Add to ORKGAbstract. Impact resistance angular displacement sensors are widely used in motion mechanical system, which not only requires the sensor having the advantages of large measurement range, long life, also the sensor need to withstand shock and vibration. We use the finite element analysis on the key structure of the sensor and design the sensor circuit.. The sensor has the advantages of high strength shell and flexible packaging, and it can withstand the impact of the gravitational acceleration 100g on three directions
To measure large external forces exerted on a loading platform, a novel three-dimensional force sens...
This study proposes a new piezoelectric 12-DOF force/acceleration sensor structure to measure forces...
On the basis of analyzing the disadvantage of other structural accelerometer, three-axis high g MEMS...
Small, lightweight angular accelerometer performs reliably when subjected to harsh temperature and v...
This article examines the construction of sensor for measuring the sagging. It is the frame, which ...
In the past, acceleration sensors have mostly been used for measurements of earthquakes or in aeros...
Includes bibliographical references (pages [138]-142)Accurate measurements of the displacements in l...
Angular acceleration is an important parameter for status monitoring and fault diagnosis of rotary m...
Abstract Acceleration detection is an important technology in the fields of seismic monitoring, stru...
In this thesis, a tetrahedral acceleration sensor assembly carried by the MASCOT-2 asteroid lander i...
A new piezoresistive high-g accelerometer is presented that was developed on the basis of an unconve...
Microelectromechanical systems (MEMS)-based high-performance accelerometers are ubiquitously used in...
Due to their remote location, some applications of structures in space environments require that the...
This paper reports on a novel piezoresistive high-g accelerometer design, that partially overcomes a...
This work focuses on the proof-mass mechanical structural design improvement of a tri-axial piezores...
To measure large external forces exerted on a loading platform, a novel three-dimensional force sens...
This study proposes a new piezoelectric 12-DOF force/acceleration sensor structure to measure forces...
On the basis of analyzing the disadvantage of other structural accelerometer, three-axis high g MEMS...
Small, lightweight angular accelerometer performs reliably when subjected to harsh temperature and v...
This article examines the construction of sensor for measuring the sagging. It is the frame, which ...
In the past, acceleration sensors have mostly been used for measurements of earthquakes or in aeros...
Includes bibliographical references (pages [138]-142)Accurate measurements of the displacements in l...
Angular acceleration is an important parameter for status monitoring and fault diagnosis of rotary m...
Abstract Acceleration detection is an important technology in the fields of seismic monitoring, stru...
In this thesis, a tetrahedral acceleration sensor assembly carried by the MASCOT-2 asteroid lander i...
A new piezoresistive high-g accelerometer is presented that was developed on the basis of an unconve...
Microelectromechanical systems (MEMS)-based high-performance accelerometers are ubiquitously used in...
Due to their remote location, some applications of structures in space environments require that the...
This paper reports on a novel piezoresistive high-g accelerometer design, that partially overcomes a...
This work focuses on the proof-mass mechanical structural design improvement of a tri-axial piezores...
To measure large external forces exerted on a loading platform, a novel three-dimensional force sens...
This study proposes a new piezoelectric 12-DOF force/acceleration sensor structure to measure forces...
On the basis of analyzing the disadvantage of other structural accelerometer, three-axis high g MEMS...