A 1.02 μW Autarkic Threshold-Based Sensing and Energy Harvesting Interface Using a Single Piezoelectric Element

Agorastou, Zoi; Kalenteridis, Vasileios; Siskos, S.

doi:10.3390/jlpea11020027

Cited by 3 publications

(1 citation statement)

References 21 publications

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“…When the piezoelectric energy harvester is used to detect environmental vibration, the power consumption related to the sensor can be saved. In addition, in specific applications for the safety monitoring of field fences, oil pipelines, etc., using the “event-driven” principle, we only focus on whether a sabotage event occurs [ 16 , 17 , 18 , 19 , 20 , 21 ].…”

Section: Introductionmentioning

confidence: 99%

Design and Implementation of an Event-Driven Smart Sensor Node for Wireless Monitoring Systems

Liu,

Yang,

et al. 2023

Sensors

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In this paper, an event-driven wireless sensor node is proposed and demonstrated. The primary design objective is to devise a wireless sensor node with miniaturization, integration, and high-accuracy recognition ability. The proposed wireless sensor node integrates two vibration-threshold-triggered energy harvesters that sense and power a threshold voltage control circuit for power management, a microcontroller unit (MCU) for system control, a one-dimensional convolutional neural network (1D-CNN) environment data analysis and vibration events distribution, and a radio frequency (RF) digital baseband transmitter with IEEE 802.15.4-/.6 protocols. The dimensions of the wireless sensor node are 4 × 2 × 1 cm3. Finally, the proposed wireless sensor node was fabricated and tested. The alarming time for detecting the vibration event is less than 6 s. The measured recognition accuracy of three events (knock, shake, and heat) is over 97.5%. The experimental results showed that the proposed integrated wireless sensor node is very suitable for wireless environmental monitoring systems.

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Section: Introductionmentioning

confidence: 99%

Design and Implementation of an Event-Driven Smart Sensor Node for Wireless Monitoring Systems

Liu,

Yang,

et al. 2023

Sensors

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Area estimation circuit for Weigh-In-Motion applications using piezoelectric transducers

Agorastou

Gogolou

Kozalakis

et al. 2021

2021 28th IEEE International Conference on Electronics, Circuits, and Systems (ICECS)

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Conceptual Design and Preliminary Verification of Distributed Wireless System of Weigh-in-Motion

Wang

Gong

Bao³

et al. 2023

Applied Sciences

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In this paper, the concept of a distributed wireless system of weigh-in-motion is proposed. A wireless sensor for weigh-in-motion (WIM) based on piezoelectric materials is designed. The corresponding prototype for indoor testing is made according to the design. It aims to realize the main functions of dynamic pressure sensing, charge signal amplification and conversion, wireless signal transmission and reception, etc. The material properties of the mechanical properties and the piezoelectric properties in the analyses are provided in detail. Through the indoor test platform, the feasibility of the wireless sensor for WIM designed in this paper is preliminarily verified, which provides a basic tool for the realization of the distributed self-powered wireless system of WIM in the next step.

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A 1.02 μW Autarkic Threshold-Based Sensing and Energy Harvesting Interface Using a Single Piezoelectric Element

Cited by 3 publications

References 21 publications

Design and Implementation of an Event-Driven Smart Sensor Node for Wireless Monitoring Systems

Design and Implementation of an Event-Driven Smart Sensor Node for Wireless Monitoring Systems

Area estimation circuit for Weigh-In-Motion applications using piezoelectric transducers

Conceptual Design and Preliminary Verification of Distributed Wireless System of Weigh-in-Motion

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