Piezoelectric sensor front-end for energy-efficient acquisition of ultrasonic emissions related to water-stress in plants

2019 IEEE SENSORS Pub Date : 2019-10-01 DOI:10.1109/SENSORS43011.2019.8956671
D. Oletić, V. Bilas
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引用次数: 3

Abstract

Formation of embolisms in plant’s xylem water transport vessels is considered a major cause of plant mortality due to water-stress. Passive ultrasonic acoustic emissions (AE) monitoring shows the most potential for field-quantification of embolism level. However, this requires designing energy-efficient embedded hardware for autonomous high-speed ultrasonic AE acquisition, processing, and storage. In this paper we present a piezoelectric sensor interface for triggered AE acquisition at 2 MS/s. Its design requirements were assessed by laboratory dehydration experiments on grapevine pot-plants. An embedded prototype was design and characterized. The proposed architecture enables event-based acquisition of AE within 120-550 kHz band, at 5.7 mW average power, and 717 ns wakeup-latency.
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用于高效采集植物水分胁迫相关超声发射的压电传感器前端
植物木质部输水血管栓塞的形成被认为是植物因水分胁迫而死亡的主要原因。被动超声声发射(AE)监测显示最有潜力的现场量化栓塞水平。然而,这需要设计节能的嵌入式硬件来实现自主高速超声声发射采集、处理和存储。本文提出了一种用于2ms /s触发声发射采集的压电传感器接口。通过室内葡萄藤盆栽脱水试验,对其设计要求进行了评价。设计并表征了嵌入式样机。所提出的架构能够在120-550 kHz频带内基于事件的声发射采集,平均功率为5.7 mW,唤醒延迟为717 ns。
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2019 IEEE SENSORS
2019 IEEE SENSORS
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