Problemas al descargar el contenido de este email? Haz click en View as Webpage
Edición de Enero 2023
Artículos Destacados
Copyright © IEEE
VRM and Combinatory Analog Operations for Future Reconfigurable Sensing
This article presents a topological receiver architecture, named "Virtual Receiver Matrix" (VRM), suitable for future smart multifunction wireless systems. This concept benefits from “floating” spatially distributed virtual receiver channels and offers an unprecedented solution of integrating multiple functions.
Copyright © IEEE
Thinned Array Synthesis in Hyperthermia Treatment Planning of Phased Array
Genetic algorithm-based array thinning technique is investigated in this paper to study the performance of an 18-element 434 MHz phased array breast applicator when driven by a reduced number of antennas (9-12). Phased array excitation of 12 antennas was chosen as the optimal subset as it provided selective tumor heating.
Medium Power Amplifier Covers 2 to 65 GHz
Mini-Circuits’ new ZVA-02653G+ coaxial amplifier achieves 21 dB gain with ±3.0 dB flatness and +18 dBm PSAT from 2 to 65 GHz, ideal for RF port extension, as an LO driver amplifier and more.
Copyright © IEEE
Hybrid-Packaged T-Comp. Phased-Array Receiver and Integrated Antenna Array
This article presents an eight-channel 1.9-dB noise figure K-band phased-array receiver for satellite communication. It employs the hybrid-packaged 65-nm CMOS beamformer and 0.1-μ m GaAs low-noise amplifiers based on the fan-out wafer-level chip-scale packaging technology.
Copyright © IEEE
A 5–6-GHz CMOS Beamforming Transceiver Front-End for Fiber-to-the-Room All-Optical Wi-Fi Solution
A 5–6-GHz CMOS beamforming transceiver front-end with high linearity and low power consumption for fiber-to-the-room (FTTR) all-optical Wi-Fi solution is presented, which can greatly reduce the transmission power and eliminate signal mutual interference. The transmitter employs a high-linearity PA, a VGA, a 5-bit attenuator, and a 4-bit phase shifter.
Copyright © IEEE
Flexible and Shape-Changing Arrays
In this paper, the technology developments which have enabled the creation and use of shape-changing arrays are described. The theoretical implications of aperture change (folding, conforming, and flexing) for arrays and methods for taking advantage of these aperture changes are presented.
Noticias MTT-S
Próximos Eventos/Llamados
IEEE Radio and Wireless Week 2023 | Ene 20-25, 2023

El 2023 IEEE Radio & Wireless Week (RWW2023) se llevará a cabo durante la semana del 22 de enero de 2023 en Las Vegas, NV, USA. RWW consta de cinco conferencias relacionadas (RWS, PAWR, SIRF, WISNET, SHARC, IOT SUMMIT) que se centran en la intersección entre la teoría de la comunicación inalámbrica, los sistemas, los circuitos y las tecnologías de dispositivos. Esto crea un foro único para que los ingenieros discutan diversas tecnologías para los sistemas inalámbricos de última generación y sus aplicaciones de uso final.
Se acerca la fecha límite para envio de trabajos al RFIC | Ene 15, 2022

El Simposio IEEE de Circuitos Integrados de Radiofrecuencia (RFIC) 2023 es el principal foro centrado exclusivamente en presentar los últimos resultados de investigación en RF, mmW y circuitos integrados inalámbricos. RFIC ha ampliado su enfoque para incluir sistemas, aplicaciones y demostraciones interactivas, incluidos sistemas móviles para 5G y más allá, sistemas de radar, terahertz, biomédicos y optoelectrónicos. RFIC 2023 da inicio al Microwave Week 2023 con IMS y ARFTG en San Diego
Junta Editorial
Editor-Jefe
Dr. Hjalti Sigmarsson
University of Oklahoma, USA
Editor Gerente
Dr. Tejinder Singh
Dell Technologies, Canada
Escríbenos a newsletter@mtt.org
Visite IEEE MTT-S at mtt.org