Plastic optical fiber displacement sensor based on dual cycling bending

Sensors (Basel). 2010;10(11):10198-210. doi: 10.3390/s101110198. Epub 2010 Nov 15.

Abstract

In this study, a high sensitivity and easy fabricated plastic optical fiber (POF) displacement sensor is proposed. A POF specimen subjected to dual cyclic bending is used to improve the sensitivity of the POF displacement sensor. The effects of interval between rollers, relative displacement and number of rollers on the sensitivity of the displacement sensor are analyzed both experimentally and numerically. A good agreement between the experimental measurements and numerical calculations is obtained. The results show that the interval between rollers affects sensitivity most significantly than the other design parameters. Based on the experimental data, a linear equation is derived to estimate the relationship between the power loss and the relative displacement. The difference between the estimated results and the experimental results is found to be less than 8%. The results also show that the proposed POF displacement sensor based on dual cyclic bending can be used to detect displacement accurately.

Keywords: cycling bending; displacement fiber sensor; plastic optical fiber.

MeSH terms

  • Equipment Design
  • Fiber Optic Technology / instrumentation*
  • Fiber Optic Technology / methods*
  • Optical Fibers*
  • Plastics*

Substances

  • Plastics