Motor control apparatus for vehicles and current reference generation method using the same

What is claimed is: 1. A motor control apparatus for vehicles comprising: a stator current reference generator configured to generate a stator current reference value mapped to a torque reference value T e *, a magnetic flux reference value λ*, and a current field current value i f flowing in a field coil by using a first stator current map in a quick-response torque control mode, and generate a stator current reference value mapped to a filtered torque reference value T e1 * generated by filtering the torque reference value T e *, the magnetic flux reference value λ*, and the field current value i f by using a second stator current map in a maximum efficiency control mode; a field current reference generator configured to generate a field current reference value mapped to the torque reference value T e * and the magnetic flux reference value λ* by using a first field current map in the quick-response torque control mode, and generate a field current reference value mapped to the filtered torque reference value T e1 * and the magnetic flux reference value λ* by using a second field current map in the maximum efficiency control mode; a pulse width modulation (PWM) controller configured to apply a first PWM signal corresponding to the stator current reference value to a stator inverter and apply a second PWM signal corresponding to the field current reference value to a field inverter, thereby controlling a torque response characteristic and a maximum efficiency of a vehicle motor driven by the stator inverter and the field inverter; a control mode determiner configured to determine the quick-response torque control mode or the maximum efficiency control mode, based on vehicle driving speed information and vehicle battery charging amount information received from an upper controller; and a path generator configured to generate a first path or a second path according to one of the control modes determined by the control mode determiner. 2. The motor control apparatus of claim 1 , wherein the first stator current map comprises a plurality of d-axis current maps and a plurality of q-axis current maps classified by levels of the current field current value i f , each of the plurality of d-axis current maps stores a plurality of d-axis current reference values i d * which have been previously obtained in order for loss of the vehicle motor to be the minimum in a level of the current field current value i f , the torque reference value T e *, and the magnetic flux reference value λ*, and each of the plurality of q-axis current maps stores a plurality of q-axis current reference values i q * which have been previously obtained in order for loss of the vehicle motor to be the minimum in the level of the current field current value i f , the torque reference value T e *, and the magnetic flux reference value λ*. 3. The motor control apparatus of claim 1 , wherein the second stator current map comprises: a d-axis current map configured to store a plurality of d-axis current reference values i d * which have been previously obtained in order for the vehicle motor to operate at maximum efficiency in the filtered torque reference value T e1 * and the magnetic flux reference value λ*; and a q-axis current map configured to store a plurality of q-axis current reference values i q * which have been previously obtained in order for the vehicle motor to operate at the maximum efficiency in the filtered torque reference value T e1 * and the magnetic flux reference value λ*. 4. The motor control apparatus of claim 1 , wherein the first field current map stores a plurality of field current reference values i f * which have been previously obtained in order for the vehicle motor to operate at maximum efficiency in the torque reference value T e * and the magnetic flux reference value λ*. 5. The motor control apparatus of claim 1 , wherein the second field current map stores a plurality of field current reference values i f * which have been previously obtained in order for the vehicle motor to operate at maximum efficiency in the filtered torque reference value T e1 * and the magnetic flux reference value λ*. 6. The motor control apparatus of claim 1 , further comprising: a low pass filter configured to low-pass filter the torque reference value T e * received through the second path to generate the filtered torque reference value T e1 *, and output the filtered torque reference value T e1 * to the second stator current map and the second field current map. 7. The motor control apparatus of claim 1 , wherein the first path is a path through which the torque reference value T e * is transferred to the first stator current map and the first field current map. 8. A current reference generation method comprising: generating a stator current reference value mapped to a torque reference value T e *, a magnetic flux reference value λ*, and a current field current value i f flowing in a field coil by using a first stator current map in a quick-response torque control mode, and generating a stator current reference value mapped to a filtered torque reference value T e1 * generated by filtering the torque reference value T e *, the magnetic flux reference value λ*, and the field current value i f by using a second stator current map in a maximum efficiency control mode; generating a field current reference value mapped to the torque reference value T e * and the magnetic flux reference value λ* by using a first field current map in the quick-response torque control mode, and generating a field current reference value mapped to the filtered torque reference value T e1 * and the magnetic flux reference value λ* by using a second field current map in the maximum efficiency control mode; applying a first pulse width modulation (PWM) signal corresponding to the stator current reference value to a stator inverter and applying a second PWM signal corresponding to the field current reference value to a field inverter, and controlling a torque response characteristic and a maximum efficiency of a vehicle motor driven by the stator inverter and the field inverter; determining the quick-response torque control mode or the maximum efficiency control mode, based on vehicle driving speed information and vehicle battery charging amount information received from an upper controller; and generating a first path or a second path according to one of the determined control modes. 9. The current reference generation method of claim 8 , wherein the first stator current map comprises a plurality of d-axis current maps and a plurality of q-axis current maps classified by levels of the current field current value i f , each of the plurality of d-axis current maps stores a plurality of d-axis current reference values i d * which have been previously obtained in order for loss of the vehicle motor to be the minimum in a level of the current field current value i f , the torque reference value T e *, and the magnetic flux reference value λ*, and each of the plurality of q-axis current maps stores a plurality of q-axis current reference values i q * which have been previously obtained in order for loss of the vehicle motor to be the minimum in the level of the current field current value i f , the torque reference value T e *, and the magnetic flux reference value λ*. 10. The current reference generation method of claim 8 , wherein the second stator current map comprises: a d-axis current map configured to store a plurality of d-axis current reference values i d * which have been previously obtained in order for the vehicle motor to operate at maximum efficiency in the filtered torque reference value T e1 * and the magnetic flux reference value λ*; and a q-a