Adjustable frequency pump control system

US 7,777,435 B2
Filed: 02/01/2007
Issued: 08/17/2010
Est. Priority Date: 02/02/2006
Status: Expired due to Fees

First Claim

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1. An adjustable frequency pump control system comprising:

a motor speed control unit producing a motor speed control signal that is applied to a motor that operates a pool'"'"'s circulation pump, the motor speed control unit being configured to automatically adjust the frequency of the motor speed control signal to a specific frequency that corresponds to a particular design point of a pump'"'"'s filtration cycle;

an incoming three-phase power input for supplying power to the system;

a power supply having an input connected to the three-phase power input and an output including at least a first voltage and a second voltage;

a signal from a pressure transducer used to measure the pressure within the pool'"'"'s filtration system, and when enabled by the second voltage, produces a line pressure signal.a computer readable medium storing one or more sequences of instructions for automatically adjusting the speed of the circulation pump within the pool'"'"'s filtration system, which instructions, when executed by one or more processors to carry out a process including at leastreceiving the line pressure signal from the pressure transducer, via the motor speed control;

comparing the line pressure signal with a set point, via the motor speed control; and

generating a signal for adjusting the speed of the circulation pump to match the line pressure signal, via the motor speed control.

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Abstract

An adjustable frequency pump control system (10) that is primarily designed for use in commercial pool filtration systems. The system (10) automatically selects one of three operating speeds that control the speed of a motor that operates a circulation pump (62). The system (10) includes a programmed logic control (PLC) (42) that is activated upon the application of select mode signal (31), a mode timing signal (35), a line pressure signal (37), a circulation pump-run signal (39) and a backwash signal (41). The output of the PLC (42) is a frequency set signal (17) that is applied to an adjustable frequency drive (AFD) (18). From the output of the AFD (18) a motor speed control signal is produced that is applied to the motor that operates the circulation pump (62). The speed of the circulation pump (12) is governed by the frequency of the motor speed control signal, wherein the frequency is determined by the motor speed that is applicable to a particular design point of the pump'"'"'s filtration cycle.

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44 Claims

1. An adjustable frequency pump control system comprising:
- a motor speed control unit producing a motor speed control signal that is applied to a motor that operates a pool'"'"'s circulation pump, the motor speed control unit being configured to automatically adjust the frequency of the motor speed control signal to a specific frequency that corresponds to a particular design point of a pump'"'"'s filtration cycle;
  
  an incoming three-phase power input for supplying power to the system;
  
  a power supply having an input connected to the three-phase power input and an output including at least a first voltage and a second voltage;
  
  a signal from a pressure transducer used to measure the pressure within the pool'"'"'s filtration system, and when enabled by the second voltage, produces a line pressure signal.a computer readable medium storing one or more sequences of instructions for automatically adjusting the speed of the circulation pump within the pool'"'"'s filtration system, which instructions, when executed by one or more processors to carry out a process including at leastreceiving the line pressure signal from the pressure transducer, via the motor speed control;
  
  comparing the line pressure signal with a set point, via the motor speed control; and
  
  generating a signal for adjusting the speed of the circulation pump to match the line pressure signal, via the motor speed control.

2. An adjustable frequency pump control system (AFPCS) that functions in combination with a plurality of system-external elements that include a power input, a circulation pump, and a chemical or filter control unit that produces a circulation pump-run signal and a backwash signal, said system comprising:
- a) an enclosure that is dimensioned to enclose all elements that comprise said system, said enclosure having means for interfacing with the power input, the circulation pump and the chemical and filter control unit,b) an adjustable frequency drive (AFD) that is programmed during the start-up of said AFPCS with data that includes set points and switching sequences that meet a customer'"'"'s requirements, said AFD having an input that is connected to the power input and an output consisting of a frequency-controlled, motor speed control signal that sets the speed of the circulation pump by adjusting the frequency of the motor speed control signal,c) a power supply having an input connected to the power input and an output consisting of a first voltage and a second voltage,d) a system mode selector switch having an output that is connected to the first voltage, and an output consisting of a selected mode signal comprising either;
  
