Pump and pump control circuit apparatus and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04B-049/10
F04B-043/00
F04B-043/02
F04B-043/04
F04B-049/06
출원번호
US-0981692
(2007-10-31)
등록번호
US-9109590
(2015-08-18)
발명자
/ 주소
Meza, Humberto V.
Gandhi, Nikhil Jitendra
Truong, Quang Minh
출원인 / 주소
SHURflo, LLC
대리인 / 주소
Quarles & Brady LLP
인용정보
피인용 횟수 :
2인용 특허 :
89
초록▼
Embodiments of the invention provide a pump control circuit for use with a pump. The pump control circuit includes a temperature sensor capable of producing a signal representative of a temperature of the pump and a microcontroller coupled to receive the signal from the temperature sensor and progra
Embodiments of the invention provide a pump control circuit for use with a pump. The pump control circuit includes a temperature sensor capable of producing a signal representative of a temperature of the pump and a microcontroller coupled to receive the signal from the temperature sensor and programmed to control a current provided to the pump. The pump control circuit also includes an output power stage coupled to receive a control signal from the microcontroller and capable of controlling the application of current to the pump in response to the control signal in order to stabilize the temperature of the pump.
대표청구항▼
1. A pump control circuit for use with a pump, the circuit comprising: a temperature sensor capable of producing a signal representative of a temperature of the pump;a microcontroller coupled to receive the signal from the temperature sensor, the microcontroller determining a surface temperature of
1. A pump control circuit for use with a pump, the circuit comprising: a temperature sensor capable of producing a signal representative of a temperature of the pump;a microcontroller coupled to receive the signal from the temperature sensor, the microcontroller determining a surface temperature of the pump based on the signal from the temperature sensor,the microcontroller determining a current limit value by one of calculating the current limit value and accessing a lookup table for the current limit value based on the surface temperature of the pump, wherein the current limit value is a maximum current value that will be delivered to the pump,the microcontroller modifying the current limit value by one of calculating the current limit value and accessing the lookup table for the current limit value based on the surface temperature of the pump when the surface temperature of the pump increases or decreases,the microcontroller programmed to provide a control signal to control a current provided to the pump,the microcontroller programmed to use one of a plurality of response speeds in response to a flow demand when controlling the current provided to the pump; andan output power stage coupled to receive the control signal from the microcontroller and capable of controlling the application of current to the pump in response to the control signal in order to stabilize the temperature of the pump by keeping the current provided to the pump below the current limit value. 2. The pump control circuit of claim 1 wherein the temperature sensor produces the signal that is representative of changes in the temperature inside of the pump; and wherein the microcontroller correlates the sensed temperature to the surface temperature of an outside surface of the pump and controls the current provided to the pump based on the surface temperature. 3. The pump control circuit of claim 1, wherein the temperature sensor includes a semiconductor temperature sensor integrated circuit. 4. The pump control circuit of claim 1, wherein the current limit value is inversely proportional to the temperature of the pump. 5. The pump control circuit of claim 1, wherein the current limit value is approximately 5 amps when the temperature of the pump is approximately 70 degrees Fahrenheit. 6. The pump control circuit of claim 1, wherein the microcontroller controls the current provided to the pump in order to prevent the temperature of the pump from exceeding approximately 160 degrees Fahrenheit. 7. The pump control circuit of claim 1, wherein the control signal is pulse-width modulated and has a duty cycle that is reduced in order to reduce the power supplied to the pump and that is increased in order to increase the power supplied to the pump. 8. A pump control circuit for use with a pump, the circuit comprising: a temperature sensor capable of producing a signal representative of a first temperature inside the pump;a microcontroller coupled to receive the signal from the temperature sensor, the microcontroller correlating the first temperature to a second temperature of an outside surface of the pump based on the signal from the temperature sensor,the microcontroller determining a current limit value by accessing a lookup table for the current limit value based on the second temperature of the pump, wherein the current limit value is a maximum current value that will be delivered to the pump,the microcontroller modifying the current limit value by accessing the lookup table for the current limit value based on the second temperature of the pump when the second temperature of the pump increases or decreases,the microcontroller programmed to provide a control signal to control a current provided to the pump; andan output power stage coupled to receive the control signal from the microcontroller and capable of controlling the application of current to the pump in response to the control signal in order to stabilize the temperature of the pump by keeping the current provided to the pump below the current limit value. 9. The pump control circuit of claim 8, wherein the temperature sensor includes a semiconductor temperature sensor integrated circuit. 10. The pump control circuit of claim 8, wherein the current limit value is inversely proportional to the first temperature of the pump. 11. The pump control circuit of claim 8, wherein the control signal is pulse-width modulated based on the first temperature. 12. The pump control circuit of claim 8, wherein the control signal is pulse-width modulated and includes a duty cycle that is reduced in order to reduce the power supplied to the pump, and that is increased in order to increase the power supplied to the pump. 13. A pump control circuit for use with a pump, the circuit comprising: a temperature sensor capable of producing a signal representative of a temperature of the pump;a microcontroller coupled to receive the signal from the temperature sensor, the microcontroller determining a surface temperature of the pump based on the signal from the temperature sensor,the microcontroller determining a current limit value by accessing a lookup table for the current limit value based on the surface temperature of the pump, wherein the current limit value is a maximum current value that will be delivered to the pump,the microcontroller modifying the current limit value by accessing the lookup table for the current limit value based on the surface temperature of the pump when the surface temperature of the pump increases or decreases,the microcontroller programmed to provide a control signal to control a current provided to the pump,the microcontroller programmed to use one of a plurality of response speeds in response to a flow demand when controlling the current provided to the pump; andan output power stage coupled to receive the control signal from the microcontroller and capable of controlling the application of current to the pump in response to the control signal in order to stabilize the temperature of the pump by keeping the current provided to the pump below the current limit value. 14. The pump control circuit of claim 1 wherein the temperature sensor produces the signal that is representative of changes in the temperature inside of the pump; and wherein the microcontroller correlates the sensed temperature to the surface temperature of an outside surface of the pump and controls the current provided to the pump based on the surface temperature. 15. The pump control circuit of claim 13, wherein the temperature sensor includes a semiconductor temperature sensor integrated circuit. 16. The pump control circuit of claim 13, wherein the response speed used by the microcontroller corresponds to a flow mode of the pump. 17. The pump control circuit of claim 13, wherein the current limit value is inversely proportional to the temperature of the pump. 18. The pump control circuit of claim 13, wherein the control signal is pulse-width modulated and includes a duty cycle that is reduced in order to reduce the power supplied to the pump, and that is increased in order to increase the power supplied to the pump. 19. The pump control circuit of claim 13, wherein the response speed used by the microcontroller corresponds to the difference between the current limit value and a current value.
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