- RF isolators are usually employed in RF front-end chains to prevent active stages to be damaged by the presence of RF signal-power reflections created by the passive stages (e.g., RF bandpass filters) in their stopband regions. Indeed, such RF signal-power reflections may induce RF amplifiers to operate in the non-linear regime or to create additional undesired mixing products in frequency-conversion stages. Whereas passive and active RF isolators avoid this problem, this is done at the expense of higher size/volume and increased DC power consumption, respectively, and higher cost. A more-efficient solution that is recently gaining considerable research attention may be the exploitation of “reflectionless” RF passive devices, where the out-of-band signal energy is dissipated inside the circuit instead of being reflected back to the source so that RF isolators are no longer needed. The purpose of this webinar is to familiarize the audience with the emerging topic of reflectionless/absorptive RF passive components, which may result in considerabe benefits for emerging RF front-end chains of new wireless systems (e.g., 5G and beyond) in terms of energy-efficiency/DC-power-saving, overall size/volume, and cost. After introducing the problems of RF power reflections in RF front-end chains and classic solutions to circumvent them with their limitations, the main strategies for the design of reflectionless RF passive components as new paradigm will be described. This includes both mono-functional and multi-functional RF devices in which several RF-analog-signal-processing actions are co-integrated together. Experimental results of several proof-of-concept demonstrators in a variety of technologies will be also presented.- ((https://event.on24.com/wcc/r/3163978/4F7325FDD420E2D01C577D50464C4FB5))Title: Avoiding RF Isolators - Reflectionless Filtering Components for Emerging Wireless SystemsDate: Tuesday, November 09, 2021Time: 12:00 PM Eastern Standard TimeDuration: 1 hourCo-sponsored by: IEEE North Jersey SectionSpeaker(s): Prof. Roberto Gomez-Garcia , Agenda: - ((https://event.on24.com/wcc/r/3163978/4F7325FDD420E2D01C577D50464C4FB5))Title: Avoiding RF Isolators - Reflectionless Filtering Components for Emerging Wireless SystemsDate: Tuesday, November 09, 2021Time: 12:00 PM Eastern Standard TimeDuration: 1 hourBldg: Virtual , Virtual Technical Webinar Meeting, Virtual, New Jersey, United States
NOTICE - This session will be paid for by the North Jersey Section PES as a courtesy to our members and prospective members during these challenging times of COVID-19. There will be no charge for participation and Continuing Education Unit credits.This session is being offered as a GoToMeeting (details below).The seminar will cover:Distribution Voltage Regulation Series: Methods to Regulate the Voltage on the Distribution GridIntroduction: This is a 10 - session presentation meant to assist engineers in designing the proper voltage regulationarchitecture for the distribution grid. Each session takes approximately 45-50 minutes with a 10-15minute period at the end for questions. The presentations should prove beneficial to technicians andengineers responsible for distribution standards and design, distribution planning engineers, powerquality engineers as well as SCADA/ communications engineers. Below is a brief description of eachsession.Part 9) Advanced FeaturesThis session covers advanced features in regulator/LTC controls as well as capacitor controls. Thissession is looks at how this features can help assist in detecting power quality issues as well as tovalidate distribution feeder models for both fault power and load allocations. Advanced features datatrending, harmonic monitoring, waveform capture, sequence-of-events and predictive maintenancefeatures.Part 10) Putting it all TogetherThis final session summarizes the entire series and shows example feeder designs using the principalsdiscussed throughout the sessions.Speaker(s): Bob McFetridge, Agenda: Two hours of instruction will be provided.This session is being offered as a GoToMeeting:https://global.gotomeeting.com/join/778848693You must register through VTools in advance in order to receive your CEU Certificate. PLEASE NOTE: Your certificate will go to the email address you use to register through VTools and will have your name exactly as you enter it when registering. It will come from “IEEE Certificate ” Please make sure this address is in your safe senders list. If you have any problems with receipt of your CEU Certificates, please contact eab-ceuadmin@ieee.orgPlease check your GoToMeeting connection in advance as there will be no support available.Virtual: https://events.vtools.ieee.org/m/281560