  (1) a bypass mode,(2) a normal filtration mode(3) a manual backwash mode,(4) a normal filtration plus mode,(5) an automatic mode, or(6) an automatic plus mode,e) a time clock having an input that is connected to the first voltage, and an output consisting of a mode timing signal,f) a pressure transducer that is enabled when the second voltage is applied, wherein said pressure transducer produces a line pressure signal,g) a program logic control (PLC) having a plurality of inputs and an output, wherein the plurality of inputs are comprised of;
  
  (1) the selected mode signal that is applied from said system mode selector switch,(2) a mode timing signal that is applied from said time clock,(3) the circulation pump-run signal applied from the chemical or filter control unit (64),(4) the backwash signal applied from the chemical or filter control unit, and(5) the line pressure signal applied from said pressure transducer, wherein the output of said PLC is the frequency-set signal that is applied to said AFD, which in combination with a software program, produces the frequency controlled motor speed signal that is ultimately utilized to control the speed of the circulation pump.
- View Dependent Claims (3, 4, 5, 6, 7, 8)
- - 3. The system as specified in claim 2 wherein said enclosure is comprised of a National Electrical Manufacturers Association (NEMA) wall-mounted enclosure having:
    - a) a front door that includes a neoprene perimeter gasket that prevents inclement weather and corrosive environments from entering said enclosure, andb) an internal panel that includes an accessible circuit breaker activation handle, a keypad, and a mode selector switch control knob.
  - 4. The system as specified in claim 3 wherein said power input is comprised of an a-c power input that is selected from:
    - a) 200 to 300 volts a-c, orb) 380 to 420 volts a-c, wherein said a-c voltages operate at a frequency between 50 to 60 Hz.
  - 5. The system as specified in claim 4 further comprising a circuit breaker and line reactor filter, wherein said circuit breaker has an input that is connected to the power input and an output that passes through the line reactor filter prior to being applied to said AFD, wherein said line reactor filter is designed to filter power line:
    - a) disturbancesb) harmonicsc) surge currents, andd) spikes.
  - 6. The system as specified in claim 5 further comprising an AFD motor contactor having an input that is applied to the frequency-controlled, motor speed control signal, and an output that passes the signals through a motor thermal overload prior to being applied to the motor driving the circulation pump, wherein the speed of the pump motor is governed by the frequency of the frequency-controlled, motor speed control signal.
  - 7. The system as specified in claim 6 wherein the motor speed control signal is comprised of:
    - a) normal filtration speed,b) backwash speed, andc) plus speed.
  - 8. The system as specified in claim 3 wherein the front door is opened when a password is entered into the keypad located on the front panel of said enclosure.

9. An adjustable frequency pump control system (AFPCS) that functions in combination with a plurality of system-external elements that include a three-phase power input, a circulation pump, and a chemical or filter control unit that produces a circulation pump-run signal and a backwash signal, said system comprising:
- a) and enclosure that is dimensioned to enclose all the elements that comprise said system, and having a means for interfacing with the three-phase power input, the circulation pump and the chemical or filter control unit,b) a set of three circuit breakers each having an input that is connected respectively to the three lead lines from the three-phase power input, wherein the output of said circuit breakers is comprised of three output power leads,c) a set of three line reactor filters, each having an input that is connected respectively to the three output lead lines from the outputs of said three circuit breakers, wherein the output of each said line reactor filter is a filtered a-c voltage,d) an adjustable frequency drive (AFD) that operates in combination with software that is accessible via a keypad, said AFD having an input that is applied to the filtered a-c voltages from said line reactor filters, and a frequency-set signal wherein said AFD has a memory that is programmed during the start-up of said AFPCS with data that includes set points and switching sequences that meet a customer'"'"'s requirements, wherein the output of said AFD is a motor contactor close signal, and a set of three frequency-controlled motor speed signals that set the speed of the circulation pump by controlling the frequency of the signals, wherein three motor speeds are available;
  
