Title :
Serpentine magnetoresistive elements for tactile sensor applications
Author :
Adl, P. ; Memnon, Z.A. ; Mapps, D.J. ; Rakowski, R.T.
Author_Institution :
Brunel Univ., Uxbridge, UK
fDate :
9/1/1990 12:00:00 AM
Abstract :
Performance data on a new tactile sensor configuration are presented. The sensor is based on magnetoresistive (MR) technology but incorporates a patented serpentine path element structure which offers a wide range of advantages over previously considered designs. Previous work on MR tactile sensors did not approach the problem of sensor optimization at the transducer level. By placing the emphasis on the bottom-up method of design, a wide range of sensors for different applications could be developed. Sensitivity is a key feature in tactile sensor design. This is a measure of the minimum detectable force change that can be accurately detected. The requirement for high signal-to-noise ratios indicates the need for high element resistances, the use of AC magnetic fields, and small geometric size (pixel resolution)
Keywords :
electric sensing devices; magnetic devices; magnetoresistance; position control; position measurement; tactile sensors; transducers; AC magnetic fields; bottom-up method; geometric size; magnetoresistive tactile sensors; pixel resolution; robotics; sensor optimization; serpentine MR element; serpentine path element structure; signal-to-noise ratios; tactile sensor configuration; transducer; Design methodology; Electrical resistance measurement; Force measurement; Force sensors; Magnetic field measurement; Magnetic sensors; Magnetoresistance; Signal to noise ratio; Tactile sensors; Transducers;
Journal_Title :
Magnetics, IEEE Transactions on
