论文信息 - Mathematical Modelling on the Quadrature Error of Low-rate Microgyroscope for Aerospace Applications

Mathematical Modelling on the Quadrature Error of Low-rate Microgyroscope for Aerospace Applications

This paper presents the mathematical modelling on the quadrature error of a microgyroscope due to the imbalance of the asymmetric spring flexures. Quadrature error occurs when the proof mass of a microgyroscope oscillates along an axis that is not exactly parallel to the lateral-axis. The imbalance due to manufacturing variation can cause the proof mass to rotate when a force acts on the proof mass. The proposed mathematical model was verified by the finite element software IntelliCAD, and found to have a good agreement on angles of rotation of comb fingers. The mathematical model provides a new avenue in evaluating the quadrature error system and in saving the overall simulation time.

Yung C. Liang | Francis E. H. Tay | Bao Y. Yeh

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