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Magnetic Materials for New Sensors — Sensor Magnetics —

Published online by Cambridge University Press:  15 February 2011

K. Mohri
K. Mohri*
Affiliation:
Nagoya University, Dept. of Electrical Eng., Furo-cho, Chikusa-ku, Nagoya 464 Japan
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Abstract

”Magnetics sensors” are the key devices to establish intelligent electronics measurement and control systems for development of high level factory automations ( FA ). Various magnetics sensors having quick response, high sensitivity and robustness have been widely developed in these years using amorphous magnetic alloys, magnetoresistive ( MR ) elements, soft ferrites, and high temperature superconductors. These high-performance sensors are spreading in use in the fields of Power-Electronics ( Power Magnetics ), Mechatronics, Medical Electronics ( Medical Magnetics), Information Apparatus, Security Electronics ( Security Magnetics ) etc..

Relations between new magnetic materials and high-performance sensors are summarized and a principle for constitution of these sensors is proposed.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 232: Symposium T – Magnetic Materials: Microstructure and Properties , 1991 , 331
Copyright
Copyright © Materials Research Society 1991

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References

REFERENCES

[ 1 ] Yabe, T. and Ohno, M., Tech. Digest of 8th Sensor Symp., pp. 259–262 ( 1989 ).Google Scholar
[ 2 ] Tech. Report of Fuji Electric Co. ( 1989 ).Google Scholar
[ 3 ] Mohri, K. and Shimizu, K., Tech. Digest of 7th Sensor Symp., pp. 95–98 ( 1987 ).Google Scholar
[ 4 ] Kashiwagi, Y. et al., T. IEEE, MAG–26, No.5, pp. 15661568 ( 1990 ).Google Scholar
[ 5 ] Kimura, K. et al., Tech. Meeting on Magnetics, IEE Japan, MAG–90–180, pp.133142 ( 1990 ).Google Scholar
[ 6 ] Mohri, K. et al., Tech. Digest of 8th Sensor Symp., pp. 235–238 ( 1989 ).Google Scholar
[ 7 ] Mohri, K. et al., T.IEEE, MAG–25, No.5, pp. 35153517 ( 1989 ).Google Scholar
[ 8 ] Mohri, K. et al., T.IEEE, MAG–26, No.5, pp.14421444 ( 1990 ).Google Scholar
[ 9 ] Kashiwagi, Y. et al., T.IEEE, pp.15661568 ( 1990 ).Google Scholar
[ 10 ] Harada, V et al., T.IEEE, MAG–20, No.5, pp. 17261728 ( 1984 ).Google Scholar
[ 11 ] Mohri, K., T.IEEE, pp.942947 ( 1984 ).Google Scholar
[ 12 ] Wiegand, J.R., US Patent No.3820090, June 25 ( 1974 ).Google Scholar
[ 13 ] Mohri, K., Proc. of Symp. on Amorphous Wire and Applications, 36 ( 1990).Google Scholar
[ 14 ] Ogasawara, I., T.IEEE, MAG–26, No.5, pp.17951977 ( 1990 ).Google Scholar
[ 15 ] Uchiyama, T. et al., J. of Japan Society on Magnetics, Vol.13, No.2, pp.439442 ( 1989 ).Google Scholar
[ 16 ] Kimura, K. et al., 5th MMM-Intermag Conf. CE-10 ( 1991 ).Google Scholar
[ 17 ] Matteucci, C.H., Memoire sur le Magnetisme Developpe par le Courant Electrique, C.R. 24, 301 ( 1847 ).Google Scholar
[ 18 ] Mohri, K. et al., T.IEEE, MAG–23, No.5, pp.22122214 ( 1987 ).Google Scholar
[ 19 ] Mohri, K. et al., Proc. 6th Int. Conf. on Biomagnetism, pp. 474477 ( 1987).Google Scholar
[ 20 ] Imamura, N. et al., 46th Conf. on Orthodontics in Japn, 1–2–1339–17 ( 1987 ).Google Scholar
[ 21 ] Miyashita, K. et al., T.IEEE, MAG–23, No.5, pp. 21822184 ( 1987).Google Scholar
[ 22 ] Mohri, K. et al., T.IEEE, MAG–22, No.5, pp.409411 ( 1986 ).Google Scholar
[ 23 ] Mohri, K. et al., T.IEEE, MAG–23, No.5, pp. 21912193 ( 1987 ).Google Scholar
[ 24 ] Ishikawa, K. et al., 5th MMM-Intermag Conf. CE-06 ( 1991 ).Google Scholar