IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0425174
(2012-03-20)
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등록번호 |
US-8603026
(2013-12-10)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Ingrassia Fisher & Lorenz, P.C.
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인용정보 |
피인용 횟수 :
43 인용 특허 :
197 |
초록
▼
Apparatus are provided for motor control systems and related medical devices. In one embodiment, a control system includes a motor having a rotor, a sensor to obtain a measured displacement that is influenced by rotation of the rotor, and a control module coupled to the sensor. The control module ad
Apparatus are provided for motor control systems and related medical devices. In one embodiment, a control system includes a motor having a rotor, a sensor to obtain a measured displacement that is influenced by rotation of the rotor, and a control module coupled to the sensor. The control module adjusts a duty cycle for a modulated voltage applied to the motor in response to a difference between an expected displacement and the measured displacement. The expected displacement is influenced by or otherwise corresponds to a commanded rotation of the rotor.
대표청구항
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1. An infusion device, comprising: a stepper motor having a rotor, the stepper motor having a first number of motor steps per revolution of the rotor;a shaft mechanically coupled to the rotor, the shaft being displaced to deliver fluid in response to rotation of the rotor;an incremental position sen
1. An infusion device, comprising: a stepper motor having a rotor, the stepper motor having a first number of motor steps per revolution of the rotor;a shaft mechanically coupled to the rotor, the shaft being displaced to deliver fluid in response to rotation of the rotor;an incremental position sensor to obtain a measured number of incremental rotations of the rotor, the incremental position sensor detecting a second number of incremental rotations of the rotor per revolution of the rotor; anda control module coupled to the stepper motor and the incremental position sensor to: operate the motor to provide a number of commanded motor steps of rotation of the rotor while a modulated voltage is applied to the motor;determine an expected number of incremental rotations expected to be detected by the incremental position sensor in response to the number of commanded motor steps based on the number of commanded motor steps and a relationship between the first number and the second number; andadjust a duty cycle for the modulated voltage in response to a difference between the expected number of incremental rotations and the measured number of incremental rotations obtained after operating the motor to provide the number of commanded motor steps. 2. The infusion device of claim 1, wherein the control module: determines an increase amount based on the difference between the expected number of incremental rotations and the measured number of incremental rotations; andincreases the duty cycle by the increase amount. 3. The infusion device of claim 2, further comprising a motor driver module coupled to the motor to apply the modulated voltage to the motor, wherein the control module: determines a number of missed motor steps based on a difference between the expected number of incremental rotations and the measured number of incremental rotations; andoperates the motor driver module to compensate for the number of missed motor steps while the motor driver module applies the modulated voltage having the increased duty cycle. 4. An infusion device, comprising: a motor having a rotor, wherein a modulated voltage having a duty cycle is applied to the motor, the modulated voltage oscillating between a first voltage and a second voltage, the modulated voltage being equal to the first voltage for a percentage of a time interval corresponding to the duty cycle;a shaft mechanically coupled to the rotor, the shaft being displaced to deliver fluid in response to rotation of the rotor;a sensor to obtain a measured displacement that is influenced by rotation of the rotor; anda control module coupled to the motor and the sensor to operate the motor to provide a commanded rotation of the rotor and adjust the duty cycle for the modulated voltage in response to a difference between an expected displacement corresponding to the commanded rotation the measured displacement obtained after operating the motor to provide the commanded rotation. 5. The infusion device of claim 4, wherein: the sensor obtains the measured displacement of the rotor after operating the motor to provide the commanded rotation; andthe expected displacement comprises the commanded rotation. 6. The infusion device of claim 4, the commanded rotation corresponding to a commanded displacement of the shaft, wherein: the sensor obtains the measured displacement of the shaft after operating the motor to provide the commanded rotation; andthe expected displacement comprises the commanded displacement of the shaft. 7. The infusion device of claim 4, wherein: adjusting the duty cycle comprises increasing the duty cycle to an increased duty cycle; andthe control module operates the motor to compensate for the difference between the measured displacement and the expected displacement while the modulated voltage having the increased duty cycle is applied to the motor. 8. The infusion device of claim 4, further comprising a pulse-width modulation module coupled to the motor, the modulated voltage comprising a pulse-width modulated voltage output generated by the pulse-width modulation module, wherein the control module adjusts a duty cycle setting of the pulse-width modulation module in response to the difference between the expected displacement and the measured displacement. 9. The infusion device of claim 4, wherein: the motor comprises a stepper motor;the sensor comprises an incremental position sensor to detect incremental rotations of the rotor;the measured displacement comprises a measured number of the incremental rotations; andthe expected displacement comprises an expected number of the incremental rotations expected to be detected by the incremental position sensor in response to operating the motor to provide the commanded rotation. 10. The infusion device of claim 4, wherein the motor comprises a direct current motor. 