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2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting
The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science
The IEEE International Microwave Symposium (IMS) is the world s foremost conference covering the UHF, RF, wireless, microwave, millimeter-wave, terahertz, and optical frequencies; encompassing everything from basic technologies to components to systems including the latest RFIC, MIC, MEMS and filter technologies, advances in CAD, modeling, EM simulation and more. The IMS includes technical and interactive sessions, exhibits, student competitions, panels, workshops, tutorials, and networking events.
IEEE COMCAS 2019 continues the tradition of providing a multidisciplinary forum for the exchange of ideas, research results, and industry experience in the areas of microwaves, communications, antennas, solid state circuits, electron devices, sensors, radar, bio-medical engineering and electronic systems engineering. It includes a technical program, industry exhibits, and invited talks by international experts in key topical areas.
This is a conference with a focus on wireless components, applications, and systems that impact both our current and future life style. The conference's main niche is to bring together technologists, circuit designers, system designers, and entrepreneurs at a single event. It was and is the place where these worlds meet, where new processes and systems can be benchmarked against the needs of circuit designers at the bleeding edge of RF systems, where today's design compromises can trigger tomorrow's advanced technologies. Where dreams can become a reality. RWS is the cornerstone conference for Radio Wireless Week.
The interest of Commission B is fields and waves, encompassing theory, analysis, computation, experiments, validation and applications. Areas of emphasis are 1) Time-domain and frequency-domain phenomena, 2) Scattering and diffraction, 3) General propagation including waves in specialised media, 4) Guided waves, 5) Antennas and radiation, and 6) Inverse scattering and imaging.The Commission fosters the creation, development, and refinement of analytical, numerical, and measurement techniques to understand these phenomena. It encourages innovation and seeks to apply interdisciplinary concepts and methods.
Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.
IEEE Antennas and Wireless Propagation Letters (AWP Letters) will be devoted to the rapid electronic publication of short manuscripts in the technical areas of Antennas and Wireless Propagation.
EMC standards; measurement technology; undesired sources; cable/grounding; filters/shielding; equipment EMC; systems EMC; antennas and propagation; spectrum utilization; electromagnetic pulses; lightning; radiation hazards; and Walsh functions
Measurements and instrumentation utilizing electrical and electronic techniques.
Focuses on applications of technical knowledge. IEEE Microwave Magazine concentrates on general-interest, applications-oriented articles as well as technical articles in the field of microwave theory and techniques including components, devices, circuits, and systems involving the generation, modulation, demodulation, control, transmission and detection of microwaves.
IEE Colloquium on Flat Plate and Low Profile Mobile Antennas, 1990
2007 IEEE Antennas and Propagation Society International Symposium, 2007
2007 IEEE Antennas and Propagation Society International Symposium, 2007
2008 IEEE Antennas and Propagation Society International Symposium, 2008
Microstrip antennas excite surface waves and produce lateral radiation, and these fields deteriorate the radiation pattern due to diffraction and also couple with neighboring patches in an array environment. Recently, microstrip antennas denoted as ldquoreduced-surface-waverdquo (RSW) antennas were developed that minimize the surface-wave excitation and lateral radiation (D. R. Jackson, et al., August 1993) (M. A. Khayat, et al., Oct. ...
Microstrip and Printed Antennas: New Trends, Techniques and Applications, None
Brooklyn 5G - 2015 - Edward G. Tiedemann Jr. - Multiple Antennas in Wireless Systems (MAWS)
PCB Fabrication Influences on Microwave Performance: MicroApps 2015 - Rogers Corporation
IMS 2014: Wideband mmWave Channels: Implications for Design and Implementation of Adaptive Beam Antennas
Micro-Apps 2013: Determining Circuit Material Dielectric Constant from Phase Measurements
MicroApps: Using Digitizers to Characterize Modern Phased Array Antennas
IEEE Edison Medal - Eli Yablonovich - 2018 IEEE Honors Ceremony
MicroApps: Connectors to Antennas to Waveguide: User-Confgurable and Parameterized 3D EM Model Libraries (AWR)
2011 IEEE Awards Alexander Graham Bell Medal - Arogyaswami J. Paulraj
Dorothy, we're not in Kansas anymore, we are in Impedance Land. Oh my! EMC Webinar
mmwave Phased Arrays for 5G Applications - Challenges and Opportunities - Ian Gresham: Brooklyn 5G Summit 2017
Massive MIMO at 60 GHz vs. 2 GHz - Eric Larsson: Brooklyn 5G Summit 2017
Brooklyn 5G - 2015 - Ali M. Niknejad - Going the Distance with CMOS: mm-Waves and Beyond
Transceiver Systems for mmWave Application - Mats Carlsson - RFIC Showcase 2018
Millimeter Wave Mobile Communications for 5G Cellular: It Will Work!
V-Band Flip-Chip pHEMT Balanced Power Amplifier with CPWG-MS-CPWG Topology and CPWG Lange Couplers: RFIC Interactive Forum 2017
From Maxwell's Equations to Modern Electromagnetics and Antenna Engineering Marvels
One HTS Josephson Junction, An Array of Applications: Has anything come from HTS devices in the last 30 years?
Micro-Apps 2013: Precision RF/MW Cable and Antenna Test in the Field
Fully-Integrated Non-Magnetic 180nm SOI Circulator - Aravind Nagulu - RFIC Showcase 2018
Microstrip antennas excite surface waves and produce lateral radiation, and these fields deteriorate the radiation pattern due to diffraction and also couple with neighboring patches in an array environment. Recently, microstrip antennas denoted as ldquoreduced-surface-waverdquo (RSW) antennas were developed that minimize the surface-wave excitation and lateral radiation (D. R. Jackson, et al., August 1993) (M. A. Khayat, et al., Oct. 2000). However, these antennas have the disadvantage of being physically larger than conventional microstrip antennas. The design proposed here realizes a reduced- surface-wave microstrip antenna that is smaller than the previous design by using via loading of an annular ring configuration.
In this paper, a new compact microstrip square ring antenna is presented, which can be operated at multiple frequencies. It can be stated that within a stacked microstrip square ring configuration, a third square ring is accommodated, which operates at a higher frequency than that of the stacked configuration. Thus, three resonators are arranged in a compact form and fed capacitively to successfully operate at three frequencies.
In this paper, a low-cost ultra-wideband microstrip antenna is presented. The antenna is based on a 1.6-mm-thick FR4 substrate, is microstrip-line fed and has a partial ground plane. The return loss is more than 10 dB in the 1.9-13.5 GHz frequency range. Possible applications include 3G, Wi-Fi, WiMAX, and UWB applications. The gain results and pattern plots of the antenna are included in the paper.
New accurate formulas for calculating the complex propagation constant of the open microstrip line working in its first higher mode are presented. The results obtained from these formulas agree well with those calculated with the finite difference time domain method and other presented data.
No standards are currently tagged "Microstrip antennas"