Add to ORKGA contactless Electro-Magnetic Isolator (EMI) is designed for gravity compensation of a heavy payload by passive Permanent Magnetic (PM) force and control by active Lorentz force. The theoretically calculated PM force and torque produced by this EMI are presented. To characterize the EMI and to evaluate the vibration isolation performance, the Single EMI System (SEMIS) is designed by adding three horizontal and three vertical Lorentz actuators for control. It is a six Degrees-of-Freedom (DOF) contactless electromagnetic suspension system possessing the properties of inherent instability, nonlinearity, no mechanical contact, passive gravity compensation. The physical SEMIS model is developed based on reasonable assumptions and approximations...
Vibration isolation systems are widely used in many engineering applications. In some of the advance...
Magnetic Levitation Systems (MLS) is a higher advanced technology without any mechanical contact tha...
Since orbitting space stations do not provide a perfect micro-gravity environment, vibration isolat...
A contactless Electro-Magnetic Isolator (EMI) is designed for gravity compensation of a heavy payloa...
A control strategy of combining H¿ control and feedback linearization was applied to the model of a...
This paper concerns measurements on an electromagnetic six Degrees-of-Freedom (DoF) anti-vibration s...
This paper studies closed-loop identification of the Permanent Magnetic (PM) force produced by an un...
Vibration is recognised as one of the most significant disturbances to the operation of mechanical s...
Two active vibration isolation methods, Virtually Increasing Mass (VIM) control and On-Off Mass (OOM...
A Frequency-Shaped Sliding Surface Control (FSSSC) approach is applied to an unstable model of a can...
In contrast with the vibration isolation regime, which requires active elements, the gravity compens...
Vibration isolation systems are widely used in many engineering applications. In some of the advance...
Magnetic Levitation Systems (MLS) is a higher advanced technology without any mechanical contact tha...
Since orbitting space stations do not provide a perfect micro-gravity environment, vibration isolat...
A contactless Electro-Magnetic Isolator (EMI) is designed for gravity compensation of a heavy payloa...
A control strategy of combining H¿ control and feedback linearization was applied to the model of a...
This paper concerns measurements on an electromagnetic six Degrees-of-Freedom (DoF) anti-vibration s...
This paper studies closed-loop identification of the Permanent Magnetic (PM) force produced by an un...
Vibration is recognised as one of the most significant disturbances to the operation of mechanical s...
Two active vibration isolation methods, Virtually Increasing Mass (VIM) control and On-Off Mass (OOM...
A Frequency-Shaped Sliding Surface Control (FSSSC) approach is applied to an unstable model of a can...
In contrast with the vibration isolation regime, which requires active elements, the gravity compens...
Vibration isolation systems are widely used in many engineering applications. In some of the advance...
Magnetic Levitation Systems (MLS) is a higher advanced technology without any mechanical contact tha...
Since orbitting space stations do not provide a perfect micro-gravity environment, vibration isolat...