IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0565763
(2009-09-24)
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등록번호 |
US-8183803
(2012-05-22)
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발명자
/ 주소 |
- Li, Tiecai
- Zhou, Zhaoyong
- Qi, Yamei
- Kong, Xiang
- Wang, Shuang
- Tang, Pinghua
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출원인 / 주소 |
- Shenzhen Academy of Aerospace Technology
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인용정보 |
피인용 횟수 :
2 인용 특허 :
6 |
초록
▼
The present invention relates to a control technology of a three-phase DC motor. In order to resolve a problem in the prior art that the good current closed-loop control has not been realized on a three-phase square-wave brushless DC motor, the present invention provides a brushless DC motor control
The present invention relates to a control technology of a three-phase DC motor. In order to resolve a problem in the prior art that the good current closed-loop control has not been realized on a three-phase square-wave brushless DC motor, the present invention provides a brushless DC motor control system, wherein cathodes of freewheel diodes D1, D3 and D5 are independent of input terminals of their respective switch tubes and connected in parallel to a sampling coil L1, and anodes of freewheel diodes D4, D6 and D2 are independent of output terminals of their respective switch tubes and connected in parallel to a sampling coil L2. The present invention can use a single resultant current sensor to completely and continuously sample the three-phase current existing during the motor is on and performs current freewheel, and perform the continuous closed-loop control on the three-phase current with a single current closed-loop regulator, thereby increasing dynamic and static indexes of the motor significantly.
대표청구항
▼
1. A brushless DC motor control system comprising an inverting circuit for outputting operational power supply to a three-phase motor and a current sensor for detecting working current of the three-phase motor, in which the inverting circuit comprises switch tubes Q1, Q3 and Q5 connected with an upp
1. A brushless DC motor control system comprising an inverting circuit for outputting operational power supply to a three-phase motor and a current sensor for detecting working current of the three-phase motor, in which the inverting circuit comprises switch tubes Q1, Q3 and Q5 connected with an upper bridge arm, switch tubes Q4, Q6 and Q2 connected with a lower bridge arm and freewheel diodes D1, D2, D3, D4, D5 and D6 cooperating with each of the above switch tubes, respectively; wherein the current sensor comprises two sampling coils L1 and L2 that have the same number of turns and are wound around the same iron core, in which a sensing element that outputs current sensing result according to a magnetic flux change of the iron core is mounted on the iron core; cathodes of the freewheel diodes D1, D3 and D5 of the switch tubes Q1, Q3 and Q5 are independent of input terminals of their respective switch tubes and connected in parallel to a like terminal of the sampling coil L1; and the sampling coil L1 is connected in series in the upper bridge arm, its like terminal being connected with an anode of a DC power supply; andanodes of the freewheel diodes D4, D6 and D2 of the switch tubes Q4, Q6 and Q2 are independent of output terminals of their respective switch tubes and connected in parallel to an unlike terminal of the sampling coil L2, a like terminal of the sampling coil L2 being connected with the lower bridge arm. 2. A brushless DC motor control system comprising an inverting circuit for outputting the operational power supply to the three-phase motor, and a current sensor for detecting the working current of the three-phase motor, in which the inverting circuit comprises the switch tubes Q1, Q3 and Q5 connected with the upper bridge arm, the switch tubes Q4, Q6 and Q2 connected with the lower bridge arm, and the freewheel diodes D1, D2, D3, D4, D5 and D6 cooperating with each of the switch tubes; whereinthe current sensor comprises two sampling coils L1 and L2 that have the same number of turns and are wound around the same iron core, in which a sensing element that outputs the current sensing result according to a magnetic flux change of the iron core is mounted on the iron core;cathodes of the freewheel diodes D1, D3 and D5 of the switch tubes Q1, Q3 and Q5 are independent of the input terminals of their respective switch tubes and connected in parallel to an unlike terminal of the sampling coil L1; and the sampling coil L1 is connected in series in the upper bridge arm, its unlike terminal being connected with the anode of the DC power supply; andanodes of the freewheel diodes D4, D6 and D2 of the switch tubes Q4, Q6 and Q2 are independent of the output terminals of their respective switch tubes and connected in parallel to the like terminal of the sampling coil L2, the unlike terminal of the sampling coil L2 being connected with the lower bridge arm. 3. A brushless DC motor control system comprising an inverting circuit for outputting the operational power supply to the three-phase motor, and a current sensor for