11. The infusion device of claim 4, wherein the control module: increases the duty cycle in response to the difference between the expected displacement and the measured displacement; anddecreases the duty cycle when the measured displacement is equal to the expected displacement. 12. The infusion device of claim 4, wherein the control module determines the expected displacement based on the commanded rotation. 13. The infusion device of claim 4, wherein the first voltage is a supply voltage and the second voltage is a ground voltage. 14. The infusion device of claim 4, wherein the modulated voltage comprises a square wave, the duty cycle corresponding to a width of the square wave. 15. The infusion device of claim 4, further comprising a pulse-width modulation module coupled to the motor, the pulse-width modulation module generating a pulse-width modulated voltage output that is applied to the motor, wherein the control module adjusts the duty cycle of the pulse-width modulated voltage output generated by the pulse-width modulation module in response to the difference. 16. The infusion device of claim 15, further comprising a motor driver module coupled between the pulse-width modulation module and the motor to apply the pulse-width modulated voltage output to the motor, wherein after adjusting the duty cycle, the control module operates the motor driver module to compensate for the difference between the expected displacement and the measured displacement while the motor driver module applies the pulse-width modulated voltage output having the adjusted duty cycle to the motor. 17. The infusion device of claim 4, wherein the modulated voltage comprises a square wave having a magnitude equal to the first voltage for the percentage of the time interval and equal to the second voltage for a remaining percentage of the time interval. 18. The infusion device of claim 17, wherein the first voltage is a supply voltage and the second voltage is a ground voltage. 19. The infusion device of claim 4, further comprising a reservoir having a stopper provided therein, the stopper being coupled to the shaft such that displacement of the shaft results in displacement of the stopper, wherein the commanded rotation corresponds to an amount of fluid to be dispensed from the reservoir. 20. The infusion device of claim 19, wherein the control module: identifies an anomalous condition based on the duty cycle; andgenerates a notification in response to detecting the anomalous condition. 21. The infusion device of claim 20, wherein the anomalous condition comprises a degradation condition or an occlusion condition in a fluid path from the reservoir. 22. The infusion device of claim 4, wherein: the sensor comprises an incremental position sensor to detect incremental rotations of the rotor;the measured displacement comprises a measured number of the incremental rotations; andthe expected displacement comprises an expected number of the incremental rotations expected to be detected by the incremental position sensor in response to the commanded rotation. 23. The infusion device of claim 22, wherein the incremental position sensor comprises a rotary encoder. 24. The infusion device of claim 22, wherein: the motor has a first number of motor steps per revolution of the rotor;the incremental position sensor detects a second number of the incremental rotations per revolution of the rotor;the commanded rotation comprises a commanded number of motor steps; andthe control module determines the expected number of the incremental rotations based on the commanded number and a relationship between the second number and the first number. 25. The infusion device of claim 24, wherein the control module determines the expected number by multiplying the commanded number by a ratio of the second number to the first number. 26. The infusion device of claim 4, wherein the motor comprises a stepper motor. 27. The infusion device of claim 26, the commanded rotation comprising a number of commanded motor steps, wherein the control module determines the expected displacement based on the number of commanded motor steps. 28. The infusion device of claim 27, wherein: the sensor comprises an incremental position sensor to detect a first number of incremental rotations of the rotor per revolution of the rotor;the stepper motor has a second number of motor steps per revolution of the rotor; andthe control module determines the expected displacement as an expected number of incremental rotations expected to be detected by the incremental position sensor in response to the commanded rotation based on the number of commanded motor steps and a relationship between the first number and the second number. 29. The infusion device of claim 28, wherein the measured displacement comprises a measured number of incremental rotations detected by the incremental position sensor when the motor is operated to provide the commanded rotation. 30. The infusion device of claim 29, wherein the control module: determines an increase amount based on the difference between the expected number of incremental rotations and the measured number of incremental rotations; andincreases the duty cycle by the increase amount. 31. The infusion device of claim 30, further comprising a motor driver module coupled to the motor to apply the modulated voltage to the motor, wherein the control module: determines a number of missed motor steps based on a difference between the expected number of incremental rotations and the measured number of incremental rotations; andoperates the motor driver module to compensate for the number of missed motor steps while the motor driver module applies the modulated voltage having the increased duty cycle. 32. An infusion device, comprising: a motor having a rotor;a shaft mechanically coupled to the rotor, the shaft being displaced to deliver fluid in response to rotation of the rotor;a sensor to obtain a measured displacement that is influenced by rotation of the rotor; anda control module coupled to the motor and the sensor to operate the motor to provide a commanded rotation of the rotor while a modulated voltage is applied to the motor, increase a duty cycle for the modulated voltage in response to a difference between an expected displacement corresponding to the commanded rotation the measured displacement obtained after operating the motor to provide the commanded rotation, and decrease the duty cycle when the measured displacement is equal to the expected displacement.
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