System and method for heating ferrite magnet motors for low temperatures
First Claim
1. A permanent magnet machine comprising:
- a stator assembly comprising;
a stator core including a plurality of stator teeth arranged circumferentially so as to form a cavity at a center of the stator core; and
at least one stator winding wound about the plurality of stator teeth;
a rotor assembly disposed within the cavity configured to rotate relative to the stator assembly;
a plurality of ferrite permanent magnets disposed within either the stator assembly or the rotor assembly;
a temperature measuring mechanism configured to monitor the temperature of the plurality of ferrite permanent magnets; and
a controller programmed to;
cause a primary current to be applied to the stator winding to generate a stator magnetic field, so as to cause the rotor assembly to rotate relative to the stator assembly;
receive feedback from the temperature measuring mechanism regarding the monitored temperature of the plurality of ferrite permanent magnets; and
selectively cause a secondary current to be applied to the stator winding to generate a secondary magnetic field, so as to heat the plurality of ferrite permanent magnets if the monitored temperature of the plurality of ferrite permanent magnets falls below a threshold temperature.
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Accused Products
Abstract
A system and method for heating ferrite permanent magnets in an electrical machine is disclosed. The permanent magnet machine includes a stator assembly and a rotor assembly, with a plurality of ferrite permanent magnets disposed within the stator assembly or the rotor assembly to generate a magnetic field that interacts with a stator magnetic field to produce a torque. A controller of the electrical machine is programmed to cause a primary field current to be applied to the stator windings to generate the stator magnetic field, so as to cause the rotor assembly to rotate relative to the stator assembly. The controller is further programmed to cause a secondary current to be applied to the stator windings to selectively generate a secondary magnetic field, the secondary magnetic field inducing eddy currents in at least one of the stator assembly and the rotor assembly to heat the ferrite permanent magnets.
62 Citations
17 Claims
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1. A permanent magnet machine comprising:
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a stator assembly comprising; a stator core including a plurality of stator teeth arranged circumferentially so as to form a cavity at a center of the stator core; and at least one stator winding wound about the plurality of stator teeth; a rotor assembly disposed within the cavity configured to rotate relative to the stator assembly; a plurality of ferrite permanent magnets disposed within either the stator assembly or the rotor assembly; a temperature measuring mechanism configured to monitor the temperature of the plurality of ferrite permanent magnets; and a controller programmed to; cause a primary current to be applied to the stator winding to generate a stator magnetic field, so as to cause the rotor assembly to rotate relative to the stator assembly; receive feedback from the temperature measuring mechanism regarding the monitored temperature of the plurality of ferrite permanent magnets; and selectively cause a secondary current to be applied to the stator winding to generate a secondary magnetic field, so as to heat the plurality of ferrite permanent magnets if the monitored temperature of the plurality of ferrite permanent magnets falls below a threshold temperature. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for heating a ferrite permanent magnet electrical machine, the method comprising:
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providing a stator assembly comprising; a stator core including a plurality of stator teeth arranged circumferentially so as to form a cavity at a center of the stator core; and at least one stator winding wound about the plurality of stator teeth; providing a rotor assembly disposed within the cavity configured to rotate relative to the stator assembly; providing a plurality of ferrite permanent magnets positioned on either the stator assembly or the rotor assembly; and selectively heating the plurality of ferrite permanent magnets if a temperature of the plurality of ferrite magnets falls below a threshold temperature, wherein selectively heating the plurality of ferrite permanent magnets comprises one or more of; applying a current to the stator winding to selectively generate a magnetic field; inducing eddy currents in a ring element positioned on or in the rotor assembly;
orapplying a magnetic field to a plurality of magnetocaloric elements positioned adjacent to the plurality of ferrite permanent magnets, wherein the plurality of magnetocaloric elements heat up when subjected to the magnetic field. - View Dependent Claims (11, 12, 13)
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14. An internal permanent magnet machine comprising:
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a stator assembly comprising; a stator core including a plurality of stator teeth; and at least one stator winding wound about the plurality of stator teeth; a rotor assembly disposed within a cavity defined by the stator assembly and configured to rotate relative to the stator assembly; a plurality of ferrite permanent magnets positioned in the rotor assembly; a temperature measuring mechanism configured to monitor the temperature of the plurality of ferrite permanent magnets; and a heating element configured to heat the plurality of ferrite permanent magnets when the monitored temperature of the plurality of ferrite permanent magnets falls below a threshold temperature, the heating element comprising either; a ring element formed of an electrically conductive material and positioned on or within the rotor assembly, the ring element configured to heat up when a current is applied to the stator winding;
ora plurality of magnetocaloric elements positioned adjacent the plurality of ferrite permanent magnets, the plurality of magnetocaloric elements configured to heat up when subjected to a magnetic field. - View Dependent Claims (15, 16, 17)
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Specification