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DTSTAMP:20250525T141739Z
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DTSTART;TZID=America/New_York:20250403T123000
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DESCRIPTION:The presentation highlights the use of interferometric techniqu
 es in millimeter wave systems such as high data-rate communication systems
 \, radar sensors or broadband quadrature interferometric mixers. The main 
 advantage of these mixers\, compared to conventional ones\, are the reduce
 d power requested for the operation. The fabrication technologies used are
  MHMIC\, RW\, SIW. All circuits and modules are designed and characterised
  in our millimeter- wavelaboratory. Fabrication uses outside facilities. A
 s an initial step\, computer models based on the VNA measurements are used
  in computer simulations of the systems to validate the architecture and f
 unctionality. This allows important cost reduction on module/transceiver p
 rototypes. Test benches and some measurement results of the fabricated pro
 totypes\, from 24 GHz up to 90 GHz are presented and discussed. Future wor
 k will include designs at higher frequency\, over D-band (110 - 170 GHz)\,
  to meet the ongoing requirements of the academia and industry.\n\nSpeaker
 (s): Prof. Serioja Ovidiu Tatu\, \n\nVirtual: https://events.vtools.ieee.o
 rg/m/472237
LOCATION:Virtual: https://events.vtools.ieee.org/m/472237
ORGANIZER:aabdella@ieee.org
SEQUENCE:27
SUMMARY:INRS-EMT Millimeter Wave Laboratory: Circuits\, Modules and Interfe
 rometric Systems
URL;VALUE=URI:https://events.vtools.ieee.org/m/472237
X-ALT-DESC:Description: <br /><p><img style="display: block\; margin-left: 
 auto\; margin-right: auto\;" src="https://events.vtools.ieee.org/vtools_ui
 /media/display/d68fb0d7-0145-407e-a463-ed3bc4ebb721" width="582" height="3
 27"></p>\n<p>The presentation highlights the use of interferometric techni
 ques in millimeter wave systems such as high data-rate communication syste
 ms\, radar sensors or broadband quadrature&nbsp\;interferometric mixers. T
 he main advantage of these mixers\, compared to conventional ones\, are&nb
 sp\;the reduced power requested for the operation. The fabrication technol
 ogies used are MHMIC\,&nbsp\;RW\, SIW. All circuits and modules are design
 ed and characterised in our millimeter- wavelaboratory. Fabrication uses o
 utside facilities. As an initial step\, computer models based on the&nbsp\
 ;VNA measurements are used in computer simulations of the systems to valid
 ate the architecture and functionality. This allows important cost reducti
 on on module/transceiver prototypes. Test benches and some measurement res
 ults of the fabricated prototypes\, from 24 GHz up to 90 GHz are presented
  and discussed. Future work will include designs at higher frequency\, ove
 r D-band&nbsp\;(110 - 170 GHz)\, to meet the ongoing requirements of the a
 cademia and industry.&nbsp\;</p>
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