Piezoelectric device operating as sensor and harvester to drive switching circuit in LED shoes

The power generated by the designed piezoelectric energy harvester replaces the standby power that is constantly used in sensors and driving circuits in commercial LED shoes; the harvester thus reduces battery consumption. LED shoes incorporating a piezoelectric energy harvester are designed for nig...

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Bibliographic Details
Published inEnergy (Oxford) Vol. 177; pp. 87 - 93
Main Authors Jeong, Se Yeong, Hwang, Won Seop, Cho, Jae Yong, Jeong, Jae Chul, Ahn, Jung Hwan, Kim, Kyung Bum, Hong, Seong Do, Song, Gyeong Ju, Jeon, Deok Hwan, Sung, Tae Hyun
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 15.06.2019
Elsevier BV
Subjects
Batteries
Circuit design
Energy
Energy consumption
Energy harvesting
Insoles
Piezoelectric materials
Piezoelectric sensor
Piezoelectricity
Power consumption
Shoe energy generator
Switching circuits
Wearable device
Weight reduction
Workers
Shoe energy generator
Wearable device
Piezoelectric sensor
Piezoelectric materials
Energy harvesting
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Summary:The power generated by the designed piezoelectric energy harvester replaces the standby power that is constantly used in sensors and driving circuits in commercial LED shoes; the harvester thus reduces battery consumption. LED shoes incorporating a piezoelectric energy harvester are designed for night workers who work near roads. The piezoelectric energy harvester, composed of a piezoelectric device (PZT ceramic), which is inserted under the insoles of shoes, converts mechanical energy generated by motion of user into electrical energy. The designed harvester has an area of 6 × 4 mm and height of 3 mm (pressed state); it weighs 14 g. Because of its small size and light weight, device is suitable for real workers’ shoes. This piezoelectric energy harvester produces 800 μW at a resistive matching point of 400 kΩ; it is used as a sensor to control an LED switching circuit, allowing the LEDs to blink based on user movements. By applying the piezoelectric energy harvester to LED shoes, battery usage time can be doubled compared to LED shoes that are turned on continuously. •Designed piezoelectric energy harvester has an area of 6 × 4 mm and height of 3 mm.•Piezoelectric energy harvester produces 800 μW at a resistive matching point of 400 kΩ.•Harvester works as a sensor to drive an LED switching circuit in LED shoes.•The proposed LED shoes enhance the visibility of night workers in dark areas.•Battery usage time can be doubled compared to LED shoes.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2019.04.061