Title :
Capacitive-Type Flexible Linear Encoder With Untethered Slider Using Electrostatic Induction
Author :
Kimura, Fumitaka ; Gondo, Masahiko ; Yamashita, Norio ; Yamamoto, Akio ; Higuchi, Toshiro
Author_Institution :
Dept. of Precision Eng., Univ. of Tokyo, Tokyo, Japan
fDate :
5/1/2010 12:00:00 AM
Abstract :
A novel capacitive linear encoder characterized by its untethered slider is presented. The main components are made of flexible printed circuit films measuring 0.2 mm in thickness that allows the sensor to be set up in thin interspaces or on curved surfaces. The sensor consists of a long receiver film and a short transmitter film, respectively containing four-phase and two-phase electrodes; the transmitter is used as a slider and the receiver as a stator. To realize an untethered slider, the sensor employs a unique approach; electric power is supplied to the transmitter film by electrostatic induction, which removes electric wires from the slider. This untethered slider can facilitate sensitive applications where a mechanical disturbance caused by an electric wire can be a problem. The principle was verified using a prototype encoder, which showed an error of ± 4 ¿ m.
Keywords :
capacitive sensors; electrodes; electromagnetic induction; flexible electronics; linear codes; stators; capacitive-type flexible linear encoder; curved surfaces; electric power; electric wires; electrodes; electrostatic induction; flexible printed circuit films; mechanical disturbance; prototype encoder; receiver film; transmitter film; untethered slider; Electrodes; Electrostatic induction; Electrostatic measurements; Flexible printed circuits; Sensor phenomena and characterization; Stators; Thick film sensors; Thickness measurement; Thin film sensors; Transmitters; Capacitive encoder; incremental encoder; linear displacement sensor; linear encoder; wireless slider;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2009.2037015
