There is a short overview of design and principle of operation of vibrating beams gyroscopes and vibrating ring gyroscopes. Principal disadvantages of such constructions are revealed. The short description of design and principle of operation of autooscillation (self-oscillation) micromechanical gyroscope are adduced. Showed that this principles allow to solve a lot of problems those are connected with described problems. Index Terms: overview, micromechanics, gyroscope, construction, principle of operation, vibrating beam, vibrating ring, vibrating plate, autooscillation (self-oscillation)
In this paper we analyze self-oscillation loop for MEMS vibratory gyroscopes, present analytical equ...
Recently, consumer applications have dramatically created the demand for low-cost and compact gyrosc...
Microelectromechanical systems (MEMS) is an evolution and expansion of micromachining technology. ME...
Most of the current research activities in micromachined gyroscope are focusing on the design of a s...
This review surveys micromachined gyroscope structure and circuitry technology. The principle of mic...
The invention relates to a micromechanical gyroscope comprising a substrate, at least one gyroscopic...
In this paper we summarize principles of operation of micromachined gyroscopes, analyze dynamics of ...
There’re a short constructive description and a physical bases description of a vibrating ring gyros...
A general approach to the analysis of the dynamics of different types of micromechanical vibratory g...
This paper presents a detailed model for possible vibration effects on MEMS degenerate gyroscopes re...
This study presents a new microelectromechanical system, a vibration ring gyroscope with a double U-...
This paper proposes a novel micro vibrating gyroscope. It is based on the thickness extension vibrat...
Micromachined gyroscopes are probably the most challenging type of transducers ever attempted to be ...
are based on the principle that the Coriolis forces produced by rotation of the gyro cause a transfe...
This paper reports a novel gimbal-type torsional micromachined gyroscope with a non-resonant actuati...
In this paper we analyze self-oscillation loop for MEMS vibratory gyroscopes, present analytical equ...
Recently, consumer applications have dramatically created the demand for low-cost and compact gyrosc...
Microelectromechanical systems (MEMS) is an evolution and expansion of micromachining technology. ME...
Most of the current research activities in micromachined gyroscope are focusing on the design of a s...
This review surveys micromachined gyroscope structure and circuitry technology. The principle of mic...
The invention relates to a micromechanical gyroscope comprising a substrate, at least one gyroscopic...
In this paper we summarize principles of operation of micromachined gyroscopes, analyze dynamics of ...
There’re a short constructive description and a physical bases description of a vibrating ring gyros...
A general approach to the analysis of the dynamics of different types of micromechanical vibratory g...
This paper presents a detailed model for possible vibration effects on MEMS degenerate gyroscopes re...
This study presents a new microelectromechanical system, a vibration ring gyroscope with a double U-...
This paper proposes a novel micro vibrating gyroscope. It is based on the thickness extension vibrat...
Micromachined gyroscopes are probably the most challenging type of transducers ever attempted to be ...
are based on the principle that the Coriolis forces produced by rotation of the gyro cause a transfe...
This paper reports a novel gimbal-type torsional micromachined gyroscope with a non-resonant actuati...
In this paper we analyze self-oscillation loop for MEMS vibratory gyroscopes, present analytical equ...
Recently, consumer applications have dramatically created the demand for low-cost and compact gyrosc...
Microelectromechanical systems (MEMS) is an evolution and expansion of micromachining technology. ME...