Add to ORKGnone5noWe introduce a compact, lightweight and highly efficient multi-resonator rectenna (rectifying antenna) designed to harvest the RF energy really obtainable in humanized environments. Such sources, radiated from cell phones, radio transmitters and Wi-Fi equipments, are ubiquitously available but have very low power densities, at different frequency bands, with unknown directions of incidence and polarization. In order to harvest a significant quantity of energy it is mandatory to put a very special care in the design of each part of the receiving/storing system. For this purpose a combination of resonant antennas, each one designed for a specific application-dependent frequency band, is optimised together with the rectifying circuit an...
Energy harvesting is defined as the process of obtaining energy from external sources, such as wind...
In this chapter the exploitation of novel fabrics, in place of standard substrates and metallization...
none3We overview a multi-domain CAD approach to the design of RF Harvesting systems and dynamic conv...
We introduce a compact, lightweight and highly efficient multi-resonator rectenna (rectifying antenn...
We introduce an integrated design methodology for the optimisation of RF-to-DC conversion efficiency...
We introduce an integrated design methodology for the optimisation of RF-to-DC conversion efficiency...
In this paper an integrated design methodology to predict the real RF to DC conversion capability of...
none2In this paper we introduce a multi-source RF harvesting system designed by a combination of CAD...
This paper proposes a novel rectenna design for the compact RF energy harvesting system operating at...
none4noIn this paper we exploit genetic algorithms to design a rectenna required to harvest ambient ...
A CAD solution is proposed combining EM theory, full-wave numerical analysis, and nonlinear circui...
The paper introduces a rigorous methodology for predicting RF-to-DC conversion in power harvesters. ...
The combination of EM theory, full-wave numerical analysis, and nonlinear circuit techniques into an...
Projecte realitzat en col.laboració amb el Centre Tecnològic de TelecomunicacionsThe work focuses on...
Energy harvesting is defined as the process of obtaining energy from external sources, such as wind...
In this chapter the exploitation of novel fabrics, in place of standard substrates and metallization...
none3We overview a multi-domain CAD approach to the design of RF Harvesting systems and dynamic conv...
We introduce a compact, lightweight and highly efficient multi-resonator rectenna (rectifying antenn...
We introduce an integrated design methodology for the optimisation of RF-to-DC conversion efficiency...
We introduce an integrated design methodology for the optimisation of RF-to-DC conversion efficiency...
In this paper an integrated design methodology to predict the real RF to DC conversion capability of...
none2In this paper we introduce a multi-source RF harvesting system designed by a combination of CAD...
This paper proposes a novel rectenna design for the compact RF energy harvesting system operating at...
none4noIn this paper we exploit genetic algorithms to design a rectenna required to harvest ambient ...
A CAD solution is proposed combining EM theory, full-wave numerical analysis, and nonlinear circui...
The paper introduces a rigorous methodology for predicting RF-to-DC conversion in power harvesters. ...
The combination of EM theory, full-wave numerical analysis, and nonlinear circuit techniques into an...
Projecte realitzat en col.laboració amb el Centre Tecnològic de TelecomunicacionsThe work focuses on...
Energy harvesting is defined as the process of obtaining energy from external sources, such as wind...
In this chapter the exploitation of novel fabrics, in place of standard substrates and metallization...
none3We overview a multi-domain CAD approach to the design of RF Harvesting systems and dynamic conv...