In this talk, the speaker proposes hybrid field integral equations (HFIEs) for describing the EM problems with penetrable media or lossy conductors, and extends to augmented HFIEs (AHFIEs) for low-frequency analysis. The HFIEs consist of the EFIE of describing the exterior of the object and the MFIE of describing its interior. Since the magnetic current density appears in the L operator in the HFIEs, we select the magnetic charge density as a new unknown function to be solved and introduce the continuity equation of magnetic current density as an extra equation, in addition to selecting the electric charge density as a new unknown function to be solved and introducing the continuity equation of electric current density as an extra equation in the traditional augmentation. The technique can be applied to the augmentation for all other integral equations including the CFIEs, PMCHWT equations, Müller equations, and VSIEs since the L operator can act on both electric and magnetic current densities. The augmented integral equations are solved by MoM where the RWG and Schaubert-Wilton-Glisson (SWG) basis functions are used to represent the surface current densities of AHFIEs and volume current densities of VIEs, respectively, while a pulse basis function is employed to represent the charge densities of AHFIEs. The complicated DBF is not needed anymore because both the electric and magnetic current densities can be represented by the RWG basis function in the SIEs and resultant system matrices can still be well-conditioned. Numerical examples are presented to illustrate the approach and good results have been obtained.Event Time:10:00 PM to 11:00 PMPlease find below the Zoom meeting link:https://us02web.zoom.us/j/9514547039Meeting ID: 951 454 7039Passcode: 201560You do not have to be an IEEE Member to attend.Co-sponsored by: North Jersey AP01/MTT17 ChapterSpeaker(s): Prof. Meisong Tong, Agenda: Event Time:10:00 PM to 11:00 PMPlease find below the Zoom meeting link:https://us02web.zoom.us/j/9514547039Meeting ID: 951 454 7039Passcode: 201560You do not have to be an IEEE Member to attend.Virtual Online Zoom Meeting Location: At Home, Elmwood Park, New Jersey, United States, 07407
This keynote lecture aims at a broad-brush look at certain teaching/training challenges that confront wave-oriented EM engineering in the 21st century, in a complex computer and technology-driven world with rapidly shifting societal and technical priorities. The lecture also discusses modeling and simulation strategies pertaining to complex EM problems and supplies several user-friendly virtual tools, most of which have been presented in the IEEE AP Magazine and which are very effective in teaching and training in lectures such as EM Wave Theory, Antennas, and Radiowave Propagation, EM Scattering and Diffraction, Guided Wave Theory, Microstrip Circuit Design, Radar Cross Section Prediction, Transmission Lines, Metamaterials, etcCo-sponsored by: IEEE North Jersey SectionSpeaker(s): Dr. Levent Sevgi, Agenda: Event Time: 6:00P M to 8:00 PMVenue: Kiernan Conference Room (ECE 202), ECEC, NJIT, NewarkTalk by Prof. Levent Sevgi, OKAN University, Engineering Faculty, Tuzla – İSTANBULSeminar in ECE 202 All Welcome: There is no fee/charge for attending IEEE technical seminar. You don't have to be an IEEE Member to attend. Refreshment is free for all attendees. Please invite your friends and colleagues to take advantage of this Invited Distinguished Lecture.Room: 202, Bldg: ECEC, 154 Summit Street, Newark, NJ 07102, NJIT, Newark, New Jersey, United States, 07102
On Thursday, November 18, 2021, the (https://www.TechnologyOnTap.org) will host Part 1 of a presentation on "New audio/video/wireless technologies for Home Entertainment". Please (https://www.technologyontap.org/event/new-audio-video-wireless-technologies-for-home-entertainment-part-1/) to receive a link to the meeting.About the TopicHDTV, UHDTV, HDR, HEVC, NextGenTV … what’s it all about? This two-part series will describe what these technologies are, and how to sift through all of it. Understand how audio and video devices in your home and in your hand can now deliver content in a near-reality fashion by both wired and wireless means.Part 1 will discuss new audio/video technologies, Part 2 will cover the new NextGenTV system for over-the-air content delivery.About the Speaker(https://www.linkedin.com/in/acugnini/) is well known in the Digital Television (DTV) industry, and has clients that include Philips, ONEMedia, and WNET-13. Prior to launching (https://www.agcsystems.tv/), he held various technical and management positions at Philips Electronics’ Research and Consumer Electronics Divisions, and at interactive television systems developer ACTV. While at Philips, Aldo had a leadership role in the development of the ATSC digital television system (and its progenitor, the “Grand Alliance” digital HDTV system), and was a key member of the Advanced Television Research Consortium (ATRC) HDTV development team.Agenda: IntroductionSpeaker presentationQuestionsNetworkingVirtual: https://events.vtools.ieee.org/m/287378
