Add to ORKGThis paper presents the implementation of a high-efficiency radiofrequency (RF) harvester, which consists of a rectenna and a maximum power point tracker (MPPT). The rectenna was characterized from -30 dBm to -10 dBm at 808 MHz, achieving an efficiency higher than 60% at -10 dBm. Experimental results also show that the rectenna can be well modelled as a Thévenin equivalent circuit, which allows the use of a simple ensuing MPPT. The complete RF harvester was tested, achieving an overall efficiency near 50% at -10 dBm. Further tests were performed powering a sensor node from a nearby antenna.Peer Reviewe
Radio-Frequency (RF) energy harvesting must cope with the limited availability and high variability ...
L-matching networks have been proposed for boosting the power efficiency of radiofrequency (RF) ener...
Radio Frequency energy harvesting is getting popular due to RF signals being abundant in the ambient...
This paper presents the implementation of a high-efficiency radiofrequency (RF) harvester, which con...
This paper presents the implementation of a high-efficiency radiofrequency (RF) harvester, which con...
This paper presents the implementation of a high-efficiency radiofrequency (RF) harvester, which con...
This paper proposes a compact Thévenin model for a rectenna. This model is then applied to design a ...
In this paper we present the design and simulation results of an RF energy harvesting circuit that o...
In this paper we present the design and simulation results of an RF energy harvesting circuit that o...
This paper proposes a compact Thévenin model for a rectenna. This model is then applied to design a ...
In this paper we present the design and simulation results of an RF energy harvesting circuit that o...
Radiofrequency (RF) energy can be harvested in order to power autonomous sensors either from the sur...
Radiofrequency (RF) energy can be harvested in order to power autonomous sensors either from the sur...
Radio-frequency (RF) energy harvesting must cope with the limited availability and high variability...
Abstract — Radiofrequency (RF) energy can be harvested in order to power autonomous sen-sors either ...
Radio-Frequency (RF) energy harvesting must cope with the limited availability and high variability ...
L-matching networks have been proposed for boosting the power efficiency of radiofrequency (RF) ener...
Radio Frequency energy harvesting is getting popular due to RF signals being abundant in the ambient...
This paper presents the implementation of a high-efficiency radiofrequency (RF) harvester, which con...
This paper presents the implementation of a high-efficiency radiofrequency (RF) harvester, which con...
This paper presents the implementation of a high-efficiency radiofrequency (RF) harvester, which con...
This paper proposes a compact Thévenin model for a rectenna. This model is then applied to design a ...
In this paper we present the design and simulation results of an RF energy harvesting circuit that o...
In this paper we present the design and simulation results of an RF energy harvesting circuit that o...
This paper proposes a compact Thévenin model for a rectenna. This model is then applied to design a ...
In this paper we present the design and simulation results of an RF energy harvesting circuit that o...
Radiofrequency (RF) energy can be harvested in order to power autonomous sensors either from the sur...
Radiofrequency (RF) energy can be harvested in order to power autonomous sensors either from the sur...
Radio-frequency (RF) energy harvesting must cope with the limited availability and high variability...
Abstract — Radiofrequency (RF) energy can be harvested in order to power autonomous sen-sors either ...
Radio-Frequency (RF) energy harvesting must cope with the limited availability and high variability ...
L-matching networks have been proposed for boosting the power efficiency of radiofrequency (RF) ener...
Radio Frequency energy harvesting is getting popular due to RF signals being abundant in the ambient...
