Title :
A Fluxgate Magnetic Sensor: From PCB to Micro-Integrated Technology
Author :
Baschirotto, Andrea ; Dallago, Enrico ; Malcovati, Piero ; Marchesi, Marco ; Venchi, Giuseppe
Author_Institution :
Dept. of Innovation Eng., Lecce Univ.
Abstract :
In this paper, a double-axis micro Fluxgate magnetic sensor is presented. The device represents an evolution of a PCB dual axis sensor previously realized. In the PCB version the experimental results exhibit excellent agreement with the simulations performed using a tool based on the finite element method. Using the same design approach a version of double-axis Fluxgate structure is here proposed to be realized in IC technology. The accurate study of the magnetic field distribution allows a 75% area saving for the IC version with respect to a direct scaling of the PCB version. Imposing an external magnetic field of about 60 muT, the simulated differential output voltage of the micro-integrated Fluxgate sensor achieves a peak value of 1 mV with 5 mA sinusoidal excitation current peak at 100 kHz. The integrated microstructure shows a linearity error of about 1.15% of the full scale, in the range of plusmn50 muT, with a sensitivity of about 0.45 mV/muT
Keywords :
finite element analysis; fluxgate magnetometers; magnetic sensors; microsensors; printed circuits; 1 mV; 100 kHz; 5 mA; IC technology; PCB; amorphous magnetic core; double-axis fluxgate structure; finite element method; fluxgate magnetic sensor; integrated microstructure; magnetic field distribution; micro integrated technology; sinusoidal excitation; Coils; Energy consumption; Finite element methods; Magnetic cores; Magnetic field measurement; Magnetic fields; Magnetic materials; Magnetic sensors; Topology; Voltage; Amorphous magnetic core; finite element method; magnetic sensors; planar fluxgate;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2006.887218
