GMR angle detector with an artificial antiferromagnetic subsystem (AAF)

被引:81
|
作者
vandenBerg, HAM [1 ]
Clemens, W [1 ]
Gieres, G [1 ]
Rupp, G [1 ]
Vieth, M [1 ]
Wecker, J [1 ]
Zoll, S [1 ]
机构
[1] IPCMS GEMM,F-67037 STRASBOURG,FRANCE
来源
JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS | 1997年 / 165卷 / 1-3期
关键词
giant magnetoresistance; exchange coupling - interlayer; sensors; -; magnetoresistive; angle detection;
D O I
10.1016/S0304-8853(96)00607-5
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
A magnetoresistive GMR sensor scheme for detection of angular positions is demonstrated and analyzed in which the hard magnetic layers are replaced by artificial antiferromagnetic subsystems (AAFs). These consist of ferromagnetic layers (Go) that are antiferromagnetically coupled via interlayers (Cu or Ru). The rigidity of this AAF is improved by an order of magnitude as compared to the individual Co layers. Operational field windows for 360 degrees angle detectors of 15-20 kA/m have been realized. The maximal sensor signal Delta rho/rho is 6%. The temperature operation range extends up to 150 degrees C. The angle resolution is about 1 degrees.
引用
收藏
页码:524 / 528
页数:5
相关论文
共 50 条
  • [1] GMR angle detector with an artificial antiferromagnetic subsystem (AAF)
    Siemens AG, Erlangen, Germany
    J Magn Magn Mater, 1-3 (524-528):
  • [2] GMR sensor scheme with artificial antiferromagnetic subsystem
    vandenBerg, HAM
    Clemens, W
    Gieres, G
    Rupp, G
    Schelter, W
    Vieth, M
    IEEE TRANSACTIONS ON MAGNETICS, 1996, 32 (05) : 4624 - 4626
  • [3] GMR sensor scheme with artificial antiferromagnetic subsystem
    van den Berg, H.A.M.
    Clemens, W.
    Gieres, G.
    Rupp, G.
    Schelter, W.
    Vieth, M.
    IEEE Transactions on Magnetics, 1996, 32 (5 pt 2): : 4624 - 4626
  • [4] Contactless current detection with GMR sensors based on an artificial antiferromagnet (AAF) subsystem
    Vieth, M
    Clemens, W
    van den Berg, H
    Rupp, G
    Wecker, J
    Kroeker, M
    SENSORS AND ACTUATORS A-PHYSICAL, 2000, 81 (1-3) : 44 - 48
  • [5] Magnetic tunnel sensors with Co-Cu artificial antiferromagnetic (AAF) hard subsystem
    van den Berg, HAM
    Altmann, J
    Bär, L
    Gieres, G
    Kinder, R
    Rupp, R
    Vieth, M
    Wecker, J
    IEEE TRANSACTIONS ON MAGNETICS, 1999, 35 (05) : 2892 - 2894
  • [6] Hard-soft GMR sensors with Co-Rh based artificial antiferromagnetic subsystem
    van den Berg, HAM
    Rupp, G
    Clemens, W
    Gieres, G
    Vieth, M
    Wecker, J
    Zoll, S
    IEEE TRANSACTIONS ON MAGNETICS, 1998, 34 (04) : 1336 - 1338
  • [7] Vibration detector based on GMR sensors
    Pelegri, J.
    Alberola, J.
    Lajara, R.
    Santiso, J.
    2007 IEEE INSTRUMENTATION & MEASUREMENT TECHNOLOGY CONFERENCE, VOLS 1-5, 2007, : 938 - 942
  • [8] CoFe/Ir/CoFe artificial antiferromagnetic sandwich as a hard magnetic layer in hard-soft GMR sensors
    Colis, S
    Dinia, A
    Ulhaq-Bouillet, C
    IEEE TRANSACTIONS ON MAGNETICS, 2001, 37 (04) : 1736 - 1738
  • [9] Vibration Detector Based on GMR Sensors
    Sebastia, Jose Pelegri
    Lluch, Jorge Alberola
    Vizcaino, J. Rafael Lajara
    Bellon, Jesus Santiso
    IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 2009, 58 (03) : 707 - 712
  • [10] The star detector magnet subsystem
    Brown, RL
    Etkin, A
    Foley, KJ
    Leonhardt, WJ
    Mills, JA
    Polk, I
    Rodger, ES
    Scheblein, JA
    Schlueter, RD
    PROCEEDINGS OF THE 1997 PARTICLE ACCELERATOR CONFERENCE, VOLS 1-3: PLENARY AND SPECIAL SESSIONS ACCELERATORS AND STORAGE RINGS - BEAM DYNAMICS, INSTRUMENTATION, AND CONTROLS, 1998, : 3230 - 3232
12345