  (1) normal filtration speed,(2) backwash speed, and(3) plus speede) an AFD motor contactor that, when closed by the application of the motor contactor close signal, passes the motor speed control signals from said AFD,f) a bypass contactor having an input that is connected to the three output power leads from said three circuit breakers, and an output that is connected in parallel across the output of said AFD motor contactor,g) a motor thermal overload having an input connected to the outputs of said AFD motor contactor and said bypass contactor, wherein the output of said motor thermal overload is the set of motor speed control signals that in combination with said AFD produces a selected frequency-set signal that controls the speed of the circulation pump,h) a power transformer having a primary winding and a secondary winding, wherein the primary winding is connected across the output power leads applied from the output of said circuit breakers, wherein the secondary winding produces a stepped-down voltage,i) a system mode selector switch having an input that is connected across the secondary winding of said power transformer, and an output consisting of a selected mode signal comprising either;
  
  (1) a bypass mode,(2) a normal filtration mode,(3) a manual backwash mode,(4) a normal filtration plus mode,(5) an automatic mode, and(6) an automatic plus mode,j) a d-c power supply having an input that is connected across the secondary winding of said power transformer, and an output consisting of 24-volts d-c,k) a time clock having an input that is connected across the secondary winding of said power transformer, and an output consisting of a mode timing signal,l) a fan having an input that is connected across the secondary winding of said control transformer wherein said cooling fan is positioned on said enclosure to provide optimum cooling airflow through said enclosure,m) a pressure transducer that is enabled when the 24-volts d-c from said d-c power supply is applied, wherein said pressure transducer produces a line pressure signal,n) a program logic control (PLC) having six inputs and an output, wherein the six inputs are comprised of;
  
  (1) the stepped-down voltage applied from the secondary winding of said power transformer,(2) the select mode signal that is applied from said system mode selector switch (32)(3) a mode timing signal that is applied from the time clock,(4) the circulation pump-run signal that is applied form the chemical or filter control unit,(5) the backwash signal that is applied from the automatic chemical and filter control, and(6) the line pressure signal that is applied from said pressure transducer, wherein the output of said PLC is the frequency-set signal that is applied to said AFD, which in combination with said software, produces the frequency-set signal that is ultimately utilized to control the speed of the circulation pump.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 10. The system as specified in claim 9 wherein said enclosure is comprised of a National Electrical Manufacturers Association (NEMA) wall-mounted enclosure having a front door that includes a neoprene perimeter gasket that prevents inclement weather and corrosive environments from entering said enclosure.
  - 11. The system as specified in claim 10 wherein said NEMA enclosure further comprises an internal panel that includes an accessible circuit breaker activation handle, the keypad and a mode selector switch control knob.
  - 12. The system as specified in claim 9 wherein said three-phase a-c power input is selected from:
    - a) 200 to 230 volts a-c, orb) 380 to 420-volts a-c, wherein said a-c voltages operate at a frequency between 50 to 60 Hz.
  - 13. The system as specified in claim 9 wherein each said line reactor filter is designed to filter:
    - a) power line disturbances,b) harmonics,c) surge currents, andd) power line spikes.
  - 14. The system as specified in claim 9 wherein said software controls the settings that are retained in the memory of said AFD, wherein the settings comprise:
    - a) motor horsepower,b) motor RPM,c) current drawn,d) circulation pump set point (CPSP),e) backwash speed (BWSPD), andf) plus set point (PSP).
  - 15. The system as specified in claim 9 wherein said keypad has a display that comprises:
    - a) circulation pump speed,b) pump frequency,c) accumulated power usage,d) current power usage,e) pool'"'"'s return line pressure,f) accumulated run time, andg) fault messages.
  - 16. The system as specified in claim 9 wherein said time clock is comprised of an alpha-numeric display.
  - 17. The system as specified in claim 9 wherein said fan further comprises an air filter positioned at the output of said fan.
  - 18. The system as specified in claim 9 further comprising a password that is entered into said keypad before the enclosure door can be opened.
  - 19. The system as specified in claim 9 wherein said software is comprised of the following major system mode routines:
    - a) bypass mode,b) backwash mode,c) normal filtration mode,d) normal filtration plus mode, ande) automatic plus mode.

