The Experts below are selected from a list of 486303 Experts worldwide ranked by ideXlab platform
Roberto Santarossa - One of the best experts on this subject based on the ideXlab platform.
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asynchronous performance analysis of a single phase capacitor start capacitor run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects.
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Asynchronous performance analysis of a single-phase capacitor-start, capacitor-run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects. View full abstract»
Mircea Popescu - One of the best experts on this subject based on the ideXlab platform.
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asynchronous performance analysis of a single phase capacitor start capacitor run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects.
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Asynchronous performance analysis of a single-phase capacitor-start, capacitor-run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects. View full abstract»
M. Mcgilp - One of the best experts on this subject based on the ideXlab platform.
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asynchronous performance analysis of a single phase capacitor start capacitor run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects.
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Asynchronous performance analysis of a single-phase capacitor-start, capacitor-run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects. View full abstract»
Giovanni Strappazzon - One of the best experts on this subject based on the ideXlab platform.
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asynchronous performance analysis of a single phase capacitor start capacitor run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects.
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Asynchronous performance analysis of a single-phase capacitor-start, capacitor-run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects. View full abstract»
Nicolla Trivillin - One of the best experts on this subject based on the ideXlab platform.
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asynchronous performance analysis of a single phase capacitor start capacitor run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects.
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Asynchronous performance analysis of a single-phase capacitor-start, capacitor-run permanent magnet motor
IEEE Transactions on Energy Conversion, 2005Co-Authors: Mircea Popescu, Giovanni Strappazzon, Nicolla Trivillin, M. Mcgilp, T.j.e. Miller, Roberto SantarossaAbstract:This work presents a detailed analysis of the asynchronous Torque components (average cage, magnet braking Torque and pulsating) for a single-phase capacitor-start, capacitor-run permanent magnet motor. The computed envelope of pulsating Torque superimposed over the average electromagnetic Torque leads to an accurate prediction of starting Torque. The developed approach is realized by means of a combination of symmetrical components and d-q axes theory and it can be extended for any m-phase AC motor - induction, synchronous reluctance or synchronous permanent magnet. The resultant average electromagnetic Torque is determined by superimposing the asynchronous Torques and magnet braking Torque effects. View full abstract»