Title :
Metglas/PZT-Magnetoelectric 2-D Geomagnetic Device for Computing Precise Angular Position
Author :
Duc, N.H. ; Tu, B.D. ; Ngoc, N.T. ; Lap, V.D. ; Giang, D. T. Huong
Author_Institution :
Dept. of Nano Magn. Mater. & Devices, VNU Univ. of Eng. & Technol., Cau Giay, Vietnam
Abstract :
A magnetoelectric 2-D geomagnetic device for the precisely angular position computation is provided. The magnetic sensor module consists of two Metglas/PZT magnetoelectric 1-D sensors in an orthogonal arrangement. The sensor signals are excited and detected by a self-made digital lock-in amplifier. For mapping output sensor signals, normalization was performed on the operational module. Both spatial (azimuth and pitch) angles are then easily computed while rotating and/or swinging the sensor module. This simple and low-cost geomagnetic device is integrated with mobile transceivers for automatic determination and control of the latter antenna direction with respect to the position of the geostationary satellite in communication.
Keywords :
antennas; geomagnetism; lead compounds; magnetic amplifiers; magnetic sensors; magnetoelectric effects; metallic glasses; satellite communication; transceivers; PZT; antenna direction; automatic determination; azimuth angle; geostationary satellite; low-cost geomagnetic device; magnetic sensor module; metglas-PZT magnetoelectric 1D sensors; metglas-PZT-magnetoelectric 2D geomagnetic device; mobile transceivers; normalization; operational module; orthogonal arrangement; pitch angle; precise angular position computation; self-made digital lock-in amplifier; sensor signals; spatial angles; Amorphous magnetic materials; Azimuth; Laminates; Magnetic fields; Magnetic sensors; Magnetoelectric effects; Digital signal processing; geomagnetism; magnetic field measurement; magnetoelectric effects;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2241446