20. An adjustable frequency pump control system (AFPCS) that functions in combination with a plurality of system-external elements that include a power input, a circulation pump, and a chemical or filter control unit that produces a circulation pump-run signal and a backwash signal, said system comprising:
- a) an enclosure that is dimensioned to enclose all elements that comprise said system, wherein said enclosure has the ability to interface with the power input, the circulation pump and the chemical and filter control unit,b) an adjustable frequency drive (AFD) that is programmed during the start-up of said AFPCS with data that includes set points and switching sequences that meet a customer'"'"'s requirements, said AFD having an input that is connected to the power input and an output consisting of a frequency-controlled, motor speed control signal that sets the speed of the circulation pump by adjusting the frequency of the motor speed control signal,c) a power supply having an input connected to the power input and an output consisting of a first voltage and a second voltage,d) a system mode selector switch having an output that is connected to the first voltage, and an output consisting of a selected mode signal comprising either;
  
  (1) a bypass mode,(2) a normal filtration mode(3) a manual backwash mode,(4) a normal filtration plus mode,(5) an automatic mode, or(6) an automatic plus mode,e) a time clock having an input that is connected to the first voltage, and an output consisting of a mode timing signal,f) a pressure transducer that is enabled when the second voltage is applied, wherein said pressure transducer produces a line pressure signal,g) a program logic control (PLC) having a plurality of inputs and an output, wherein the plurality of inputs are comprised of;
  
  (1) the selected mode signal that is applied from said system mode selector switch,(2) a mode timing signal that is applied from said time clock,(3) the circulation pump-run signal applied from the chemical or filter control unit,(4) the backwash signal applied from the chemical or filter control unit, and(5) the line pressure signal applied from said pressure transducer, wherein the output of said PLC is the frequency-set signal that is applied to said AFD, which in combination with a software program, produces the frequency controlled motor speed signal that is ultimately utilized to control the speed of the circulation pump.
- View Dependent Claims (21, 22, 23, 24, 25, 26)
- - 21. The system as specified in claim 20 wherein said enclosure is comprised of a National Electrical Manufacturers Association (NEMA) wall-mounted enclosure having:
    - a) a front door that includes a neoprene perimeter gasket that prevents inclement weather and corrosive environments from entering said enclosure, andb) an internal panel that includes an accessible circuit breaker activation handle, a keypad, and a mode selector switch control knob.
  - 22. The system as specified in claim 20 wherein said power input is comprised of an a-c power input that is selected from:
    - a) 200 to 300 volts a-c, orb) 380 to 420-volts a-c, wherein said a-c voltages operate at a frequency between 50 to 60 Hz.
  - 23. The system as specified in claim 20 further comprising a circuit breaker and line reactor filter, wherein said circuit breaker has an input that is connected to the power input and an output that passes through the line reactor filter prior to being applied to said AFD, wherein said line reactor filter is designed to filter power line:
    - a) disturbancesb) harmonicsc) surge currents, andd) spikes.
  - 24. The system as specified in claim 20 further comprising an AFD motor contactor having an input that is applied to the frequency-controlled, motor speed control signal, and an output that passes the signals through a motor thermal overload prior to being applied to the motor driving the circulation pump, wherein the speed of the pump motor is governed by the frequency of the frequency-controlled, motor speed control signal.
  - 25. The system as specified in claim 20 wherein the motor speed control signal is comprised of:
    - a) normal filtration speed,b) backwash speed, andc) plus speed.
  - 26. The system as specified in claim 21 wherein the front door is opened when a password is entered into the keypad located on the front panel of said enclosure.

27. An adjustable frequency pump control system (AFPCS) that functions in combination with a plurality of system-external elements that include a three-phase power input, a circulation pump, and a chemical or filter control unit that produces a circulation pump-run signal and a backwash signal, said system comprising:
- a) an enclosure that is dimensioned to enclose all the elements that comprise said system, wherein said enclosure has the ability to interface with the three-phase power input, the circulation pump and the chemical or filter control unit,b) a set of three circuit breakers each having an input that is connected respectively to the three lead lines from the three-phase power input, wherein the output of said circuit breakers is comprised of three output power leads,c) a set of three line reactor filters, each having an input that is connected respectively to the three output lead lines from the outputs of said three circuit breakers, wherein the output of each said line reactor filter is a filtered a-c voltage,d) an adjustable frequency drive (AFD) that operates in combination with software that is accessible via a keypad, said AFD having an input that is applied to the filtered a-c voltages from said line reactor filters, and a frequency-set signal wherein said AFD has a memory that is programmed during the start-up of said AFPCS with data that includes set points and switching sequences that meet a customer'"'"'s requirements wherein the output of said AFD is a motor contactor close signal, and a set of three frequency-controlled motor speed signals that set the speed of the circulation pump by controlling the frequency of the signals, wherein three motor speeds are available;
  
