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ucin1277465560.pdf (2.94 MB)
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Abstract Header
Micromachined On-Chip Fluxgate Magnetometers with Low Power Consumption
Author Info
Wu, Pei-Ming
Permalink:
http://rave.ohiolink.edu/etdc/view?acc_num=ucin1277465560
Abstract Details
Year and Degree
2010, PhD, University of Cincinnati, Engineering : Electrical Engineering.
Abstract
A new micromachined on-chip magnetometer with low power consumption has been designed, fabricated, and fully characterized in this research work. Based on permalloy magnetic core, two novel CMOS-compatible micro fluxgate sensors have been developed and characterized in terms of low power consumption. In addition, a low-power interface integrated circuit has been developed and characterized for the developed sensors. Experiment shows that the magnetometer combined with the micro fluxgate sensor and the interface circuit consumes power comparable to that of the other state-of-the-art magnetometer systems. First, a micromachined ring-core fluxgate sensor utilizing localized core saturation method to reduce its power consumption is presented. The design is accomplished through 3D electromagnetic simulation. A low power design has achieved the power consumption of 14.4 mW and sensitivity of 590 V/T at 60 μT with an excitation current of 80 mA. Based on the design, fabricated devices have shown the power consumption of 14 mW and sensitivity of 650 V/T at 60 μT with an excitation current of 75 mA. The simulation and the experimental results showed a good agreement, which supports the new approach for the design of low-power fluxgates valid. In addition, measurements using a second harmonics-based detection circuit have been adopted, so the noise, stability and perming effect of the fabricated device are explored. Second, a new micro orthogonal fluxgate sensor with solenoid sensing coils is presented. The sensor consumes the power of 16 mW with an excitation current of 140 mA. The sensor occupies an active area of merely 2 mm by 0.15 mm with sensitivity of 0.1 V/T and linearity of 2.5 %. Its temperature coefficient of offset drift shows only 125 nT/°C even with such small sensitivity. This sensor type shows great potential to be manufactured with small size, low power, and high performance with low cost. Finally, a pulse-operating interface integrated circuit that can reduce the total power consumption of a fluxgate magnetometer is introduced and developed. The circuit works under power supply of +/-2.5V with 75 mA current driving capability. Total power consumption of 14 mW is achieved in the magnetometer comprised of the circuit and the first low power micro fluxgate sensor. The overall system sensitivity is 250 V/T. The corresponding rms noise is 400 nT/√Hz at 1 Hz. In this research work, a low power magnetometer system based on micro fluxgate sensors with permalloy magnetic core and pulse-operating integrated IC has been developed and successfully characterized. The newly developed sensors can have numerous applications that are previously untouched by the conventional fluxgate sensors that are bulky, expensive, and high power consumption
Committee
Chong Ahn, PhD (Committee Chair)
Marc Cahay, PhD (Committee Member)
Joseph Nevin, PhD (Committee Member)
Sang Young Son, PhD (Committee Member)
Punit Boolchand, PhD (Committee Member)
Pages
152 p.
Subject Headings
Electrical Engineering
Keywords
Fluxgate
;
Low power
;
magnetic sensor
;
CMOS
;
MEMS
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Refworks
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Citations
Wu, P.-M. (2010).
Micromachined On-Chip Fluxgate Magnetometers with Low Power Consumption
[Doctoral dissertation, University of Cincinnati]. OhioLINK Electronic Theses and Dissertations Center. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1277465560
APA Style (7th edition)
Wu, Pei-Ming.
Micromachined On-Chip Fluxgate Magnetometers with Low Power Consumption.
2010. University of Cincinnati, Doctoral dissertation.
OhioLINK Electronic Theses and Dissertations Center
, http://rave.ohiolink.edu/etdc/view?acc_num=ucin1277465560.
MLA Style (8th edition)
Wu, Pei-Ming. "Micromachined On-Chip Fluxgate Magnetometers with Low Power Consumption." Doctoral dissertation, University of Cincinnati, 2010. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1277465560
Chicago Manual of Style (17th edition)
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Document number:
ucin1277465560
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© 2009, all rights reserved.
This open access ETD is published by University of Cincinnati and OhioLINK.