Magnetiske og induktive sensorer

1. Måle med: Spole Luftkjerne Ferromagnetisk kjerne Hall sensor Magneto resistiv sensor AMR GMR (CMR) Fluxgate sensor SQUID Hva kan vi måle: AC felt DC felt Ferromagnetiske materialer Ledende materialer Ekstrautstyr: Magnet Eksitasjons spole Magnetiske og induktive sensorer

2. Hall effect (3.8)

3. I=Nqv B ÷ + ÷ + ÷ fE fM ÷ ÷ + qv ÷ + E x x x x x x x x b V Gedanken experiment B v fM ÷ qv Hall coefficient Geometry

4. Characteristics ~108 Tesla 100 Tesla Tesla (126 μT) typisk 50 μT 10-14 Tesla Gauss = 100 μTesla tilsvarer ca 80 A/m To akse melexis hall sensor

5. x x x x x x x x Material characterization Hall coefficient I I B B v fM fM ÷ + qv qv v Polarity of induced voltage can be used to determine the polarity of majority carriers

6. B Feltforsterkning av dipoler

7. Permanent magnet - Hall sensor

9. 3 ”effekter”: Anisotropic magneto resistive (AMR) Giant magneto resistive (GMR) Colossal magneto resistive AMR sensor: Magneto resistive sensorer (MRS) Honeywell: Application Note – AN218 Vehicle Detection Using AMR Sensors

10. 3-akse AMR kompass I2C: Inter IC (Buss) Honeywell :3-Axis Digital Compass IC HMC5843

11. Vehicle detection Earths magnetic field Honeywell: Application Note – AN218 Vehicle Detection Using AMR Sensors

13. Permanent field 1

14. Permanent field 2

15. Eddy current sensor