• DocumentCode
    1526811
  • Title

    New hybrid technology for planar fluxgate sensor fabrication

  • Author

    Dezuari, Olivier ; Belloy, Eric ; Gilbert, Scott E. ; Gijs, Martin A M

  • Author_Institution
    Inst. of Microsyst., Swiss Fed. Inst. of Technol., Lausanne, Switzerland
  • Volume
    35
  • Issue
    4
  • fYear
    1999
  • fDate
    7/1/1999 12:00:00 AM
  • Firstpage
    2111
  • Lastpage
    2117
  • Abstract
    We have adapted a new printed circuit board (PCB) technology to the fabrication of ultraflat and sensitive fluxgate magnetic field sensors. The two outer layers of the PCB stack compose the electrical windings of fluxgates, while the inner layer is made of a micro-patterned amorphous magnetic ribbon with extremely high relative magnetic permeability (μr≈100 000). Two basic configurations were considered: one based on a toroidal magnetic core and the other on a rectangular core with and without an air gap. The field response and sensitivity of the fluxgate devices have been studied as a function of the gap length, the excitation current, and excitation frequency. Compared to fluxgate sensors of similar size, a relatively high sensitivity of 60 V/T was found at 30 kHz for a five-winding detection coil wound around a rectangular E-shaped magnetic core. This high performance is primarily attributable to the high-permeability magnetic core. The results clearly show the potential of this fluxgate device for application as a magnetic sensor
  • Keywords
    fluxgate magnetometers; magnetic cores; magnetic permeability; magnetic sensors; 30 kHz; PCB stack; excitation current; excitation frequency; field response; five-winding detection coil; gap length; micro-patterned amorphous magnetic ribbon; planar fluxgate sensor fabrication; rectangular E-shaped magnetic core; rectangular core; relative magnetic permeability; toroidal magnetic core; Amorphous magnetic materials; Amorphous materials; Fabrication; Frequency; Magnetic cores; Magnetic sensors; Permeability; Printed circuits; Sensor phenomena and characterization; Toroidal magnetic fields;
  • fLanguage
    English
  • Journal_Title
    Magnetics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9464
  • Type

    jour

  • DOI
    10.1109/20.774180
  • Filename
    774180