Title :
An integrated capacitive position sensor
Author_Institution :
SYLVAC SA, Crissier, Switzerland
fDate :
4/1/1996 12:00:00 AM
Abstract :
Capacitive position sensors prevail in small battery-powered instruments. They “read” a scale (consisting of a row of floating electrodes) with a row of driver electrodes and a pickup electrode, shielded so that mutual coupling may occur only via the scale. The novel sensor described here has only one row of identical multipurpose electrodes, acting in turn as driver, pickup and shield. A theoretical model for inter-electrode capacitance optimizes sensor geometry at a size suitable for integrating the complete sensor on a 7.5 by 3.9 mm die. Drive and control signals scan the electrodes, and the position-tracking phase information derived from the pickup signal is digitally filtered on-chip. Measurements made with a 1.016 mm scale electrode pitch and a sensor-to-scale gap of 0.2 mm yield a pitch-to-pitch periodic nonlinearity of 0.002 mm
Keywords :
CMOS analogue integrated circuits; capacitance measurement; electric sensing devices; electrodes; position measurement; preamplifiers; 3.9 mm; 7.5 mm; CMOS integrated; control bus; driver electrode; electrode shield; identical multipurpose electrodes; integrated capacitive position sensor; inter-electrode capacitance; mutual coupling; on-chip digitally filtered; pickup electrode; pickup signal; pitch-to-pitch periodic nonlinearity; position-tracking phase information; sensor geometry optimization; small battery-powered instruments; Capacitance; Capacitive sensors; Digital filters; Electrodes; Geometry; Information filtering; Instruments; Mutual coupling; Sensor phenomena and characterization; Solid modeling;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
