초록 ▼

A voltage detection section and current detection section detect a voltage and current supplied to a motor, and the detected voltage and current are supplied to a position detection section. An angular speed output from the position detection section is supplied to a differentiator to output an angu

A voltage detection section and current detection section detect a voltage and current supplied to a motor, and the detected voltage and current are supplied to a position detection section. An angular speed output from the position detection section is supplied to a differentiator to output an angular acceleration. A fundamental wave component extraction section extracts a fundamental wave component of the angular acceleration, and the extracted fundamental wave component is supplied to an amplitude adjustment section. The output of the amplitude adjustment section is subtracted from the average current command by a subtraction section. This subtraction result, current detection value, and the rotor position from the position detection section are supplied to a current control section to carry out the current control operation so as to obtain a current command. The current command is supplied to an inverter to control the voltage and current so as to suppress the speed changing due to the load torque changing. Thus, stability is improved, and a decrease in cost is realized.

대표청구항 ▼

1. A motor controlling method comprising: calculating information for a rotor position using a current and voltage applied to a motor and motor constants;controlling the voltage or current applied to the motor based upon the calculated information; andreducing the effect of an error of the motor con

1. A motor controlling method comprising: calculating information for a rotor position using a current and voltage applied to a motor and motor constants;controlling the voltage or current applied to the motor based upon the calculated information; andreducing the effect of an error of the motor constants, or an error of a sensor for detection of the current or voltage by utilizing torque ripple of a compressor as a load of the motor based upon a periodic variation of the compressor. 2. The motor controlling method as set forth in claim 1, further comprising carrying out the reduction of the effect of the error of the motor constants, or the error of the sensor when the compressor is driven. 3. The motor controlling method as set forth in claim 1, further comprising adjusting the motor constants to determine a torque ripple ratio with respect to an average torque to be a predetermined value, the average torque being observed from a section which calculates information for a rotor position using the current and voltage applied to the motor and the motor constants. 4. The motor controlling method as set forth in claim 3, wherein the determined value for the torque ripple ratio is a value determined in correspondence with at least the rotation speed, torque, or current. 5. The motor controlling method as set forth in claim 1, wherein the effect of the error of the motor constants or the error of the sensor is reduced per every one rotation depending upon the periodic variation of the load. 6. The motor controlling method as set forth in claim 5, wherein the effect of the error of the motor constants is reduced in every one rotation, andthe error of the sensor is reduced in every one rotation. 7. The motor controlling apparatus as set forth in claim 6, wherein one cycle of the periodic variation of load is one rotation of the motor. 8. The motor controlling apparatus as set forth in claim 5, wherein one cycle of the periodic variation of load is one rotation of the motor. 9. A motor controlling apparatus configured to calculate information for a rotor position using a current and voltage applied to a motor and motor constants, and to control the voltage or current applied to the motor based upon the calculated information, the apparatus comprising: an effect reduction device configured to reduce the effect of an error of the motor constants, or an error of a sensor for detection of the current or voltage by utilizing torque ripple of a compressor as a load of the motor based upon a periodic variation of the compressor. 10. The motor controlling apparatus as set forth in claim 9, wherein the effect reduction device carries out the reduction of the effect of the error of the motor constants, or the error of the sensor when the compressor is driven. 11. The motor controlling apparatus as set forth in claim 9, wherein the effect reduction device adjusts the motor constants to determine a torque ripple ratio with respect to an average torque to be a predetermined value, the average torque being observed from a section which calculates information for a rotor position using the current and voltage applied to the motor and the motor constants. 12. The motor controlling apparatus as set forth in claim 11, wherein the effect reduction device employs a value determined in correspondence with at least the rotation speed, torque, or current, as the determined value for the torque ripple ratio. 13. The motor controlling apparatus as set forth in claim 9, wherein the effect reduction device is configured to reduce the effect of the error of the motor constants or the error of the sensor depending upon the periodic variation of the load per every one rotation. 14. The motor controlling apparatus as set forth in claim 13, wherein the effect reduction device is configured to reduce the effect of the error of the motor constants in every one rotation, andthe effect reduction device is configured to reduce the error of the sensor in every one rotation. 15. The motor controlling apparatus as set forth in claim 14, wherein one cycle of the periodic variation of load is one rotation of the motor. 16. The motor controlling apparatus as set forth in claim 13, wherein one cycle of the periodic variation of load is one rotation of the motor.