Title :
A new optical waveguide pressure sensor using evanescent field
Author_Institution :
Central Research and Development, Leoni AG, Nurnberg, Germany
Abstract :
The described sensor is primarily used as a pressure sensor or a touch sensor. It consists of one flexible optical waveguide. Its optical attenuation depends strongly on the local pressure and takes advantage of the evanescent field properties. The optical waveguide core is similar to a normal plastic optical fiber. There is a light-absorptive layer in the optical cladding. The transmitter is placed on one side of the sensor with a signal source, such as an LED, and there is a receiver on the other side with one photosensitive element, such as a PIN diode. In the normal state (no pressure), there is a total reflection at the boundary between the core and the cladding. The optical rays do not reach the absorptive layer. Under pressure, since the optical ray is skin-deep in the optical coating, the light is absorbed in the absorptive layer. This results in a strong rise in optical attenuation.
Keywords :
attenuated total reflection; fibre optic sensors; light absorption; light emitting diodes; optical fibre cladding; p-i-n photodiodes; pressure sensors; tactile sensors; LED; PIN diode; core/cladding total boundary reflection; evanescent field based sensor; fiber optic sensors; flexible optical waveguide core; light absorption; optical attenuation; optical cladding light-absorptive layer; optical waveguide pressure sensor; plastic optical fiber; receiver photosensitive element; touch sensor; transmitter signal source; Optical attenuators; Optical fibers; Optical receivers; Optical sensors; Optical surface waves; Optical transmitters; Optical waveguides; Plastics; Sensor phenomena and characterization; Tactile sensors;
Conference_Titel :
Electronic Components and Technology Conference, 2004. Proceedings. 54th
Print_ISBN :
0-7803-8365-6
DOI :
10.1109/ECTC.2004.1320392
