Motor driving apparatus and laundry treatment machine including the same

What is claimed is: 1. A laundry treatment machine comprising: a washing tub; a motor to rotate the washing tub; and a driving circuit to control the motor, wherein the driving circuit includes: an inverter to convert a direct current (DC) voltage into an alternating current (AC) voltage and to output the AC voltage to the motor; an output voltage detector to detect an output voltage applied to the motor; and an inverter controller to control the inverter to drive the motor based on the output voltage, wherein the output voltage detector includes: a resistor electrically connected between the inverter and the motor; and a comparator to compare a voltage detected by the resistor with a reference voltage and to output a pulse width modulation (PWM)-based pulse type output voltage, and wherein the inverter controller includes capturing circuitry that captures the PWM-based pulse type output voltage from the comparator, determines a duty of the detected PWM-based pulse type output voltage using the capturing circuitry, and calculates a phase voltage of the motor based on the calculated duty. 2. The laundry treatment machine according to claim 1 , wherein the inverter controller estimates a rotor position and speed of the motor based on the detected PWM-based pulse type output voltage and outputs a switching control signal for controlling the inverter based on the estimated rotor position and speed of the motor. 3. The laundry treatment machine according to claim 1 , further comprising: an output current detector to detect output current flowing in the motor, wherein the inverter controller estimates a rotor position of the motor based on the detected output current d the detected PWM-based wise type output voltage and outputs an inverter switching control signal for controlling the inverter based on the estimated rotor position of the motor. 4. The laundry treatment machine according to claim 1 , further comprising: an output current detector to detect output current flowing in the motor, wherein the inverter controller includes: an estimation circuitry to estimate a rotor position and speed of the motor based on the detected output current and the detected PWM-based pulse type output voltage; a current command generation circuitry to generate a current command value based on the estimated speed of the motor and a speed command value; a voltage command generation circuitry to generate a voltage command value based on the current command value and the detected output current; and a switching control signal output circuitry to output a switching control signal for driving the inverter based on the voltage command value. 5. The laundry treatment machine according to claim 4 , wherein the estimation circuitry comprises: a back electromotive force estimation circuitry to estimate back electromotive force generated from the motor based on the detected output current and the detected PWM-based pulse type output voltage; and a speed estimation circuitry to estimate the rotor position and speed of the motor based on the estimated back electromotive force. 6. The laundry treatment machine according to claim 1 , wherein the inverter controller controls a constant first level current and a constant second level current to be sequentially supplied to the motor during a starting operation of the motor. 7. The laundry treatment machine according to claim 1 , wherein the inverter controller calculates an average pole voltage using the calculated duty, a DC terminal voltage corresponding to the DC voltage in the inverter, and a unit time period of a carrier signal. 8. The laundry treatment machine according to claim 7 , wherein after calculation of the average pole voltage, the inverter controller calculates an offset voltage, three phase voltages, the two phase voltages of the stationary coordinate system, estimated back electromotive forces, an estimated position, and an estimated speed. 9. A motor driving apparatus comprising: an inverter to convert DC voltage into AC voltage and to output the AC voltage to a motor; an output voltage detector to detect output voltage applied to the motor; and an inverter controller to control the inverter to drive the motor based on the output voltage, wherein the output voltage detector includes: a resistor electrically connected between the inverter and the motor; and a comparator to compare voltage detected by the resistor with reference voltage and to detect a pulse width modulation (PWM)-based pulse type output voltage, wherein the inverter controller includes a capturing circuitry that captures the PWM-based pulse type output voltage from the comparator, determines a duty of the detected PWM-based pulse type output voltage using the capturing circuitry, and calculates phase voltage of the motor based on the calculated duty. 10. The motor driving apparatus according to claim 9 , wherein the inverter controller estimates a rotor position and speed of the motor based on the detected PWM-based pulse type output voltage and outputs a switching control signal for controlling the inverter based on the estimated rotor position and speed of the motor. 11. The motor driving apparatus according to claim 9 , wherein the inserter controller calculates a duty of the detected PWM-based pulse-type output voltage and calculates phase voltage of the motor based on the calculated duty. 12. The motor driving apparatus according to claim 9 , further comprising: an output current detector to detect output current flowing in the motor, wherein the inverter controller estimates a rotor position of the motor based on the detected output current and the detected PWM-based pulse type output voltage and outputs an inverter switching control signal for controlling the inverter based on the estimated rotor position of the motor. 13. The motor driving apparatus according to claim 9 , further comprising: an output current detector to detect output current flowing in the motor, wherein the inverter controller includes: an estimation circuitry to estimate a rotor position and speed of the motor based on the detected output current and the detected PWM-based pulse type output voltage; a current command generation circuitry to generate a current command value based on the estimated speed of the motor and a speed command value; a voltage command generation circuitry to generate a voltage command value based on the current command value and the detected output current; and a switching control signal output circuitry to output a switching control signal for driving the inverter based on the voltage command value. 14. The motor driving apparatus according to claim 13 , wherein the estimation circuitry comprises: a back electromotive force estimation circuitry to estimate back electromotive force generated from the motor based on the detected output current and the detected PWM-based pulse type output voltage; and a speed estimation circuitry to estimate the rotor position and speed of the motor based on the estimated back electromotive force. 15. The motor driving apparatus according to claim 9 , wherein the inverter controller controls a constant first level current and a constant second level current to be sequentially supplied to the motor during a starting operation of the motor. 16. The motor driving apparatus according to claim 9 , wherein the inverter controller calculates an average pole voltage using the calculated duty, a DC terminal voltage corresponding to the DC voltage in the inverter, and a unit time period of a carrier signal.