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A motor control apparatus calculates a current command value based on a torque command value and a rotational speed of the traction motor, and calculates a voltage command value based on a difference between a detected current of a traction motor and the current command value so as to reduce the dif

A motor control apparatus calculates a current command value based on a torque command value and a rotational speed of the traction motor, and calculates a voltage command value based on a difference between a detected current of a traction motor and the current command value so as to reduce the difference to 0. In addition, the motor control apparatus calculates a preferable voltage range of the traction motor with reference to the torque command value and a motor speed, and performs a feedback control so that the voltage value supplied to the traction motor is within this preferable voltage range.

대표청구항 ▼

What is claimed is: 1. An apparatus for controlling a traction motor equipped in a vehicle, the traction motor being composed of alternating-current motor generating a driving torque necessary for running the vehicle, comprising: a detector detecting a rotational speed of the traction motor and a c

What is claimed is: 1. An apparatus for controlling a traction motor equipped in a vehicle, the traction motor being composed of alternating-current motor generating a driving torque necessary for running the vehicle, comprising: a detector detecting a rotational speed of the traction motor and a current supplied to the traction motor; a torque-command calculator calculating a torque command value based on information including acceleration information obtained in the vehicle; a current-command calculator unit calculating a current command value based on the torque command value and the detected rotational speed of the traction motor; a voltage-command calculator calculating a voltage command value based on a difference between the detected current and the current command value, the voltage command value allowing the difference to converge to zero and being applied to the traction motor; a memorizing unit previously memorizing information indicative of a relationship between an electric amount relating to driven conditions of the traction motor and a preferable voltage range to be applied to the traction motor; a regulator regulating the calculated voltage command value within the preferable voltage range, using the information indicative of the relationship; and an inverter producing a drive voltage corresponding to the regulated voltage command value and applying the produced drive voltage to the traction motor. 2. The apparatus in accordance with claim 1, wherein the electric amount includes either an electric amount representing the rotational speed of the traction motor or an electric amount associated with the rotational speed of the traction motor. 3. The apparatus in accordance with claim 2, wherein the electric amount further includes an electric power suppliable to the traction motor. 4. The apparatus in accordance with claim 2, wherein the electric amount further includes the torque command value. 5. The apparatus in accordance with claim 4, wherein the electric amount further includes a power source voltage of the inverter. 6. The apparatus in accordance with claim 1, wherein the current command value includes a q-axis current command value and the regulator comprises means determining whether or not the drive voltage to be applied to the traction motor is out of the preferable voltage range; and means adjusting the q-axis current command value when it is determined that the drive voltage to be applied to the traction motor is out of the preferable voltage range. 7. The apparatus in accordance with claim 6, wherein the adjusting means adjust the q-axis current command value by an amount of the q-axis current command value which is necessary to return the drive voltage to the preferable voltage range. 8. The apparatus in accordance with claim 1, wherein the current-command calculator, the voltage command calculator, the memorizing unit, and the regulator are incorporated in an electronic control unit for controlling the traction motor. 9. The apparatus in accordance with claim 8, wherein the electronic control unit has a CPU (central processing unit) functionally realizing the current-command calculator, the voltage command calculator, the memorizing unit, and the regulator. 10. A vehicle comprising: a traction motor composed of alternating-current motor generating a driving torque necessary for running the vehicle; and an apparatus for controlling the traction motor, comprising: a detector detecting a rotational speed of the traction motor and a current supplied to the traction motor; a torque-command calculator calculating a torque command value based on information including acceleration information obtained in the vehicle; a current-command calculator unit calculating a current command value based on the torque command value and the detected rotational speed of the traction motor; a voltage-command calculator calculating a voltage command value based on a difference between the detected current and the current command value, the voltage command value allowing the difference to converge to zero and being applied to the traction motor; a memorizing unit previously memorizing information indicative of a relationship between an electric amount relating to driven conditions of the traction motor and a preferable voltage range to be applied to the traction motor; a regulator regulating the calculated voltage command value within the preferable voltage range, using the information indicative of the relationship; and an inverter producing a drive voltage corresponding to the regulated voltage command value and applying the produced drive voltage to the traction motor. 11. The vehicle in accordance with claim 10, wherein the electric amount includes either an electric amount representing the rotational speed of the traction motor or an electric amount associated with the rotational speed of the traction motor. 12. The vehicle in accordance with claim 11, wherein the electric amount further includes an electric power suppliable to the traction motor. 13. The vehicle in accordance with claim 11, wherein the electric amount further includes the torque command value. 14. The vehicle in accordance with claim 13, wherein the electric amount further includes a power source voltage of the inverter. 15. The vehicle in accordance with claim 10, wherein the current command value includes a q-axis current command value and the regulator comprises means determining whether or not the drive voltage to be applied to the traction motor is out of the preferable voltage range; and means adjusting the q-axis current command value when it is determined that the drive voltage to be applied to the traction motor is out of the preferable voltage range. 16. A method of controlling a traction motor equipped in a vehicle, the traction motor being composed of alternating-current motor generating a driving torque necessary for running the vehicle, comprising: detecting a rotational speed of the traction motor and a current supplied to the traction motor; calculating a torque command value based on information including acceleration information obtained in the vehicle; calculating a current command value based on the torque command value and the detected rotational speed of the traction motor; calculating a voltage command value based on a difference between the detected current and the current command value, the voltage command value allowing the difference to converge to zero and being applied to the traction motor; regulating the calculated voltage command value within the preferable voltage range to be applied to the traction motor, using information indicative of a relationship between an electric amount relating to driven conditions of the traction motor and the preferable voltage range; producing a drive voltage corresponding to the regulated voltage command value; and applying the produced drive voltage to the traction motor.