The IEEE North Jersey Section is pleased to announce its annual End-of-the-Year Dinner-Meeting Event.Our section officers serve a two-year term and the 2021 ExCom officers for the North Jersey Section will continue their term until December 2022.Please register for the event in advance as the venue requires the exact number of attendees to be given in advance.The section chair has organized gift items as a token of appreciation for all the officers of our section, so please don't forget to register yourself, so you may receive your gift at the venue.You may bring one guest (complimentary by the Section), and also make sure to register your guest before Nov. 15th for the attendee headcount.PLEASE REGISTER YOURSELF (and your guest - if any) before the registration deadline of November 15th, 2021.Co-sponsored by: IEEE North Jersey SectionAgenda: Registration is required for all before November 15th, 2021Room: Embassy Room, Bldg: Hanover Manor, 16 Eagle Rock Ave., East Hanover, New Jersey, United States, 07936
IEEE North Jersey Section is pleased to bring you this new online course developed and presented by Berkeley Nucleonics Academy. You are invited to enroll in our new Quantum Computing Course! QC 01 - The Nuts and Bolts (and Qubits) of Quantum Computing. This exclusive course will dive into the immersive world of quantum computing. Take quizzes, watch videos and get current knowledge of quantum computing from experts in the industry. Sign up and learn more about the most trending topic in the science and tech world.- Course Start Date: Wednesday, 12/1/2021- Course End Date: Wednesday, 1/26/2022Co-sponsored by: David Gil, Berkeley Nucleonics dgil@berkeleynucleonics.comSpeaker(s): David A. Brown, Agenda: Topics of the Course:- Quantum Computing Introduction- A Deep Dive into QC Terminology- The Basics of Quantum Computing- The Hardware Layers of Quantum Computing- Models of Quantum Computing- Approaches to Quantum Computing- Quantum Computing Today- The Future of Quantum Computing- How to Gain Access to a Quantum Computer- Quantum Computing Careers- Summary: Today's Questions- Appendix A: Glossary- Appendix B: What the Industry is SayingLearning Outcomes- Introducing registrants to Quantum Computing.- The registrant will receive 2.2 CEU credits upon full completion of the two courses (22 hrs).- Will receive the Hard Copy and E-Book with purchaseVirtual: https://events.vtools.ieee.org/m/289068
This webinar is intended for engineers who design RF frontends and RF power amplifiers and strive for the best possible error vector magnitude (EVM) performance. We will introduce a new joint solution for linearization developed together with Cadence.Date: Wednesday, Dec 01, 2021Time: 2:00 PM (EDT)Duration: 1 hourFor login information and password, please register by clicking the online link: (https://smc-link.s4hana.ondemand.com/eu/data-buffer/sap/public/cuan/link/100/43EBEDCF32733FFF78CF10B4B1E572DB20D8B734?_V_=2&_K11_=1352D79C70DC3D1F997A9F0937D1C0E417EE7243&_L54AD1F204_=c2NlbmFyaW89TUxDUEcmdGVuYW50PW15MzAyMDM5LnM0aGFuYS5vbmRlbWFuZC5jb20mdGFyZ2V0PWh0dHBzOi8vZXZlbnQub24yNC5jb20vd2NjL3IvMzQ4NjcyOS9GQ0I2OERGMjgwMjQzN0M2NEYyRjNGNTI4NEY3MDZCNC8zMDgwNjc5P3BhcnRuZXJyZWY9bmFfbTRjX18&_K13_=339&_K14_=38b757884f701211c81560de1c280c8ab03568312027674ee63d6fdbdfcdcee5)Co-sponsored by: IEEE North Jersey SectionSpeaker(s): Dr. Gent Paparisto, Dr. Florian RamianAgenda: Date: Wednesday, Dec 01, 2021Time: 2:00 PM (EDT)Duration: 1 hourFor login information and password, please register by clicking the online link: (https://smc-link.s4hana.ondemand.com/eu/data-buffer/sap/public/cuan/link/100/43EBEDCF32733FFF78CF10B4B1E572DB20D8B734?_V_=2&_K11_=1352D79C70DC3D1F997A9F0937D1C0E417EE7243&_L54AD1F204_=c2NlbmFyaW89TUxDUEcmdGVuYW50PW15MzAyMDM5LnM0aGFuYS5vbmRlbWFuZC5jb20mdGFyZ2V0PWh0dHBzOi8vZXZlbnQub24yNC5jb20vd2NjL3IvMzQ4NjcyOS9GQ0I2OERGMjgwMjQzN0M2NEYyRjNGNTI4NEY3MDZCNC8zMDgwNjc5P3BhcnRuZXJyZWY9bmFfbTRjX18&_K13_=339&_K14_=38b757884f701211c81560de1c280c8ab03568312027674ee63d6fdbdfcdcee5)Bldg: Virtual , Virtual Technical Webinar Meeting, Virtual, New Jersey, United States
