Add to ORKGWe report, for the first time, a quasi-digital angular rate sensor based on mechanical frequency modulation (FM) of the input rotation rate. The new approach relies on tracking of the resonant frequencies of two ultra-high Q-factor mechanical modes of vibration in a MEMS vibratory gyroscope to produce a frequency based measurement of the input angular rate. Rate table characterization of the new FM angular rate sensor with quality factors of 1 million revealed a linear dynamic range of 2000 deg/s limited by the setup, with a fundamental performance limit in excess of 72,000 deg/s. Temperature characterization of the FM rate sensor exhibited less than 0.2 % variation of the angular rate response between 25 °C and 70 °C environments, enabled ...
The goal of this research is to introduce nonlinear microresonator designs that utilize nonlinear mo...
In this work, the mechanical design and the experimental validation of a micro-electromechanical fre...
Prohibitive cost and large size of conventional angular rate sensors have limited their use to large...
Abstract — This paper reports a detailed characterization of a new rate gyroscope based on the mecha...
This paper reports our cumulative progress toward the development of a gyroscope with two interchang...
This paper presents a single-axis angular rate sensor that is robust to variations in its operating ...
Principles of construction of a micromechanical angular-rate sensor on the basis of the wave solid-s...
In order to eliminate the frequency mismatch of MEMS (Microelectromechanical Systems) gyroscopes, th...
This paper reports real-time tuning of the JPL-Boeing micromachined vibratory rate sensor. The ideal...
This paper reports a new MEMS vibratory rate gyroscope de-signed with increased robustness to fabric...
We report characterization of a silicon MEMS rate gyroscope with measured sub-deg/hr bias stability,...
MEMS gyroscopes are micro-devices able to measure the external angular rate through the exploitation...
Micro-Electro-Mechanical Systems (MEMS) gyroscopes are inertial sensors for the measurement of angul...
The work presents and characterizes a frequency digitization circuit used in a multi-parameter, mult...
MEMS gyroscopes are miniature sensors which detect angular velocity. The most typical architecture g...
The goal of this research is to introduce nonlinear microresonator designs that utilize nonlinear mo...
In this work, the mechanical design and the experimental validation of a micro-electromechanical fre...
Prohibitive cost and large size of conventional angular rate sensors have limited their use to large...
Abstract — This paper reports a detailed characterization of a new rate gyroscope based on the mecha...
This paper reports our cumulative progress toward the development of a gyroscope with two interchang...
This paper presents a single-axis angular rate sensor that is robust to variations in its operating ...
Principles of construction of a micromechanical angular-rate sensor on the basis of the wave solid-s...
In order to eliminate the frequency mismatch of MEMS (Microelectromechanical Systems) gyroscopes, th...
This paper reports real-time tuning of the JPL-Boeing micromachined vibratory rate sensor. The ideal...
This paper reports a new MEMS vibratory rate gyroscope de-signed with increased robustness to fabric...
We report characterization of a silicon MEMS rate gyroscope with measured sub-deg/hr bias stability,...
MEMS gyroscopes are micro-devices able to measure the external angular rate through the exploitation...
Micro-Electro-Mechanical Systems (MEMS) gyroscopes are inertial sensors for the measurement of angul...
The work presents and characterizes a frequency digitization circuit used in a multi-parameter, mult...
MEMS gyroscopes are miniature sensors which detect angular velocity. The most typical architecture g...
The goal of this research is to introduce nonlinear microresonator designs that utilize nonlinear mo...
In this work, the mechanical design and the experimental validation of a micro-electromechanical fre...
Prohibitive cost and large size of conventional angular rate sensors have limited their use to large...