Title :
Real-time broadband subnoise level signal extraction in Hall sensors
Author :
Mosser, Vincent ; Haddab, Yassine
Author_Institution :
ITC, Itron France, Issy-les-Moulineaux, France
Abstract :
This paper deals with the optimization of the “spinning-current” modulation method for cancelling the low-frequency noise at the output of a Hall sensor. This method, based on Onsager reciprocity relationships through the reverse-magnetic-field-reciprocity theorem of Sample et al., allows extracting magnetic field signals whose spectral intensity is much lower than the PSD of the low-frequency (LF) noise observed in the measurement: this includes the LF noise of the Hall sensor, the LF noise of the preamplifier, or the environmental noise due to electromagnetic interferences (EMI). Contrarily to methods based on the lock-in detection principle, which results in a narrow bandpass filtering, the LF-noise-free magnetic sensor signal remains broadband (DC to kHz). An improvement of 30dB in the S/N ratio can be observed around 1 Hz.
Keywords :
Hall effect devices; electromagnetic interference; magnetic field measurement; magnetic sensors; optimisation; preamplifiers; EMI; Hall sensors; LF noise; PSD; S-N ratio; electromagnetic interferences; environmental noise; gain 30 dB; lock-in detection principle; low-frequency noise; narrow bandpass filtering; onsager reciprocity relationships; optimization; preamplifier; real-time broadband subnoise level signal extraction; reverse-magnetic-field-reciprocity theorem; spectral intensity; spinning-current modulation method; Demodulation; Low-frequency noise; Magnetic sensors; Spinning; Hall sensor; Noise signal-to-noise ratio; lock-in; magnetic sensor; modulation; spinning current;
Conference_Titel :
Noise and Fluctuations (ICNF), 2013 22nd International Conference on
Conference_Location :
Montpellier
Print_ISBN :
978-1-4799-0668-0
DOI :
10.1109/ICNF.2013.6578903
