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Acoustic Backscatter Communication and Power Transfer for Batteryless Wireless Sensors

Peter Oppermann, Christian Renner

2023Sensors12 citationsDOIOpen Access PDF

Abstract

Sensors for industrial and structural health monitoring are often in shielded and hard-to-reach places. Acoustic wireless power transfer (WPT) and piezoelectric backscatter enable batteryless sensors in such scenarios. Although the low efficiency of WPT demands power-conserving sensor nodes, backscatter communication, which consumes near-zero power, has not yet been combined with WPT. This study reviews the available approaches to acoustic WPT and active and passive acoustic through-metal communication. We design a batteryless and backscattering tag prototype from commercially available components. Analysis of the prototypes reveals that low-power hardware poses additional challenges for communication, i.e., unstable and inaccurate oscillators. Therefore, we implement a software-defined receiver using digital phase-locked loops (DPLLs) to mitigate the effects of oscillator instability. We show that DPLLs enable reliable backscatter communication with inaccurate clocks using simulation and real-world measurements. Our prototype achieves communication at 2 kBs-1 over a distance of 3 m. Furthermore, during transmission, the prototype consumes less than 300 μW power. At the same time, over 4 mW of power is received through wireless transmission over a distance of 3 m with an efficiency of 2.8%.

Topics & Concepts

WirelessBackscatter (email)Wireless power transferTransmission (telecommunications)Wireless sensor networkPower (physics)Shielded cableElectrical engineeringPower transmissionComputer scienceMaximum power transfer theoremElectronic engineeringEngineeringTelecommunicationsPhysicsComputer networkQuantum mechanicsEnergy Harvesting in Wireless NetworksInnovative Energy Harvesting TechnologiesWireless Power Transfer Systems
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