  (1) normal filtration speed,(2) backwash speed, and(3) plus speede) an AFD motor contactor that, when closed by the application of the motor contactor close signal, passes the motor speed control signals from said AFD,f) a bypass contactor having an input that is connected to the three output power leads from said three circuit breakers, and an output that is connected in parallel across the output of said AFD motor contactor,g) a motor thermal overload having an input connected to the outputs of said AFD motor contactor and said bypass contactor, wherein the output of said motor thermal overload is the set of motor speed control signals that in combination with said AFD produces a selected frequency-set signal that controls the speed of the circulation pump,h) a power transformer having a primary winding and a secondary winding, wherein the primary winding is connected across the output power leads applied from the output of said circuit breakers, wherein the secondary winding produces a stepped-down voltage,i) a system mode selector switch having an input that is connected across the secondary winding of said power transformer, and an output consisting of a selected mode signal comprising either;
  
  (1) a bypass mode,(2) a normal filtration mode,(3) a manual backwash mode,(4) a normal filtration plus mode,(5) an automatic mode, and(6) an automatic plus mode,j) a d-c power supply having an input that is connected across the secondary winding of said power transformer, and an output consisting of 24-volts d-c,k) a time clock having an input that is connected across the secondary winding of said power transformer, and an output consisting of a mode timing signal,l) a fan having an input that is connected across the secondary winding of said control transformer wherein said cooling fan is positioned on said enclosure to provide optimum cooling airflow through said enclosure,m) a pressure transducer that is enabled when the 24-volts d-c from said d-c power supply is applied, wherein said pressure transducer produces a line pressure signal,n) a program logic control (PLC) having six inputs and an output, wherein the six inputs are comprised of;
  
  (1) the stepped-down voltage applied from the secondary winding of said power transformer,(2) the select mode signal that is applied from said system mode selector switch,(3) a mode timing signal that is applied from the time clock,(4) the circulation pump-run signal that is applied from the chemical or filter control unit,(5) the backwash signal that is applied from the automatic chemical and filter control, and(6) the line pressure signal that is applied from said pressure transducer, wherein the output of said PLC is the frequency-set signal that is applied to said AFD, which in combination with said software, produces the frequency-set signal that is ultimately utilized to control the speed of the circulation pump.
- View Dependent Claims (28, 29, 30, 31, 32, 33, 34, 35, 36, 37)
- - 28. The system as specified in claim 27 wherein said enclosure is comprised of a National Electrical Manufacturers Association (NEMA) wall-mounted enclosure having a front door that includes a neoprene perimeter gasket that prevents inclement weather and corrosive environments from entering said enclosure.
  - 29. The system as specified in claim 28 wherein said NEMA enclosure further comprises an internal panel that includes an accessible circuit breaker activation handle, the keypad and a mode selector switch control knob.
  - 30. The system as specified in claim 27 wherein said three-phase a-c power input is selected from:
    - a) 200 to 230 volts a-c, orb) 380 to 420-volts a-c, wherein said a-c voltages operate at a frequency between 50 to 60 Hz.
  - 31. The system as specified in claim 27 wherein each said line reactor filter is designed to filter:
    - a) power line disturbances,b) harmonics,c) surge currents, andd) power line spikes.
  - 32. The system as specified in claim 27 wherein said software controls the settings that are retained in the memory of said AFD, wherein the settings comprise:
    - a) motor horsepower,b) motor RPM,c) current drawn,d) circulation pump set point (CPSP),e) backwash speed (BWSPD), andf) plus set point (PSP).
  - 33. The system as specified in claim 27 wherein said keypad has a display that comprises:
    - a) circulation pump speed,b) pump frequency,c) accumulated power usage,d) current power usage,e) pool'"'"'s return line pressure,f) accumulated run time, andg) fault messages.
  - 34. The system as specified in claim 27 wherein said time clock is comprised of an alpha-numeric display.
  - 35. The system as specified in claim 27 wherein said fan further comprises an air filter positioned at the output of said fan.
  - 36. The system as specified in claim 27 further comprising a password that is entered into said keypad before the enclosure door can be opened.
  - 37. The system as specified in claim 27 wherein said software is comprised of the following major system mode routines:
    - a) bypass mode,b) backwash mode,c) normal filtration mode,d) normal filtration plus mode, ande) automatic plus mode.

