Add to ORKGA reaction sphere (RS) is a novel and promising actuator for microspacecraft attitude control systems (ACSs). However, the detection of the motor status, such as the rotating speed of the spherical rotor, is a difficult task. The equivalent circuit can be used to predict the motor status. This article presents an improved multi-layer transfer-matrix method for the equivalent circuit parameters' calculation. Results compared with a finite element analysis (FEA) show that the proposed analytical model achieves an acceptable accuracy within the operating speed range. Meanwhile, its computation time is 0.072 s, on average, which is only 0.0003% of the FEA
It is well documented that reaction wheels are among the most significant microvibration sources in ...
The paper introduces the mathematical model of rotor for active magnetic bearing reaction/momentum w...
Reaction Wheel Assemblies (RWAs) are actuators commonly used for satellite attitude control. During ...
Induction-based reaction spheres have been presented in many references and their performances are n...
Reaction sphere actuators are potential alternatives to momentum exchange devices for satellite atti...
In recent years, the increasing need in small satellite solutions triggers the miniaturization of at...
In past decades, small spacecraft have raised worldwide interest for their low cost and short develo...
With the rapid development of micro-spacecraft, miniaturization has become a key problem in attitude...
This article presents the first closed-loop magnetic bearing and angular velocity experimental resul...
This paper presents the rotor design optimization for a reaction sphere (RS) actuator. The RS is a p...
In different types of spacecraft, such as stabilised satellites, the Attitude Determination and Cont...
In robotic applications, multiple one-degree of freedom electromagnetic actuators together with gear...
This paper presents the design and optimization aspect of a reaction sphere. Firstly, a novel reacti...
This paper presents a novel angular velocity estimation strategy of a Reaction Sphere (RS) for satel...
In robotic applications, multiple one-degree of freedom electromagnetic actuators together with gear...
It is well documented that reaction wheels are among the most significant microvibration sources in ...
The paper introduces the mathematical model of rotor for active magnetic bearing reaction/momentum w...
Reaction Wheel Assemblies (RWAs) are actuators commonly used for satellite attitude control. During ...
Induction-based reaction spheres have been presented in many references and their performances are n...
Reaction sphere actuators are potential alternatives to momentum exchange devices for satellite atti...
In recent years, the increasing need in small satellite solutions triggers the miniaturization of at...
In past decades, small spacecraft have raised worldwide interest for their low cost and short develo...
With the rapid development of micro-spacecraft, miniaturization has become a key problem in attitude...
This article presents the first closed-loop magnetic bearing and angular velocity experimental resul...
This paper presents the rotor design optimization for a reaction sphere (RS) actuator. The RS is a p...
In different types of spacecraft, such as stabilised satellites, the Attitude Determination and Cont...
In robotic applications, multiple one-degree of freedom electromagnetic actuators together with gear...
This paper presents the design and optimization aspect of a reaction sphere. Firstly, a novel reacti...
This paper presents a novel angular velocity estimation strategy of a Reaction Sphere (RS) for satel...
In robotic applications, multiple one-degree of freedom electromagnetic actuators together with gear...
It is well documented that reaction wheels are among the most significant microvibration sources in ...
The paper introduces the mathematical model of rotor for active magnetic bearing reaction/momentum w...
Reaction Wheel Assemblies (RWAs) are actuators commonly used for satellite attitude control. During ...