The dc power collected by radio frequency energy harvesting (RFEH) absorbing surfaces is limited by their physical aperture. Here, a compact, conformable, and ultrathin sub-1 GHz large-area RFEH surface is proposed based on electrically small ( ka=0.58 ) “wire-type” rectenna elements, with an effective area exceeding its physical aperture size. Using optimized large-signal complex source tuning, the rectifiers achieve up to 36% measured power conversion efficiency (PCE) at 20 dBm. The proposed 15 cm-diameter six-element array generates a 27.5 μ W at 1 V output from a 0.17 μ W/cm 2 incident power density across a 40 k Ω load. Owing to its series connection, the voltage output is boosted, and the load resistance dependence is suppressed enabl...
International audienceThis paper presents a study of Schottky diode rectenna (rectifying antenna) fo...
Herein, design, development, and analysis of ultra-low power sensing energy harvesting modules and t...
This work presents a high-efficiency, high-sensitivity, compact flexible rectenna based on a high-im...
The DC power collected by Radio Frequency Energy Harvesting (RFEH) absorbing surfaces is limited by ...
Wearable Radio Frequency (RF) rectennas do not require expensive or hazardous materials and can be e...
Wearable Radio Frequency (RF) rectennas do not require expensive or hazardous materials and can be e...
International audienceThis paper presents compact rectenna arrays for ambient RF energy harvesting o...
The growing energy demands of the Internet of Things (IoT) highlight the need forbattery-free method...
The RFEH design challenges can be broadly classified into overall radio frequency direct current (RF...
Dataset supporting the article “Thin Flexible RF Energy Harvesting Rectenna Surface with a Large Eff...
In this paper, a new RF Energy Harvesting (RF-EH) system for Wireless Sensor Network (WSN) feeding i...
International audienceAmbient electromagnetic and RF energy is an ubiquitous energy resource that is...
International audienceA new compact topology of rectenna, which combines a miniaturized wideband pri...
International audienceThis paper presents a study of Schottky diode rectenna (rectifying antenna) fo...
Herein, design, development, and analysis of ultra-low power sensing energy harvesting modules and t...
This work presents a high-efficiency, high-sensitivity, compact flexible rectenna based on a high-im...
The DC power collected by Radio Frequency Energy Harvesting (RFEH) absorbing surfaces is limited by ...
Wearable Radio Frequency (RF) rectennas do not require expensive or hazardous materials and can be e...
Wearable Radio Frequency (RF) rectennas do not require expensive or hazardous materials and can be e...
International audienceThis paper presents compact rectenna arrays for ambient RF energy harvesting o...
The growing energy demands of the Internet of Things (IoT) highlight the need forbattery-free method...
The RFEH design challenges can be broadly classified into overall radio frequency direct current (RF...
Dataset supporting the article “Thin Flexible RF Energy Harvesting Rectenna Surface with a Large Eff...
In this paper, a new RF Energy Harvesting (RF-EH) system for Wireless Sensor Network (WSN) feeding i...
International audienceAmbient electromagnetic and RF energy is an ubiquitous energy resource that is...
International audienceA new compact topology of rectenna, which combines a miniaturized wideband pri...
International audienceThis paper presents a study of Schottky diode rectenna (rectifying antenna) fo...
Herein, design, development, and analysis of ultra-low power sensing energy harvesting modules and t...
This work presents a high-efficiency, high-sensitivity, compact flexible rectenna based on a high-im...