Affiliation:
1. Seoul National University
2. Konkuk University
Abstract
This paper presents an oscillation loop for an INS (Inertial Navigation System) grade, surface micro-machined resonant type accelerometer. This resonant type sensor utilizes the electrostatic stiffness changing effect of an electrostatic actuator. This device produces a frequency output upon an applied acceleration. A closed loop system called self-sustained oscillation loop is prerequisite for its operation as a resonant accelerometer. A self-sustained oscillation loop induces the system’s dynamic states into its primary mode, thus keeps track of its resonant state under applied acceleration or perturbation. For this, a simple self-sustained oscillation loop is designed and the feature of the loop is analyzed in the viewpoint of nonlinear dynamic system. From the standpoint of feedback control system, both determination of resonance point and its stability analysis are required. In the actual system, which has several noise sources, noise can affect the output resonant frequency. We analyzed the effect of a noise on oscillation frequency. Finally, simulation and experimental result is given
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference11 articles.
1. B. L. Lee, C. H. Oh, S. Lee, Y. S. Oh and K. Chun : A vacuum packaged differential resonant accelerometer using gap sensitive electrostatic stiffness changing effect, Proceedings of the 13th International Conference on MEMS, January 2000, Miyazaci, pp.352-357.
2. S. Sung, J. G. Lee, T. Kang and J. W. Song, Design and analysis of nonlinear feedback loop for a resonant accelerometer, Proceedings of European Control Conference (ECC 2001), September 2001, Porto, p.1906-(1911).
3. D. W. Burns, et al., Resonant microbeam accelerometer, International Conference on SolidState Sensors and Actuators (Transducers `95), pp.659-662.
4. Trey A. Rossig, et al., Surface-Micromachined Resonant Accelerometer, " International Conference on Solid State Sensors and Actuators (Transducers , 97), pp.869-862.
5. S. Sung, A Feedback Loop Design for MEMS Resonant Accelerometer Using a Describing Function Technique, Ph.D. Thesis, Seoul National University, Feb (2003).