This dissertation presents a design methodology for on-chip magnetic bead label detectors based on Hall-effect sensors to be used for biosensor applications. Signal errors caused by the label-binding process and other factors that place constraints on the minimum detector area are quantified and adjusted to meet assay accuracy standards. The methodology is demonstrated by designing an 8,192 element Hall sensor array implemented in a commercial 0.18 μm CMOS process with single mask post-processing. The array can quantify a one percent surface coverage of 2.8 μm beads in thirty seconds...

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Piezoelectric Micromachined Ultrasonic Transducers for Ultrasonic Fingerprint Sensors

Joy (Xiaoyue) Jiang

David A. Horsley

Liwei Lin

Bernhard E. Boser

George C. Johnson

2018

A variety of physical mechanisms have been exploited to capture electronic images of a human fingerprint, including optical, capacitive, pressure, and acoustic mechanisms. Compared to other technologies, ultrasonic fingerprint sensors have two major advantages (1) they are insensitive to contamination and moisture on the finger (2) they have the ability to measure images at multiple depths hundreds of microns from the sensor surface. With the maturity of the thin film piezoelectric materials technology and MEMS-CMOS eutectic wafer-bonding process, piezoelectric micromachined...

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