The Experts below are selected from a list of 360 Experts worldwide ranked by ideXlab platform
Meng-dar Shieh - One of the best experts on this subject based on the ideXlab platform.
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Interpole-Type Magnetic Navigation System for Actuation of Magnetic Drug
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic navigation system for actuation of magnetic drug. The proposed magnetic navigation system generates the magnetic field to magnetize the magnetic drug, and then, the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type navigation system is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite-element method, the magnetic field of the magnetic navigation system is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type navigation system for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux density vector in the proposed Interpole-type navigation system is greater than that in the conventional navigation system.
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Interpole type magnetic actuator for navigation of magnetic drug
IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
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IAS - Interpole-type magnetic actuator for navigation of magnetic drug
2012 IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
Ray-lee Lin - One of the best experts on this subject based on the ideXlab platform.
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Interpole-Type Magnetic Navigation System for Actuation of Magnetic Drug
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic navigation system for actuation of magnetic drug. The proposed magnetic navigation system generates the magnetic field to magnetize the magnetic drug, and then, the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type navigation system is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite-element method, the magnetic field of the magnetic navigation system is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type navigation system for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux density vector in the proposed Interpole-type navigation system is greater than that in the conventional navigation system.
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Interpole type magnetic actuator for navigation of magnetic drug
IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
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IAS - Interpole-type magnetic actuator for navigation of magnetic drug
2012 IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
Sheng-fu Hsiao - One of the best experts on this subject based on the ideXlab platform.
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Interpole-Type Magnetic Navigation System for Actuation of Magnetic Drug
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic navigation system for actuation of magnetic drug. The proposed magnetic navigation system generates the magnetic field to magnetize the magnetic drug, and then, the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type navigation system is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite-element method, the magnetic field of the magnetic navigation system is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type navigation system for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux density vector in the proposed Interpole-type navigation system is greater than that in the conventional navigation system.
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Interpole type magnetic actuator for navigation of magnetic drug
IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
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IAS - Interpole-type magnetic actuator for navigation of magnetic drug
2012 IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
Jia-chi Liu - One of the best experts on this subject based on the ideXlab platform.
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Interpole-Type Magnetic Navigation System for Actuation of Magnetic Drug
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic navigation system for actuation of magnetic drug. The proposed magnetic navigation system generates the magnetic field to magnetize the magnetic drug, and then, the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type navigation system is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite-element method, the magnetic field of the magnetic navigation system is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type navigation system for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux density vector in the proposed Interpole-type navigation system is greater than that in the conventional navigation system.
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Interpole type magnetic actuator for navigation of magnetic drug
IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
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IAS - Interpole-type magnetic actuator for navigation of magnetic drug
2012 IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
Tsai-wang Chang - One of the best experts on this subject based on the ideXlab platform.
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Interpole-Type Magnetic Navigation System for Actuation of Magnetic Drug
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic navigation system for actuation of magnetic drug. The proposed magnetic navigation system generates the magnetic field to magnetize the magnetic drug, and then, the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type navigation system is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite-element method, the magnetic field of the magnetic navigation system is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type navigation system for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux density vector in the proposed Interpole-type navigation system is greater than that in the conventional navigation system.
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Interpole type magnetic actuator for navigation of magnetic drug
IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.
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IAS - Interpole-type magnetic actuator for navigation of magnetic drug
2012 IEEE Industry Applications Society Annual Meeting, 2012Co-Authors: Ray-lee Lin, Sheng-fu Hsiao, Jia-chi Liu, Ching-hsing Luo, Tsai-wang Chang, Meng-dar ShiehAbstract:This paper presents the Interpole-type magnetic actuator for navigation of magnetic drug. In the proposed magnetic actuator system, the magnetic actuator generates the magnetic field to magnetize the magnetic drug, and then the magnetic force is induced on the magnetic drug. However, the magnetic force is enhanced by increasing the phase current. Therefore, the Interpole-type actuator is proposed in order to reduce the phase currents while increasing the magnetic force induced on the magnetic drug. Using the finite element method (FEM), the magnetic field of the magnetic actuator is analyzed to calculate the magnetic force induced on the magnetic drug. Finally, the prototype of the proposed Interpole-type actuator for the magnetic actuating system is implemented to verify that the magnitude of the magnetic flux-density vector in the proposed Interpole-type actuator is greater than that in the conventional actuator.