Login / Signup

A Self-Powered Flexible Displacement Sensor Based on Triboelectric Effect for Linear Feed System.

Tingting ZhaoDongsheng LiPeijuan CuiZhongbin ZhangYuyang SunXingyou MengZhanlin HouZaiping ZhengYuping HuangHuicong Liu
Published in: Nanomaterials (Basel, Switzerland) (2023)
The detection and feedback of displacement and velocity significantly impact the control accuracy of the linear feed system. In this study, we propose a flexible and self-powered displacement sensor based on the triboelectric effect, designed for seamless integration into linear feed systems. The displacement sensor comprises two parts, the mover and stator, operating in a sliding mode. This sensor can precisely detect the displacement of the linear feed system with a large detection range. Additionally, the sensor is capable of real-time velocity detection of linear feed systems, with an error rate below 0.5%. It also offers advantages, such as excellent flexibility, compact size, stability, easy fabrication, and seamless integration, with linear feed systems. These results highlight the potential of the self-powered displacement sensor for various applications in linear feed systems.
Keyphrases
  • loop mediated isothermal amplification
  • neural network