Brushless DC motor control device and brushless DC motor device

What is claimed is: 1. A brushless DC motor control device comprising: an induced voltage detection circuit that detects an induced voltage which is generated in at least one coil of a brushless DC motor; a rotational position detection circuit that detects a rotational position of a rotor of the brushless DC motor; an error calculation circuit that calculates a first difference between a phase of the induced voltage detected by the induced voltage detection circuit and a phase of the rotational position detected by the rotational position detection circuit; a correction circuit that corrects the detected rotational position based on the first difference and outputs a corrected rotational position signal; and a drive signal generation circuit that adjusts a phase of a drive signal which is supplied to the brushless DC motor based on the corrected rotational position signal and generates the drive signal whose phase has been adjusted. 2. The brushless DC motor control device according to claim 1 , further comprising: a motor current detection circuit that detects a motor current which is supplied to the at least one coil of the brushless DC motor, wherein based on a second difference between a phase of the motor current detected by the motor current detection circuit and the phase of the induced voltage detected by the induced voltage detection circuit, the drive signal generation circuit adjusts the phase of the drive signal such that the phase of the motor current and the phase of the induced voltage coincide with each other. 3. The brushless DC motor control device according to claim 2 , wherein the induced voltage detection circuit detects a zero-crossing of the induced voltage and the motor current detection circuit detects a zero-crossing of the motor current. 4. The brushless DC motor control device according to claim 3 , wherein the induced voltage detection circuit detects the zero-crossing of the induced voltage by comparing the induced voltage and a first threshold voltage with a comparator, and the motor current detection circuit detects the zero-crossing of the motor current by comparing a voltage indicating the motor current value and a second threshold voltage, in place of the first threshold voltage, with the comparator. 5. The brushless DC motor control device according to claim 1 , wherein the rotational position detection circuit receives a position detection signal from a position sensor attached to a stator of the motor and detects the rotational position of the rotor. 6. The brushless DC motor control device according to claim 5 , wherein the position sensor includes a Hall element. 7. A brushless DC motor device comprising: a brushless DC motor; and a control device, wherein the control device includes an induced voltage detection circuit that detects an induced voltage which is generated in at least one coil of a brushless DC motor, a rotational position detection circuit that detects a rotational position of a rotor of the brushless DC motor, an error calculation circuit that calculates a first difference between a phase of the induced voltage detected by the induced voltage detection circuit and a phase of the rotational position detected by the rotational position detection circuit, a correction circuit that corrects the detected rotational position based on the first difference and outputs a corrected rotational position signal, and a drive signal generation circuit that adjusts a phase of a drive signal which is supplied to the brushless DC motor based on the corrected rotational position signal and generates the drive signal whose phase has been adjusted. 8. The brushless DC motor device according to claim 7 , further comprising: a motor current detection circuit that detects a motor current which is supplied to the at least one coil of the brushless DC motor, wherein based on a second difference between a phase of the motor current detected by the motor current detection circuit and the phase of the induced voltage detected by the induced voltage detection circuit, the drive signal generation circuit adjusts the phase of the drive signal such that the phase of the motor current and the phase of the induced voltage coincide with each other. 9. The brushless DC motor device according to claim 8 , wherein the induced voltage detection circuit detects a zero-crossing of the induced voltage and the motor current detection circuit detects a zero-crossing of the motor current. 10. The brushless DC motor device according to claim 9 , wherein the induced voltage detection circuit detects the zero-crossing of the induced voltage by comparing the induced voltage and a first threshold voltage with a comparator, and the motor current detection circuit detects the zero-crossing of the motor current by comparing a voltage indicating the motor current value and a second threshold voltage, in place of the first threshold voltage, with the comparator. 11. The brushless DC motor device according to claim 7 , wherein the rotational position detection circuit receives a position detection signal from a position sensor attached to a stator of the motor and detects the rotational position of the rotor. 12. The brushless DC motor device according to claim 11 , wherein the position sensor includes a Hall element. 13. A brushless DC motor control device comprising: an induced voltage detection circuit that detects a zero-crossing of an induced voltage that is generated in at least one coil of a brushless DC motor having a rotor and a stator with at least one coil and a position sensor attached near the coil; a motor current detection circuit that detects a zero-crossing of motor current to the at least one coil of the brushless DC motor; a phase correction circuit that receives the detected zero-crossing of the induced voltage and the detected zero-crossing of the current in the at least one coil of the brushless DC motor and generates phase correction command information; a rotational position sensor edge detection circuit that detects a zero-crossing of a position sensor attached to the rotor and generates a position sensor edge angle signal; a position sensor angle calculation circuit that receives the detected zero-cross of the induced voltage and the position sensor edge angle signal and generates a position sensor error signal; and a drive signal generation circuit that generates a drive signal that is adjusted based on the phase correction command information, the position sensor error signal and the position sensor edge angle signal and supplies the adjusted drive signal to the brushless DC motor. 14. The brushless DC motor control device of claim 13 , wherein the phase correction circuit includes: an addition circuit that generates a phase difference signal that reflects a difference between the detected zero-crossing of the motor current and the detected zero-crossing of the induced voltage; and a proportional integration circuit that converts the phase difference signal to the phase correction command information. 15. The brushless DC motor control device of claim 14 , wherein the phase correction command information specifies an amount of correction that causes the phase difference signal to become zero. 16. The brushless DC motor control device of claim 13 , wherein the position sensor angle calculation circuit includes: a first addition circuit that generates an angular signal that reflects a difference between the detected zero-crossing of the induced voltage and a predetermined offset value; a second addition circuit that generates the