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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0494591 (2017-04-24) |
등록번호 | US-9991834 (2018-06-05) |
발명자 / 주소 |
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출원인 / 주소 |
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인용정보 | 피인용 횟수 : 0 인용 특허 : 269 |
A method of operating an electric motor is disclosed. The method includes: determining a d-axis resistance of an electric motor and a Q-axis resistance of the electric motor as a function of a bulk current; determining a d-axis inductance of the electric motor and a Q-axis inductance of the electric
A method of operating an electric motor is disclosed. The method includes: determining a d-axis resistance of an electric motor and a Q-axis resistance of the electric motor as a function of a bulk current; determining a d-axis inductance of the electric motor and a Q-axis inductance of the electric motor as a function of the bulk current; generating an estimated flux of the electric motor based on the d-axis resistance of the electric motor, the Q-axis resistance of the electric motor, the d-axis inductance of the electric motor, and the Q-axis inductance of the electric motor; generating an estimated angle of the electric motor based on the estimated flux of the electric motor; and, based on the estimated angle of the electric motor, controlling switching of an inverter that powers the electric motor.
1. A system comprising: a bulk current determination module that determines a bulk current based on a Q-axis current of an electric motor and a d-axis current of the electric motor determined based on measured currents of the electric motor;a resistance determination module that determines a d-axis
1. A system comprising: a bulk current determination module that determines a bulk current based on a Q-axis current of an electric motor and a d-axis current of the electric motor determined based on measured currents of the electric motor;a resistance determination module that determines a d-axis resistance of the electric motor and a Q-axis resistance of the electric motor as a function of the bulk current;an inductance determination module that determines a d-axis inductance of the electric motor and a Q-axis inductance of the electric motor as a function of the bulk current;a flux estimation module that generates an estimated flux of the electric motor based on the d-axis resistance of the electric motor, the Q-axis resistance of the electric motor, the d-axis inductance of the electric motor, and the Q-axis inductance of the electric motor;an angle estimation module that generates an estimated angle of the electric motor based on the estimated flux of the electric motor; anda pulse-width modulation (PWM) module that, based on the estimated angle of the electric motor, controls switching of an inverter that powers the electric motor. 2. The system of claim 1 wherein the bulk current determination module determines a second bulk current based on the Q-axis current of the electric motor and the d-axis current of the electric motor and that determines the bulk current based on the second bulk current and a maximum allowable value of the bulk current. 3. The system of claim 2 wherein the bulk current determination module sets the bulk current equal to the second bulk current divided by the maximum allowable value of the bulk current. 4. The system of claim 1 further comprising a gain setting module that sets a gain, wherein at least one of: the resistance determination module determines the d-axis resistance further based on the gain;the resistance determination module determines the Q-axis resistance further based on the gain;the inductance determination module determines the d-axis inductance further based on the gain;the inductance determination module determines the Q-axis inductance further based on the gain; andthe flux estimation module generates the estimated flux of the electric motor further based on the gain. 5. The system of claim 4 wherein the gain setting module sets the gain based on at least one of the d-axis resistance, the Q-axis resistance, the d-axis inductance, and the Q-axis inductance. 6. The system of claim 4 wherein the gain setting module sets the gain based on a first average of the d-axis resistance and the Q-axis resistance and a second average of the d-axis inductance and the Q-axis inductance. 7. The system of claim 4 wherein the gain setting module sets the gain based on a speed of the electric motor. 8. The system of claim 7 further comprising a speed estimation module that generates an estimated speed of the electric motor based on the estimated angle of the electric motor, wherein the gain setting module sets the gain based on the estimated speed of the electric motor. 9. The system of claim 8 wherein the gain setting module sets the gain based on the bulk current. 10. The system of claim 4 wherein: the flux estimation module that updates the estimated flux of the electric motor at a first rate; andthe gain setting module updates the gain at a second rate that is equal to or slower than the first rate. 11. A system comprising: a compressor including an electric motor;an inverter power module that includes a plurality of switches, that receives direct current (DC) power, and that powers the electric motor;a bulk current determination module that determines a bulk current based on a Q-axis current of the electric motor and a d-axis current of the electric motor determined based on measured currents of the electric motor;a resistance determination module that determines a d-axis resistance of the electric motor and a Q-axis resistance of the electric motor as a function of the bulk current;an inductance determination module that determines a d-axis inductance of the electric motor and a Q-axis inductance of the electric motor as a function of the bulk current;a flux estimation module that generates an estimated flux of the electric motor based on the d-axis resistance of the electric motor, the Q-axis resistance of the electric motor, the d-axis inductance of the electric motor, and the Q-axis inductance of the electric motor;an angle estimation module that generates an estimated angle of the electric motor based on the estimated flux of the electric motor; anda pulse-width modulation (PWM) module that controls switching of the switches of the inverter power module based on the estimated angle of the electric motor. 12. A method comprising: determining a bulk current based on a Q-axis current of an electric motor and a d-axis current of the electric motor determined based on measured currents of the electric motor;determining a d-axis resistance of the electric motor and a Q-axis resistance of the electric motor as a function of the bulk current;determining a d-axis inductance of the electric motor and a Q-axis inductance of the electric motor as a function of the bulk current;generating an estimated flux of the electric motor based on the d-axis resistance of the electric motor, the Q-axis resistance of the electric motor, the d-axis inductance of the electric motor, and the Q-axis inductance of the electric motor;generating an estimated angle of the electric motor based on the estimated flux of the electric motor; and,based on the estimated angle of the electric motor, controlling switching of an inverter that powers the electric motor. 13. The method of claim 12 further comprising: determining a second bulk current based on the Q-axis current of the electric motor and the d-axis current of the electric motor; anddetermining the bulk current based on the second bulk current and a maximum allowable value of the bulk current. 14. The method of claim 13 further comprising setting the bulk current equal to the second bulk current divided by the maximum allowable value of the bulk current. 15. The method of claim 12 further comprising: setting a gain; andat least one of: determining the d-axis resistance further based on the gain;determining the Q-axis resistance further based on the gain;determining the d-axis inductance further based on the gain;determining the Q-axis inductance further based on the gain; andgenerating the estimated flux of the electric motor further based on the gain. 16. The method of claim 15 further comprising setting the gain based on at least one of the d-axis resistance, the Q-axis resistance, the d-axis inductance, and the Q-axis inductance. 17. The method of claim 15 further comprising setting the gain based on a first average of the d-axis resistance and the Q-axis resistance and a second average of the d-axis inductance and the Q-axis inductance. 18. The method of claim 15 further comprising setting the gain based on a speed of the electric motor. 19. The method of claim 18 further comprising: generating an estimated speed of the electric motor based on the estimated angle of the electric motor; andsetting the gain based on the estimated speed of the electric motor. 20. The method of claim 19 further comprising: setting the gain based on the bulk current. 21. The method of claim 15 further comprising: updating the estimated flux of the electric motor at a first rate; andupdating the gain at a second rate that is equal to or slower than the first rate.
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