Patent ID: 8547052

Claim:
A driving control apparatus of a brushless motor, the driving control apparatus being configured to perform overlap energization for an armature coil having a plurality of phases provided to a stator to rotate a rotor having a plurality of magnetic poles, the driving control apparatus comprising: an inverter circuit which performs energization for the armature coil having the plurality of phases; a motor driving circuit which generates a driving signal for driving the inverter circuit, and a motor control unit which sets an overlap time period of performing the overlap energization and which controls the motor driving circuit based on the overlap time period, wherein the inverter circuit includes: a plurality of upper arm switching elements which are provided for the plurality of phases of the armature coil, respectively; and a plurality of lower arm switching elements which are provided for the plurality of phases of the armature coil, respectively, and are connected to corresponding upper arm switching elements in series, respectively, wherein at a time of normal driving, for each phase of the armature coil, the motor driving circuit generates the driving signal which includes a first PWM signal which on/off controls one of the upper arm switching element and the lower arm switching element, and generates a constant voltage signal which on/off controls the other of the upper arm switching element and the lower arm switching element, wherein the motor control unit performs a first driving control and a second driving control for the motor driving circuit in the overlap time period, wherein the first driving control includes supplying a second PWM signal having a frequency higher than that of the first PWM signal to the upper arm switching element or the lower arm switching element, to which the first PWM signal is supplied immediately before the overlap time period, and, at a start time of the overlap time period, temporally increasing an on-duty of the first PWM signal which is supplied to a switching element of a phase which is switched subsequently, to thus increase a number of pulses of the second PWM signal, and wherein the second driving control includes supplying a third PWM signal having a frequency higher than that of the first PWM signal to the lower arm switching element or the upper arm switching element, to which the constant voltage signal is supplied immediately before the overlap time period, and supplying the first PWM signal having an on-duty which is temporarily increased, to the upper arm switching element or the lower arm switching element, to which the first PWM signal is supplied during the overlap time period.