BEGIN:VCALENDAR VERSION:2.0 PRODID:IEEE vTools.Events//EN CALSCALE:GREGORIAN BEGIN:VTIMEZONE TZID:Canada/Eastern BEGIN:DAYLIGHT DTSTART:20200308T030000 TZOFFSETFROM:-0500 TZOFFSETTO:-0400 RRULE:FREQ=YEARLY;BYDAY=2SU;BYMONTH=3 TZNAME:EDT END:DAYLIGHT BEGIN:STANDARD DTSTART:20201101T010000 TZOFFSETFROM:-0400 TZOFFSETTO:-0500 RRULE:FREQ=YEARLY;BYDAY=1SU;BYMONTH=11 TZNAME:EST END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20210201T033533Z UID:206B12DE-6C48-4316-A5A9-B20A687028A5 DTSTART;TZID=Canada/Eastern:20200806T150000 DTEND;TZID=Canada/Eastern:20200806T160000 DESCRIPTION:There is an increasing demand for low-cost millimeter-wave (mmW ave) systems that operate in the 60\, 94 GHz\, and recently 28 GHz bands f or Gbps data rate communication and imaging applications. Typical applicat ions in the 60 GHz band demanding Gbps data rates include wireless gigabit Ethernet and wireless uncompressed high-definition video. Large available spectrums\, short wavelengths\, and the ability to operate in dusty and f oggy conditions have made mmWave frequencies at 94 GHz attractive for high -resolution imaging applications.\n\nSignificant momentum has started to b uild around the 5G wireless communication technologies. It is expected tha t 5G mobile communication systems will become commercially available somet ime around 2020. The objectives for developing 5G cellular networks includ e higher capacity\, higher data rate\, lower end-to-end latency\, massive device connectivity\, reduced cost and consistent Quality of Experience pr ovisioning. For 5G radio access infrastructure such as base stations\, one of the key enabling technologies is mmWave beam-forming. 28 GHz band is o ne of the candidate bands for 5G applications. Many of these mmWave system s require phased arrays. Recent advances in silicon technologies have enab led single chip solutions\, making these technologies more commercially at tractive. However\, for the mmWave market to flourish\, not only are low-c ost devices solutions required\, but also low-cost antenna and packaging s olutions. The short wavelength at mmWave frequencies allows antennas to be embedded within a package or integrated on a chip.\n\nAntenna-in-package solutions have been recognized to have advantages over antenna-on-chip sol utions in bandwidth\, radiation efficiency\, and low cost due to RFIC die area usage and design flexibility. The realization of robust\, efficient a nd broadband mmWave antennas within a multilayer organic (MLO) package is challenging due to assembly difficulties\, material selection\, and manufa cturing tolerances. This presentation will discuss these challenges and so me solutions based on our group’s past 16 years mmWave research works.\n \nPlease use the link in the registration section to sign up for the event .\n\nEvent Webex password is 0000\n\nTo join event use the following [link .](https://ieeemeetings.webex.com/ieeemeetings/onstage/g.php?MTID=eb42b7ae 02e69782bcdddd21e4ff2a636)\n\nSpeaker(s): Dr. Duixian Liu\, \n\nWebinar\, Ottawa\, Ontario\, Canada LOCATION:Webinar\, Ottawa\, Ontario\, Canada ORGANIZER:aabdella.ieee@gmail.com SEQUENCE:12 SUMMARY:IEEE Ottawa AP/MTT Webinar: Organic Antenna-In-Package Designs for Millimeter Wave Applications URL;VALUE=URI:https://events.vtools.ieee.org/m/236390 X-ALT-DESC:Description: <br /><p>There is an increasing demand for low-cost millimeter-wave (mmWave) systems that operate in the 60\, 94 GHz\, and re cently 28 GHz bands for Gbps data rate communication and imaging applicati ons. Typical applications in the 60 GHz band demanding Gbps data rates inc lude wireless gigabit Ethernet and wireless uncompressed high-definition v ideo. Large available spectrums\, short wavelengths\, and the ability to o perate in dusty and foggy conditions have made mmWave frequencies at 94 GH z attractive for high-resolution imaging applications.</p>\n<p>Significant momentum has started to build around the 5G wireless communication techno logies. It is expected that 5G mobile communication systems will become co mmercially available sometime around 2020. The objectives for developing 5 G cellular networks include higher capacity\, higher data rate\, lower end -to-end latency\, massive device connectivity\, reduced cost and consisten t Quality of Experience provisioning. For 5G radio access infrastructure s uch as base stations\, one of the key enabling technologies is mmWave beam -forming. 28 GHz band is one of the candidate bands for 5G applications. M any of these mmWave systems require phased arrays. Recent advances in sili con technologies have enabled single chip solutions\, making these technol ogies more commercially attractive. However\, for the mmWave market to flo urish\, not only are low-cost devices solutions required\, but also low-co st antenna and packaging solutions. The short wavelength at mmWave frequen cies allows antennas to be embedded within a package or integrated on a ch ip.</p>\n<p>Antenna-in-package solutions have been recognized to have adva ntages over antenna-on-chip solutions in bandwidth\, radiation efficiency\ , and low cost due to RFIC die area usage and design flexibility. The real ization of robust\, efficient and broadband mmWave antennas within a multi layer organic (MLO) package is challenging due to assembly difficulties\, material selection\, and manufacturing tolerances. This presentation will discuss these challenges and some solutions based on our group&rsquo\;s pa st 16 years mmWave research works.</p>\n<p class="m_-366764601891485765par agraph"><strong><span class="m_-366764601891485765normaltextrun">Please us e the link in the registration section to&nbsp\;sign up&nbsp\;for the even t.</span></strong></p>\n<p class="m_-366764601891485765paragraph"><strong> <span class="m_-366764601891485765normaltextrun">Event Webex password is 0 000</span></strong></p>\n<p class="m_-366764601891485765paragraph"><strong ><span class="m_-366764601891485765normaltextrun">To join event use the fo llowing&nbsp\;<a href="https://ieeemeetings.webex.com/ieeemeetings/onstage /g.php?MTID=eb42b7ae02e69782bcdddd21e4ff2a636">link.</a></span></strong></ p> END:VEVENT END:VCALENDAR