RF Energy Harvesting for Self-Sustained IoT Applications: Challenges and Opportunities

Radio Frequency Energy Harvesting (RFEH) is a potential method for achieving self-sustained operation of 10T-enabled sensors. In this work, we first demonstrate the challenges encountered in retrieving power from RF ambient sources, and antenna design trade-offs to tackle the aforementioned challeng...

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Main Authors: Raghav, Khushbu Singh, Bansal, Deepak
Format: Conference Proceeding
Language:English
Subjects:
Horn
IoT sensor
Patch
Radio frequency
Radio transmitters
Receivers
RF energy harvesting
Sensor systems
Sensors
Temperature distribution
Temperature sensors
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Bansal, Deepak
description Radio Frequency Energy Harvesting (RFEH) is a potential method for achieving self-sustained operation of 10T-enabled sensors. In this work, we first demonstrate the challenges encountered in retrieving power from RF ambient sources, and antenna design trade-offs to tackle the aforementioned challenges. Furthermore, circuit modifications are done and shown to reduce the power consumption of the loT-enabled sensors. Lastly, a proof-of-concept of successfully powering loT-capable Texas Instrument CC1350 SOC sensor node from a dedicated RF source along with a high gain horn antenna is demonstrated. The RFEH system is successfully tested and demonstrated by transmitting temperature data wirelessly from the RF -powered CC1350 board (transmitter) to the computer-connected CC1350 board (receiver).
doi_str_mv 10.1109/WF-IoT58464.2023.10539385
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source IEEE Xplore All Conference Series
subjects Horn
IoT sensor
Patch
Radio frequency
Radio transmitters
Receivers
RF energy harvesting
Sensor systems
Sensors
Temperature distribution
Temperature sensors
title RF Energy Harvesting for Self-Sustained IoT Applications: Challenges and Opportunities
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