Brushless motor and motor control device

What is claimed is: 1 . A brushless motor for an electric power steering device that assists a steering operation, the brushless motor comprising: a stator having a plurality of winding sets for a plurality of systems respectively; and a rotator having a ferrite magnet. 2 . A motor control device that controls energization of the brushless motor according to claim 1 , the motor control device comprising: a plurality of inverters for the systems respectively, each of which corresponds to a winding set of a respective system, and supplies an alternating current to the winding set of the respective system; a current command value calculation device that calculates a dq-axis current command value for energizing the winding sets; a temperature estimation device that estimates temperature of the ferrite magnet; and a temperature rising control device that calculates a temperature rising dq-axis current command value, to be added to the dq-axis current command value, for flowing a temperature rising current in the winding sets when an estimated temperature is lower than a predetermined value. 3 . The motor control device according to claim 2 , wherein: the temperature rising control device sets the temperature rising dq-axis current command value so that a q-axis sum of the temperature rising current in all of the systems becomes zero. 4 . The motor control device according to claim 3 , wherein: the temperature rising control device sets the temperature rising dq-axis current command value so that each of a d-axis sum and a q-axis sum of the temperature rising current in all of the systems becomes zero. 5 . The motor control device according to claim 2 , further comprising: a maximum current limit device that controls the dq-axis current command value, wherein: the maximum current limit device decreases a maximum current limit value of the dq-axis current command value when the temperature estimated by the temperature estimation device is reduced. 6 . The motor control device according to claim 2 , further comprising: a failure detection device that detects a failure of one of the inverters and the winding sets, wherein: when the failure of one of an inverter and a corresponding winding set in one of the systems is detected by the failure detection device, the motor control device stops an output from the inverter in a failure system, and controls an output from an inverter in a normal system to compensate a brake torque generated in the failure system. 7 . The motor control device according to claim 6 , further comprising: a maximum current limit device that controls the dq-axis current command value for each of the winding sets in a respective system, wherein: when the failure of one of the winding set and the inverter in one of the systems is detected by the failure detection device, the maximum current limit device increases a maximum current limit value of the dq-axis current command value in the normal system when the temperature estimated by the temperature estimation device is increased.