BEGIN:VCALENDAR VERSION:2.0 PRODID:IEEE vTools.Events//EN CALSCALE:GREGORIAN BEGIN:VTIMEZONE TZID:Australia/Sydney BEGIN:DAYLIGHT DTSTART:20211003T030000 TZOFFSETFROM:+1000 TZOFFSETTO:+1100 RRULE:FREQ=YEARLY;BYDAY=1SU;BYMONTH=10 TZNAME:AEDT END:DAYLIGHT BEGIN:STANDARD DTSTART:20210404T020000 TZOFFSETFROM:+1100 TZOFFSETTO:+1000 RRULE:FREQ=YEARLY;BYDAY=1SU;BYMONTH=4 TZNAME:AEST END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20210615T064300Z UID:7A5B9D9F-CE84-48DC-8B5E-F3710D6EDFA7 DTSTART;TZID=Australia/Sydney:20210618T160000 DTEND;TZID=Australia/Sydney:20210618T170000 DESCRIPTION:Topic: The 3D Smith Chart - From Theory to Experimental Reality \n\nPresenter: Dr. Andrei A. Muller\n\nThe talk will present the theory an d applications of the 3D Smith chart concept and tool. It will present the construction of the chart and its use of passive and active microwave cir cuit design. Active circuits with negative resistance are mapped in the so uth hemisphere of the chart (exterior of the classical Smith chart-extendi ng to infinity in 2D) while the classical Smith chart is embodied in the N orth hemisphere. Circle shapes are kept intact while the matching problems become simple navigations towards the North Pole.\n\nFurther\, the 3D spa ce around the chart is used to spot the clockwise and counter-clockwise fr equency sweeping orientation of various S parameters-allowing its use in n egative capacitance and meta-material circuit use too.\n\nThe talk will sh ow how one uses the 3D Smith Chart tool to solve\n\n- classical Smith char t matching problems on latitude\, longitude and various circles on the 3D Smith chart sphere- North hemisphere\n- amplifier stability problems South & North hemisphere\n- oscillator problems-South hemisphere\n- negative cap acitance\n- complex-scalar optimization of various frequency-dependent par ameters\n\nThe talk is based on the http://www.3dsmithchart.com/ and artic les listed below.\n\nThe registered participants of the talk can get acces s to the 3D Smith chart trial tool.\n\nSelected publications\n\n- Muller\ , et al.“The 3D Smith Chart: From Theory to Experimental Reality”\, IE EE Microwave Magazine\, vol 21\, no 11\, pp. 22-35 Nov. 2020.\n- Mulleret al.\, 3D Smith charts scattering parameters frequency-dependent orientati on analysis and complex-scalar multi-parameter characterization applied to Peano reconfigurable vanadium dioxide inductors\, Nature Scientific Repor ts\, 9\, 18346\, Dec. 2019.\n- A Muller\, E. Sanabria-Codesal\, A. Moldove anu\, V. Asavei\, S. Lucyszyn\, “ Extended Capabilities of the 3D Smith chart with group delay and resonator quality factor” IEEE Transactions o n Microwave Theory and Techniques\, vol. 65\, No. 1. pp. 10-19\, Jan. 2017 .\n- Muller\, S. Lucyszyn\, 'Properties of purely reactive Foster and non -Foster passive networks'" IET Electronics Letters\, vol. 51\, no. 23 \, p p. 1882-1884\, Nov. 2015.\n- Mulleret al.\, “Apollonius Unilateral Tran sducer Power Gain Circles on 3D Smith charts\,” IET Electronics Letters\ , vol. 50 no. 21\, pp. 1531-1533\, Oct. 2014.\n- Muller\, P. Soto\, D. Da scalu\, and V.E. Boria\, “The Practical Applications of the 3D Smith cha rt”\, Microwave Journal\, vol. 55\, no. 7\, pp. 64-72\, July 2012.\n- M uller\, P. Soto\, D. Dascalu\, D. Neculoiu and V.E. Boria\, “A 3D Smith Chart based on the Riemann Sphere for Active and Passive Microwave Circuit s\,” IEEE Microwave and Wireless Components Letters\, vol. 21\, no. 6\, pp. 286- 288\, June 2011\n\nCo-sponsored by: Tainan Section Chapter\, MTT1 7\, Taipei Section Chapter\, MTT17\n\nSpeaker(s): Dr Andrei A. Muller\, \n \nSydney\, New South Wales\, Australia\, Virtual: https://events.vtools.ie ee.org/m/273923 LOCATION:Sydney\, New South Wales\, Australia\, Virtual: https://events.vto ols.ieee.org/m/273923 ORGANIZER:syed.abbas@mq.edu.au SEQUENCE:2 SUMMARY:The 3D Smith Chart: From Theory