3D analytical and numerical modeling of spherical structures
Autor: | Ninhuijs, van, B., Motoasca, T.E., Lomonova, E. |
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Přispěvatelé: | Electromechanics and Power Electronics, Electromechanics Lab |
Jazyk: | angličtina |
Rok vydání: | 2012 |
Předmět: | |
Zdroj: | Proceedings of the Sitxth IEEE Young Researchers Symposium in Electrical Power Engineering : challenges in sustainable electrical energy, 16-17 April, 2012, Delft, The Netherlands, 1-5 STARTPAGE=1;ENDPAGE=5;TITLE=Proceedings of the Sitxth IEEE Young Researchers Symposium in Electrical Power Engineering : challenges in sustainable electrical energy, 16-17 April, 2012, Delft, The Netherlands |
Popis: | In robotic applications, multiple one-degree of freedom electromagnetic actuators together with gearboxes are used for mimicking the multiple degree of freedom motion profiles of human limbs. However, this results in heavy and bulky robotics. A lighter alternative can be provided by the use of spherical electromagnetic actuators in directly driven human-like joints. These spherical actuators have a relative similarity to human joints and also can provide multiple degrees of freedom motion without gearboxes. Existing spherical actuator prototypes still cannot deliver torques required for applications such as robots. Therefore development of accurate and fast analytical models to replace the time-consuming finite element simulations can be a valuable tool for analysis, design and optimization of spherical actuators. As a first step in development of an analytical model of spherical actuators, this paper presents the analytical model of an array of permanent magnets distributed on a spherical surface. The considered structure represents in fact the rotor of a spherical actuator. It has been shown that the developed analytical model can provide fast and accurate calculation of the magnetic flux density distribution in the whole domain. In the same time the analytical model allows optimization of the array structure in view of its integration in a complete analytical model of a spherical actuator. |
Databáze: | OpenAIRE |
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