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PRODID:IEEE vTools.Events//EN
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TZID:Australia/Victoria
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DTSTART:20201004T030000
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BEGIN:VEVENT
DTSTAMP:20210217T064307Z
UID:716E2F66-B56A-4E0F-93FE-7D930B13D103
DTSTART;TZID=Australia/Victoria:20210217T160000
DTEND;TZID=Australia/Victoria:20210217T170000
DESCRIPTION:This presentation will discuss the design and implementation of
  a single-layered slot antenna for in-band full duplex operation applicati
 ons at 5.8 GHz\, without the use of a coupler. High port isolation is achi
 eved by strong separation of the even-mode and odd-mode feeds. Microstrip-
 coupled coplanar waveguide is used at the transmit port to excite a steppe
 d-slot antenna in the odd mode. On the opposite side\, a microstrip T-junc
 tion power divider is employed at the receive port to feed two offset-fed 
 stepped-slot antennas in even-mode. Port isolation is further improved by 
 30 dB\, by using a lumped capacitor at the termination of the coplanar wav
 eguide. Equivalent circuit models are discussed to ease the impedance opti
 misation process.\n\nSpeaker(s): Anh Ngoc Nguyen\, \n\nMelbourne\, Victori
 a\, Australia\, Virtual: https://events.vtools.ieee.org/m/260734
LOCATION:Melbourne\, Victoria\, Australia\, Virtual: https://events.vtools.
 ieee.org/m/260734
ORGANIZER:fatemeh.babaeian@ieee.org
SEQUENCE:2
SUMMARY:A full duplex antenna for the 5.8 GHz ISM band
URL;VALUE=URI:https://events.vtools.ieee.org/m/260734
X-ALT-DESC:Description: <br /><p>This presentation will discuss the design 
 and implementation of a single-layered slot antenna for in-band full duple
 x operation applications at 5.8 GHz\, without the use of a coupler. High p
 ort isolation is achieved by strong separation of the even-mode and odd-mo
 de feeds. Microstrip-coupled coplanar waveguide is used at the transmit po
 rt to excite a stepped-slot antenna in the odd mode. On the opposite side\
 , a microstrip T-junction power divider is employed at the receive port to
  feed two offset-fed stepped-slot antennas in even-mode. Port isolation is
  further improved by 30 dB\, by using a lumped capacitor at the terminatio
 n of the coplanar waveguide. Equivalent circuit models are discussed to ea
 se the impedance optimisation process.</p>
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