1. An Automatic Loop Gain Enhancement Technique in Magnetoimpedance-Based Magnetometer.
- Author
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Akita, Ippei, Kawano, Takeshi, Aoyama, Hitoshi, Tatematsu, Shunichi, and Hioki, Masakazu
- Subjects
MAGNETOMETERS ,COMPLEMENTARY metal oxide semiconductors ,MAGNETIC circuits ,MAGNETIC tunnelling ,MAGNETIC domain ,SWITCHING circuits ,VOLTAGE-controlled oscillators - Abstract
A low-power, low-noise, and high-bandwidth magnetometer that utilizes the magnetoimpedance (MI) element as a sensor head is presented. The MI element has a high sensitivity, and it can be implemented in the mm-scale through the MEMS process. The analog front-end (AFE) circuit of the magnetometer includes a digital calibration scheme that automatically enhances the loop gain of the system, resulting in high bandwidth and low-noise characteristics. The AFE circuit is designed based on a switched-capacitor (SC) approach, and its dedicated switching scheme can suppress the folded noise of an amplifier. A single-coil magnetic negative feedback architecture with correlated double sampling (CDS) enables to achieve a high dynamic range (DR) and stable passband gain in addition to simplifying the structure of the MI element. The AFE chip of the magnetometer is implemented in a 0.18- $\mu \text{m}$ CMOS process, and it achieves an 8-pT/ $\surd $ Hz noise floor within a 31-kHz bandwidth and the DR of 96 dB, where the power consumption is 1.97 mW. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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