detecting the working current of the three-phase motor, in which the inverting circuit comprises switch tubes Q1, Q3 and Q5 connected with the upper bridge arm, the switch tubes Q4, Q6 and Q2 connected with the lower bridge arm, and the freewheel diodes D1, D2, D3, D4, D5 and D6 cooperating with each of the switch tubes; wherein the current sensor comprises two sampling coils L1 and L2 that have the same number of turns and are wound around the same iron core, in which a sensing element that outputs the current sensing result according to a magnetic flux change of the iron core is mounted on the iron core;cathodes of the freewheel diodes D1, D3 and D5 of the switch tubes Q1, Q3 and Q5 are independent of the input terminals of their respective switch tubes and connected in parallel to the unlike terminal of the sampling coil L1, the like terminal of the sampling coil L1 being connected with the upper bridge arm; andanodes of the freewheel diodes D4, D6 and D2 of the switch tubes Q4, Q6 and Q2 are independent of the output terminals of their respective switch tubes and connected in parallel to the like terminal of the sampling coil L2; and the sampling coil L2 is connected in series in the lower bridge arm, its like terminal being connected with a cathode of the DC power supply. 4. A brushless DC motor control system comprising an inverting circuit for outputting the operational power supply to the three-phase motor and a current sensor for detecting the working current of the three-phase motor, in which the inverting circuit comprises switch tubes Q1, Q3 and Q5 connected with the upper bridge arm, switch tubes Q4, Q6 and Q2 connected with the lower bridge arm, and freewheel diodes D1, D2, D3, D4, D5 and D6 cooperating with each of the switch tubes; wherein the current sensor comprises two sampling coils L1 and L2 that have the same number of turns and are wound around the same iron core, in which a sensing element that outputs the current sensing result according to a magnetic flux change of the iron core is mounted on the iron core;cathodes of the freewheel diodes D1, D3 and D5 of the switch tubes Q1, Q3 and Q5 are independent of the input terminals of their respective switch tubes and connected in parallel to the like terminal of the sampling coil L1, the unlike terminal of the sampling coil L1 being connected with the upper bridge arm; andanodes of the freewheel diodes D4, D6 and D2 of the switch tubes Q4, Q6 and Q2 are independent of the output terminals of their respective switch tubes and connected in parallel to the unlike terminal of the sampling coil L2; and the sampling coil L2 is connected in series in the lower bridge arm, its unlike terminal being connected with the cathode of the DC power supply. 5. The brushless DC motor control system according to any one of claims 1 to 4, wherein the sensing element for outputting the current sensing result is a linear Hall element. 6. The brushless DC motor control system according to claim 5, wherein output voltage amplitude of the linear Hall element used as a current feedback signal is sent to a current regulator; output of the current regulator is sent to a pulse modulation circuit;output of the pulse modulation circuit is sent to a commutation logic circuit;output of the commutation logic circuit is then sent to a front-end drive circuit;the front-end drive circuit then outputs a corresponding drive pulse signal to a control terminal of each of the switch tubes in the inverting circuit; andthe inverting circuit outputs the operational power supply to the three-phase motor under control of the drive pulse signal. 7. The brushless DC motor control system according to claim 6, further comprising a position sensor being mounted on a rotating shaft of the DC motor, which output signal is sent to a position/speed interface circuit, in which the position/speed interface circuit outputs speed feedback voltage to a speed regulator, position feedback voltage to a position regulator, and a commutation position signal and a motor direction signal to the commutation logic circuit; wherein the position regulator outputs a speed given signal to the speed regulator according to position given voltage and the position feedback voltage; the speed regulator outputs a current given signal to the current regulator according to the speed given signal and the speed feedback voltage; and the current regulator outputs a corresponding control signal to the pulse modulation circuit according to the current given signal and the current feedback signal from the linear Hall element; andthe commutation logic circuit outputs a corresponding control pulse to the front-end drive circuit according to a pulse signal from a pulse width modulation circuit as well as the commutation position signal and the motor direction signal from the position/speed interface. 8. The brushless DC motor control system according to claim 7, wherein the square-wave brushless permanent-magnet DC motor is a stator coreless linear three-phase square-wave brushless permanent-magnet DC motor, or a stator coreless rotary three-phase square-wave brushless permanent-magnet DC motor.
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