Add to ORKGIn this paper an integrated design methodology to predict the real RF to DC conversion capability of power harvesters is tackled. By combining nonlinear harmonic-balance-based analysis with electromagnetic simulation the method is able to compute the actual RF power at the rectifier input in general operating conditions: that is for any near-field /far-field behavior of the antenna and for any direction of incidence and polarization of the incoming RF wave. This approach makes use of a new definition of the rectifying antenna (rectenna) performance simultaneously accounting for its radiation and nonlinear behavior. The effectiveness of the method is demonstrated through the comparison between computed and experimental performance of a multi...
Projecte final de carrera fet en col.laboració amb Centre Tecnològic de TelecomunicacionsThe focus o...
Radio-frequency (RF) energy harvesting (RFEH) and radiative wireless power transfer (WPT) have attra...
In this chapter the exploitation of novel fabrics, in place of standard substrates and metallization...
In this paper an integrated design methodology to predict the real RF to DC conversion capability of...
We introduce an integrated design methodology for the optimisation of RF-to-DC conversion efficiency...
The combination of EM theory, full-wave numerical analysis, and nonlinear circuit techniques into an...
We introduce an integrated design methodology for the optimisation of RF-to-DC conversion efficiency...
The paper introduces a rigorous methodology for predicting RF-to-DC conversion in power harvesters. ...
A CAD solution is proposed combining EM theory, full-wave numerical analysis, and nonlinear circui...
We introduce a compact, lightweight and highly efficient multi-resonator rectenna (rectifying antenn...
none2In this paper we describe the design and test of a wearable, multi-band ring-antenna together w...
The concept of wireless power transmission (WPT) has been introduced for nearly a century. Some of t...
This paper proposes a novel rectenna design for the compact RF energy harvesting system operating at...
In this paper we introduce a multi-source RF harvesting system designed by a combination of CAD tool...
Projecte final de carrera fet en col.laboració amb Centre Tecnològic de TelecomunicacionsThe focus o...
Radio-frequency (RF) energy harvesting (RFEH) and radiative wireless power transfer (WPT) have attra...
In this chapter the exploitation of novel fabrics, in place of standard substrates and metallization...
In this paper an integrated design methodology to predict the real RF to DC conversion capability of...
We introduce an integrated design methodology for the optimisation of RF-to-DC conversion efficiency...
The combination of EM theory, full-wave numerical analysis, and nonlinear circuit techniques into an...
We introduce an integrated design methodology for the optimisation of RF-to-DC conversion efficiency...
The paper introduces a rigorous methodology for predicting RF-to-DC conversion in power harvesters. ...
A CAD solution is proposed combining EM theory, full-wave numerical analysis, and nonlinear circui...
We introduce a compact, lightweight and highly efficient multi-resonator rectenna (rectifying antenn...
none2In this paper we describe the design and test of a wearable, multi-band ring-antenna together w...
The concept of wireless power transmission (WPT) has been introduced for nearly a century. Some of t...
This paper proposes a novel rectenna design for the compact RF energy harvesting system operating at...
In this paper we introduce a multi-source RF harvesting system designed by a combination of CAD tool...
Projecte final de carrera fet en col.laboració amb Centre Tecnològic de TelecomunicacionsThe focus o...
Radio-frequency (RF) energy harvesting (RFEH) and radiative wireless power transfer (WPT) have attra...
In this chapter the exploitation of novel fabrics, in place of standard substrates and metallization...