Title :
Recent Advances of Pico-Tesla Resolution Magneto-Impedance Sensor Based on Amorphous Wire CMOS IC MI Sensor
Author :
Uchiyama, T. ; Mohri, K. ; Honkura, Y. ; Panina, L.V.
Author_Institution :
Grad. Sch. of Eng., Nagoya Univ., Nagoya, Japan
Abstract :
We have developed sensitive micro magnetic sensors referred to as MI sensors based on magneto-impedance effect in amorphous wires and CMOS IC electronic circuits providing a sharp-pulse excitation. Micro sized MI-HIC chips have been in mass production of electronic compasses by Aichi Steel Corp. since 2002 for mobile phones and since 2010 for smart phones. Recently we have realized pico-Tesla (10-8 Oe) resolution for micro MI sensors making use of ultralow intrinsic magnetic noise in amorphous wires with the pulse magnetoimpedance effect. The pico-Tesla MI sensor is useful especially for bio-magnetic measurements without any magnetic shielding at room temperature. In order to avoid a risk of traffic accident due to noise reduction electric vehicles, an alert system for the pedestrians having a smart phone would be useful, if pico-Tesla MI sensor were built in the smart phones.
Keywords :
CMOS integrated circuits; amorphous state; biomagnetism; compasses; magnetic noise; magnetic sensors; mass production; micromagnetics; microsensors; mobile handsets; wires; CMOS IC electronic circuits; MI-HIC chip; amorphous wire; biomagnetic measurement; electronic compass; magnetic noise; mass production; micro MI sensor; micromagnetic sensor; mobile phones; pico-Tesla MI sensor; pico-Tesla resolution; pulse excitation; pulse magnetoimpedance effect; smart phones; Amorphous magnetic materials; Coils; Magnetic cores; Magnetic domains; Magnetic noise; Magnetic shielding; Wires; Biomagnetic field; electronic compass; magnetoencephalogram (MEG); magnetoimpedance sensor; pico-tesla resolution; spine;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2012.2198627
