/wp-
 content/uploads/sites/381/2023/11/%E8%9E%A2%E5%B9%95%E6%93%B7%E5%8F%96%E7%
 95%AB%E9%9D%A2-2023-11-28-141930.jpg" /></p>
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