David A. Horsley (Advisor)

Research Advised by Professor David A. Horsley

Mo Li

Alumni
Mechanical Engineering
Professor David A. Horsley (Advisor)
Ph.D. 2014

Interface Electronics for Ultrasonic Transducers

Hao-Yen Tang
Bernhard E. Boser
David A. Horsley
Liwei Lin
2016

Ultrasound has long been used for medical imaging. Recent advances of miniaturized MEMS ultrasonic transducers new applications such as gesture recognition, personal fitness devices, and fingerprint sensors. These devices are considerably smaller than conventional transducers. To benefit from their lower excitation power requirements and address the reduced sensitivity requires the design of novel interface electronic circuits.

The first part of this thesis describes new circuits capable of generating all the high voltage drive signals for MEMS transducers on-chip from a single low...

Tsang-Hung (Jason) Su

Alumni
Mechanical Engineering
Professor David A. Horsley (Advisor)
Ph.D. 2015

Ofer Rozen

Alumni
Mechanical Engineering
Professor David A. Horsley (Advisor)
Ph.D. 2015

Vashwar Rouf

Alumni
Mechanical Engineering
Professor David A. Horsley (Advisor)
Ph.D. 2015

System Design of a Lorentz Force MEMS Magnetic Sensor

Vashwar Rouf
David A. Horsley
Xiaoguang Liu
Rajeevan Amirtharajah
2015
The growing demand of including an inertial measurement unit (IMU) in smart-phones, tablets and wearable devices to facilitate navigation and other location based services is rapidly increasing the market for low cost inertial sensors. At present the most commonly used magnetic sensor is a hall-effect sensor and therefore typically an IMU contains two or more separate chips wire-bonded in a single package. Since a Lorentz force sensor can be designed in the same process as other inertial sensor, it increases the...

Sarah Nitzan

Alumni
Mechanical Engineering
Professor David A. Horsley (Advisor)
Ph.D. 2015

Nonlinear Effects in High-Q Disk Resonator Gyroscopes

Sarah Nitzan
David A. Horsley
Nesrin Sarigul-Klijn
Sanjay Joshi
2015
Gyroscopes, which measure rotational rate or angle, are widely used in applications ranging widely from navigation and vehicle stabilization to applications in consumer electronics, such as image stabilization and gaming. Due to their small size, cost, weight, and power consumption, MEMS gyroscopes in particular have expanded the boundaries of gyroscope technology, enabling many of the current applications which would be impossible or prohibitively expensive with macro-...

Yipeng Lu

Alumni
Mechanical Engineering
Professor David A. Horsley (Advisor)
Ph.D. 2015

Joanne Lo

Alumni
Mechanical Engineering
Professor David A. Horsley (Advisor)
Professor Albert P. Pisano (Advisor)
Ph.D. 2016