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Multi-User Equipment aproved in grant 2012/15159-2: Vector Network Analyser (VNA) up to 70 GHz

Grant number: 16/25779-9
Support type:Multi-user Equipment Program
Duration: April 01, 2017 - March 31, 2024
Field of knowledge:Engineering - Electrical Engineering - Electrical, Magnetic and Electronic Measurements, Instrumentation
Principal Investigator:Ariana Maria da Conceicao Lacorte Caniato Serrano
Grantee:Ariana Maria da Conceicao Lacorte Caniato Serrano
Home Institution: Escola Politécnica (EP). Universidade de São Paulo (USP). São Paulo , SP, Brazil
Associated research grant:12/15159-2 - High performance and lowcost MnM devices for millimeter-wave applications from 30 to 110 GHz, AP.JP
As informações de acesso ao Equipamento Multiusuário são de responsabilidade do Pesquisador responsável
EMU web page:http://pcm.lme.usp.br/
Tipo de equipamento:Caracterização e Análises de Amostras - Eletrônica - Analisadores de rede
Fabricante: keysight
Modelo: PNA Microwave Network Analyzer

Abstract

The emerging market for telecommunications in millimeter wave (mmW) from 30 GHz to 300 GHz has impelled a great interest worldwide for the development of high performance and low cost transceivers for consumer applications. In view of this, this project proposes the development of miniaturized 3D interconnects, high-density capacitors and passive devices for applications in millimeter wave with high performance. These circuits will be integrated on the same substrate, forming a novel interposer at mmW. The proposed interposer is based on a revolutionary low cost MnM (metallic nanowires membrane) substrate with inherent slow-wave effect. This new technology is based on dielectric nanoporous membranes filled with metallic nanowires obtained through simple fabrication processes, even at frequencies as high as 100 GHz, where the critical dimensions of the circuits are limited even by the most advanced commercial technologies (like CMOS) making their design unrealizable. The MnM interposer and all the devices proposed, such as transmission lines, filters, couplers, power splitters, high density capacitors will be fully developed at the Microelectronics Laboratory of the Polytechnic School of São Paulo University (LME-EPUSP) using conventional microelectronic processes and low cost readily available materials. This original project is supported by the French laboratory IMEP-LAHC, since the proponent of this project is one of the conceivers of the innovative concept and co-inventor of the two international patents with the French laboratory, one on the MnM substrate already deposited, and the other on the MnM interposer in progress. (AU)

Matéria(s) publicada(s) na Agência FAPESP sobre o auxílio:
Millimeter Wave Center with 5G technology testing and development capabilities opens at USP 
Articles published in Pesquisa FAPESP Magazine about the research grant:
5G technology made in Brazil 
Una tecnología 5G <em>made in Brazil</em> 
Articles published in Pesquisa para Inovação FAPESP about research grant:
Millimeter Wave Center with 5G technology testing and development capabilities opens at USP 
Articles published in other media outlets (17 total):
More itemsLess items
Nexo Jornal: Tecnologia 5G made in Brazil (30/Oct/2020)
Diário da Região (São José do Rio Preto, SP) online: Novo centro da USP permite desenvolver tecnologias do 5G (09/Apr/2020)
Diário da Região (São José do Rio Preto, SP): Novo centro da USP permite desenvolver tecnologia do 5G (09/Apr/2020)
UOL: Tecnologia otimiza uso de ventiladores e de leitos em UTI contra covid-19 (09/Apr/2020)
BOL: Tecnologia otimiza uso de ventiladores e de leitos em UTI contra covid-19 (09/Apr/2020)
SBT Interior: USP: Centro de Ondas Milimétricas permite testar e desenvolver tecnologias para 5G (08/Apr/2020)
Bunifeitabira - Biblioteca Universitária da Universidade Federal de Itajubá: USP inaugura centro de ondas milimétricas para 5G (16/Apr/2020)
Blog da Biblioteca da Escola de Engenharia e do Instituto de Computação: Novo laboratório da USP permite testar e desenvolver tecnologias 5G (13/Apr/2020)
Renova Mídia: Laboratório da USP testa e desenvolve tecnologias 5G (10/Apr/2020)
Olhar Digital: Novo laboratório da USP permite testar e desenvolver tecnologias 5G (09/Apr/2020)
TV Cariri: Novo laboratório da USP permite testar e desenvolver tecnologias 5G (09/Apr/2020)
Portal do Governo do Estado de São Paulo: USP: Centro de Ondas Milimétricas permite testar e desenvolver tecnologias para 5G (08/Apr/2020)
Investe São Paulo: Centro de Ondas Milimétricas permite testar e desenvolver tecnologias para 5G (08/Apr/2020)
Ternura FM: USP: Centro de Ondas Milimétricas permite testar e desenvolver tecnologias para 5G (08/Apr/2020)
Notícias de Campinas: USP: Centro de Ondas Milimétricas permite testar e desenvolver tecnologias para 5G (08/Apr/2020)
Mix Vale: USP: Centro de Ondas Milimétricas permite testar e desenvolver tecnologias para 5G (08/Apr/2020)
Tech Na Net: Novo laboratório da USP permite testar e desenvolver tecnologias 5G (09/Apr/2020)

Scientific publications
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
DE NOVAIS SCHIANTI, JULIANA; SERRANO, ARIANA L. C.; ORQUIZA DE CARVALHO, DANIEL; PENCHEL, RAFAEL A.; MOTA PINHEIRO, JULIO; GONGORA-RUBIO, MARIO R.; PAMPLONA REHDER, GUSTAVO. Novel Platform for Droplet Detection and Size Measurement Using Microstrip Transmission Lines. SENSORS, v. 19, n. 23 DEC 2019. Web of Science Citations: 0.

Please report errors in scientific publications list by writing to: cdi@fapesp.br.