Motor control apparatus and method of motor driven power steering system

What is claimed is: 1. A motor control apparatus of a motor driven power steering (MDPS) system, comprising: a steering logic controller configured to calculate a current command value for driving a motor, and transmit the current command value; a current measurement sensor configured to measure current values applied to the motor; storage configured to store a plurality of motor parameters comprising motor resistance and motor inductance; and a motor controller configured to: generate voltage command values using the current command value transmitted from the steering logic controller and the current values measured by the current measurement sensor, wherein the voltage command values comprise a d-axis voltage command value and a q-axis voltage command value, estimate a rotor position of the motor without using a position sensor, transform the voltage command values into three phase voltage values using the estimated rotor position, and apply the three phase voltage values to the motor, wherein, for estimating the rotor position without using a position sensor, the motor controller is further configured to: calculate a rotor speed using the voltage command values, the measured current values, the motor resistance and the motor inductance, calculate a motor position increment in a predetermined period using the rotor speed, the measured current values and past voltage command values previously stored in the storage, and integrate the motor position increment for estimating the rotor position. 2. The motor control apparatus of claim 1 , wherein the motor controller comprises a current controller configured to generate the voltage command values for compensating for an error between the current command value received from the steering logic controller and the measured current values that comprise a d-axis current value and a q-axis current value. 3. The motor control apparatus of claim 2 , wherein the storage is configured to store the current voltage command value generated through the current controller. 4. The motor control apparatus of claim 3 , wherein the motor controller comprises a motor position increment calculator configured to calculate the motor position increment. 5. A motor control method of controlling a motor of an MDPS system, the method comprising: receiving, by a controller, a current command value for motor control from a steering logic controller; receiving, by the controller, measured current values from a current measurement sensor; generating voltage command values using the current command value transmitted from the steering logic controller and the current values measured by the current measurement sensor, wherein the voltage command values comprise a d-axis voltage command value and a q-axis voltage command value, estimating a rotor position of the motor without using a position sensor, transforming the voltage command values into three phase voltage values using the estimated rotor position, and applying the three phase voltage values to the motor, wherein estimating comprises: calculating a rotor speed using the voltage command values, the measured current values, motor resistance and motor inductance, calculating a motor position increment in a predetermined period using the rotor speed, the measured current values and past voltage command values previously stored in storage, and integrating the motor position increment for estimating the rotor position. 6. The motor control method of claim 5 , wherein the voltage command values are generated for compensating for an error between the current command value received from the steering logic controller and the measured current values received from the current measurement sensor, wherein the measured current values comprise a d-axis current value and a q-axis current value.