Title :
Wireless magnetic field sensor employing SAW-transponder
Author :
Steindi, R. ; Hausleitner, C. ; Hauser, H. ; Bulst, W.
Author_Institution :
Ind. Electron. & Mater. Sci., Univ. of Technol., Vienna, Austria
Abstract :
A new wireless interrogable sensor for magnetic field, establishes an alliance of giant magneto-impedance (GMI) sensor and a surface acoustic wave (SAW) transponder device. The basic elements of these sensor units are SAW delay lines connected to an antenna. The second port is operated as a tunable reflector for the SAW. Its acoustic reflectivity depends on the electrical termination. If a serial resonant circuit with the GMI device is used here, the change of the impedance of the GMI due to a magnetic field, yields a sufficient effect for a radio request readout. The sensor unit is passive, it contains no power supply, no semiconductors etc. Thus, they are capable of implementation in a very rough environment, where dust, heat (up to many hundreds of centigrade), electromagnetic interference and mechanical load would cause damage to other types of sensors
Keywords :
electromagnetic interference; giant magnetoresistance; magnetic sensors; magnetoresistive devices; surface acoustic wave delay lines; transponders; SAW delay lines; SAW transponder; acoustic reflectivity; electromagnetic interference; giant magneto-impedance sensor; mechanical load; radio request readout; serial resonant circuit; tunable reflector; wireless magnetic field sensor; Acoustic sensors; Acoustic waves; Magnetic devices; Magnetic resonance; Magnetic sensors; Mechanical sensors; Surface acoustic wave devices; Surface acoustic waves; Transponders; Wireless sensor networks;
Conference_Titel :
Applications of Ferroelectrics, 2000. ISAF 2000. Proceedings of the 2000 12th IEEE International Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
0-7803-5940-2
DOI :
10.1109/ISAF.2000.942452
