In this study, the design of a tri-axis micromachined gyroscope is proposed and the vibration characteristic of the structure is analyzed. Tri-axis vibratory gyroscopes that utilize Coriolis effect are the most commonly used micromachined inertial sensors because of theiradvantages, such as low cost, small packaging size, and low power consumption. The proposed design is a single structure with fourproof masses, which are coupled to their adjacent ones. The coupling springs of the proof masses orthogonally transfer the driving vibra-tional motion. The resonant frequencies of the gyroscope are analyzed by finite element method (FEM) simulation. The suspension beam spring design of proof masses limits the resonance frequencies of four modes, ...
This paper reports a novel gimbal-type torsional micromachined gyroscope with a non-resonant actuati...
This paper aims to put forward a detailed sensitivity analysis of an in-plane MEMS gyroscope with re...
Motivated by the increasing demand of integrated inertial-sensing solutions for motion processing an...
We present in this paper a novel fully decoupled silicon micromachined tri-axis linear vibratory gyr...
AbstractThis work presents the design, simulation and experiment of a miniaturized 3-axis gyroscope ...
In this work, a novel micromachined monolithic triaxis gyroscope with an advanced anchor mechanism i...
Most of the current research activities in micromachined gyroscope are focusing on the design of a s...
MasterGyroscopes (gyro) are devices that measure angle or angular rate, based on the principle of co...
This paper reports on designing a single-structure triaxes MEMS capacitive gyroscope which is capabl...
MEMS (Micro-electro-mechanical Systems) refer to devices or systems integrated with electrical and m...
Abstract:- In this paper a MEMS vibrating rate gyroscope design based on previous work [1] was analy...
A linear vibratory MEMS gyroscope is an angular rate sensor. The operation principle is based on two...
Abstract: Mobile Robotic Systems are typically used for applications where direct human involvement ...
© ASEE 2009MEMS (Micro-electro-mechanical Systems) refer to devices or systems integrated with elect...
This paper presents a detailed model for possible vibration effects on MEMS degenerate gyroscopes re...
This paper reports a novel gimbal-type torsional micromachined gyroscope with a non-resonant actuati...
This paper aims to put forward a detailed sensitivity analysis of an in-plane MEMS gyroscope with re...
Motivated by the increasing demand of integrated inertial-sensing solutions for motion processing an...
We present in this paper a novel fully decoupled silicon micromachined tri-axis linear vibratory gyr...
AbstractThis work presents the design, simulation and experiment of a miniaturized 3-axis gyroscope ...
In this work, a novel micromachined monolithic triaxis gyroscope with an advanced anchor mechanism i...
Most of the current research activities in micromachined gyroscope are focusing on the design of a s...
MasterGyroscopes (gyro) are devices that measure angle or angular rate, based on the principle of co...
This paper reports on designing a single-structure triaxes MEMS capacitive gyroscope which is capabl...
MEMS (Micro-electro-mechanical Systems) refer to devices or systems integrated with electrical and m...
Abstract:- In this paper a MEMS vibrating rate gyroscope design based on previous work [1] was analy...
A linear vibratory MEMS gyroscope is an angular rate sensor. The operation principle is based on two...
Abstract: Mobile Robotic Systems are typically used for applications where direct human involvement ...
© ASEE 2009MEMS (Micro-electro-mechanical Systems) refer to devices or systems integrated with elect...
This paper presents a detailed model for possible vibration effects on MEMS degenerate gyroscopes re...
This paper reports a novel gimbal-type torsional micromachined gyroscope with a non-resonant actuati...
This paper aims to put forward a detailed sensitivity analysis of an in-plane MEMS gyroscope with re...
Motivated by the increasing demand of integrated inertial-sensing solutions for motion processing an...