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DTSTAMP:20211010T123036Z
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DTSTART;TZID=Israel:20210216T180000
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DESCRIPTION:Flexible high-speed systems and architectures have promising an
 d exciting applications at the intersection of communications\, imaging\, 
 medicine and deployable arrays. The flexibility is expressed in terms of e
 lectrical reconfigurability\, flexible circuit board materials\, and light
 weight\, bendy interconnects between remote array elements. In this talk I
  will present my work at Caltech’s High-speed and holistic IC laboratory
  in developing such systems. Two key elements in our flexible schemes are 
 the utilization of highly functional RFICs to minimize rigid component cou
 nt\, and a holistic\, modular design approach which is crucial to future s
 ize scaling. Through the talk I will present several exemplary architectur
 es for space\, power transfer\, communication and sensing applications\, a
 nd will discuss the high-level considerations\, implementation\, challenge
 s\, and potential uses of such systems.\n\nMatan Gal-Katziri received the 
 B.S. degrees in Physics and Electrical Engineering from Ben-Gurion Univers
 ity\, Beer-Sheva\, Israel in 2009\, and M.S. and Ph.D. degrees in electric
 al engineering from Caltech\, Pasadena\, CA\, USA\, in 2016 and 2020\, res
 pectively. He is currently a postdoctoral research associate in the depart
 ment of electrical engineering at Caltech\, Pasadena\, CA. He is a part of
  Caltech’s Solar-Space Power Program RF design team\, where his work on 
 flexible arrays sheets has won the 2020 IMS advanced practice award. His r
 esearch interests are high-frequency\, integrated\, and large-scale system
 s for medical\, environmental\, industrial and communications applications
 .\n\nVirtual: https://events.vtools.ieee.org/m/285059
LOCATION:Virtual: https://events.vtools.ieee.org/m/285059
ORGANIZER:shahar@ee.technion.ac.il
SEQUENCE:0
SUMMARY:A Flexible vision for RF ICs - Dr. Matan Gal-Katziri\, Caltech\, Pa
 sadena\, CA\, USA
URL;VALUE=URI:https://events.vtools.ieee.org/m/285059
X-ALT-DESC:Description: <br /><p>Flexible high-speed systems and architectu
 res have promising and exciting applications at the intersection of commun
 ications\, imaging\, medicine and deployable arrays. The flexibility is ex
 pressed in terms of electrical reconfigurability\, flexible circuit board 
 materials\, and lightweight\, bendy interconnects between remote array ele
 ments. In this talk I will present my work at Caltech&rsquo\;s High-speed 
 and holistic IC laboratory in developing such systems. Two key elements in
  our flexible schemes are the utilization of highly functional RFICs to mi
 nimize rigid component count\, and a holistic\, modular design approach wh
 ich is crucial to future size scaling. Through the talk I will present sev
 eral exemplary architectures for space\, power transfer\, communication an
 d sensing applications\, and will discuss the high-level considerations\, 
 implementation\, challenges\, and potential uses of such systems.</p>\n<p>
 <strong>Matan Gal-Katziri</strong>&nbsp\;received the B.S. degrees in Phys
 ics and Electrical Engineering from Ben-Gurion University\, Beer-Sheva\, I
 srael in 2009\, and M.S. and Ph.D. degrees in electrical engineering from 
 Caltech\, Pasadena\, CA\, USA\, in 2016 and 2020\, respectively. He is cur
 rently a postdoctoral research associate in the department of electrical e
 ngineering at Caltech\, Pasadena\, CA. He is a part of Caltech&rsquo\;s So
 lar-Space Power Program RF design team\, where his work on flexible arrays
  sheets has won the 2020 IMS advanced practice award. His research interes
 ts are high-frequency\, integrated\, and large-scale systems for medical\,
  environmental\, industrial and communications applications.</p>
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