to Experimental Reality URL;VALUE=URI:https://events.vtools.ieee.org/m/273923 X-ALT-DESC:Description: <br /><p><strong>Topic: The 3D Smith Chart - From T heory to Experimental Reality</strong></p>\n<p><strong>Presenter: Dr. Andr ei A. Muller</strong></p>\n<p>The talk will present the theory and applica tions of the 3D Smith chart concept and tool. It will present the construc tion of the chart and its use of passive and active microwave circuit desi gn. Active circuits with negative resistance are mapped in the south hemis phere of the chart (exterior of the classical Smith chart-extending to inf inity in 2D) while the classical Smith chart is embodied in the North hemi sphere. Circle shapes are kept intact while the matching problems become s imple navigations towards the North Pole.</p>\n<p>Further\, the 3D space a round the chart is used to spot the clockwise and counter-clockwise freque ncy sweeping orientation of various S parameters-allowing its use in negat ive capacitance and meta-material circuit use too.</p>\n<p>The talk will s how how one uses the 3D Smith Chart tool to solve</p>\n<ul>\n<li>classical Smith chart matching problems on latitude\, longitude and various circles on the 3D Smith chart sphere- North hemisphere</li>\n<li>amplifier stabil ity problems South&amp\; North hemisphere</li>\n<li>oscillator problems-So uth hemisphere</li>\n<li>negative capacitance</li>\n<li>complex-scalar opt imization of various frequency-dependent parameters</li>\n</ul>\n<p>The ta lk is based on the http://www.3dsmithchart.com/&nbsp\; and articles listed below.</p>\n<p>The registered participants of the talk can get access to the 3D Smith chart trial tool.</p>\n<p><strong>Selected publications</stro ng></p>\n<ol>\n<li><strong> Muller\,&nbsp\;</strong>et al.&ldquo\;The 3D S mith Chart: From Theory to Experimental Reality&rdquo\;\,&nbsp\;<strong>IE EE Microwave Magazine</strong>\, vol 21\, no 11\, pp. 22-35 Nov.&nbsp\;<st rong><u>2020</u></strong>.</li>\n<li><strong> Muller</strong>et al.\,&nbsp \;<strong>3D Smith charts</strong>&nbsp\;scattering parameters frequency-d ependent orientation analysis and complex-scalar multi-parameter character ization applied to Peano reconfigurable vanadium dioxide inductors\,&nbsp\ ;<strong>Nature Scientific</strong>&nbsp\;<strong>Reports</strong>\, 9\, 1 8346\, Dec.&nbsp\;<strong><u>2019</u></strong>.</li>\n<li><strong>A Muller </strong>\, E. Sanabria-Codesal\, A. Moldoveanu\, V. Asavei\, S. Lucyszyn\ , &ldquo\; Extended Capabilities of the 3D Smith chart with group delay an d resonator quality factor&rdquo\;&nbsp\;<strong>IEEE Transactions on Micr owave Theory and Techniques</strong>\, vol. 65\, No. 1. pp. 10-19\, Jan.&n bsp\;<strong><u>2017</u></strong>.</li>\n<li><strong> Muller</strong>\, S. Lucyszyn\, 'Properties of purely reactive Foster and non-Foster passive n etworks'"&nbsp\;<strong>IET Electronics Letters</strong>\, vol. 51\, no. 2 3 \, pp. 1882-1884\, Nov.&nbsp\;<strong><u>2015</u></strong>.</li>\n<li><s trong> Muller</strong>et al.\, &ldquo\;Apollonius Unilateral Transducer Po wer Gain Circles on 3D Smith charts\,&rdquo\;&nbsp\;<strong>IET Electronic s Letters</strong>\, vol. 50 no. 21\, pp. 1531-1533\, Oct.&nbsp\;<strong>< u>2014</u></strong>.</li>\n<li><strong> Muller</strong>\, P. Soto\, D. Das calu\, and V.E. Boria\, &ldquo\;The Practical Applications of the 3D Smith chart&rdquo\;\,&nbsp\;<strong>Microwave Journal</strong>\, vol. 55\, no. 7\, pp. 64-72\, July&nbsp\;<strong><u>2012</u></strong>.</li>\n<li><strong > Muller</strong>\, P. Soto\, D. Dascalu\, D. Neculoiu and V.E. Boria\, &l dquo\;A 3D Smith Chart based on the Riemann Sphere for Active and Passive Microwave Circuits\,&rdquo\;&nbsp\;<strong>IEEE Microwave and Wireless Com ponents Letters</strong>\, vol. 21\, no. 6\, pp. 286- 288\, June&nbsp\;<st rong><u>2011</u></strong></li>\n</ol>\n<p>&nbsp\;</p> END:VEVENT END:VCALENDAR