38. A method for automatically adjusting the speed of a circulation pump within a pool'"'"'s filtration system, comprising:
- a) interfacing with a power input, a circulation pump and a chemical or filter control unit via an enclosure,b) programming an adjustable frequency drive (AFD) during the start-up of an adjustable frequency pump control system (AFPCS) with data that includes set points and switching sequences that meet a customer'"'"'s requirements, said AFD having an input that is connected to the power input and an output consisting of a frequency-controlled, motor speed control signal that sets the speed of the circulation pump by adjusting the frequency of the motor speed control signal,c) sending power to a power supply having an input connected to the power input and an output consisting of a first voltage and a second voltage,d) sending a selected mode signal to a programmed logic control, via a system mode selector switch having an output that is connected to the first voltage, wherein the selected mode signal comprises either;
  
  (1) a bypass mode,(2) a normal filtration mode,(3) a manual backwash mode,(4) a normal filtration plus mode,(5) an automatic mode, or(6) an automatic plus mode,e) sending a mode timing signal to the programmed logic control, via a time clock having an input that is connected to the first voltage,f) sending a line pressure signal to the programmed logic control, via a pressure transducer that is enable when the second voltage is applied,g) sending a circulation pump-run signal to the programmed logic control via the chemical or filter control unit,h) sending a backwash signal to the programmed logic control via the chemical or filter control uniti) sending a frequency-set signal from the programmed logic control to the AFD, which in combination with a software program, produces the frequency controlled motor speed signal that is ultimately utilized to control the speed of the circulation pump.
- View Dependent Claims (39, 40, 41, 42, 43, 44)
- - 39. The method of claim 38 wherein said enclosure is comprised of a National Electrical Manufacturers Association (NEMA) wall-mounted enclosure having:
    - a) a front door that includes a neoprene perimeter gasket that prevents inclement weather and corrosive elements from entering said enclosure, andb) an internal panel that includes an accessible circuit breaker activation handle, a keypad, and a mode selector switch control knob.
  - 40. The method of claim 38 wherein said power input is comprised of an a-c power input that is selected from:
    - a) 200 to 300 volts a-c, orb) 380 to 420-volts a-c, wherein said a-c voltages operate at a frequency between 50 to 60 Hz.
  - 41. The method of claim 38 further comprising a circuit breaker and line reactor filter, wherein said circuit breaker has an input that is connected to the power input and an output that passes through the line reactor filter prior to being applied to said AFD, wherein said line reactor filter is designed to filter power line:
    - a) disturbancesb) harmonicsc) surge currents, andd) spikes.
  - 42. The method of claim 38 further comprising an AFD motor contactor having an input that is applied to the frequency-controlled, motor speed control signal, and an output that passes the signals through a motor thermal overload prior to being applied to the motor driving the circulation pump, wherein the speed of the pump motor is governed by the frequency of the frequency-controlled, motor speed control signal.
  - 43. The method of claim 38 wherein the motor speed control signal is comprised of:
    - a) normal filtration speed,b) backwash speed, andc) plus speed.
  - 44. The method of claim 39 wherein when the front door is opened, a password may be entered into the keypad located on the front panel of said enclosure.

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Current Assignee
Ray A. Aguilar, Robert M. Castle
Original Assignee
Ray A. Aguilar, Robert M. Castle
Inventors
Castle, Robert M., Aguilar, Ray A.
Primary Examiner(s)
Ro; Bentsu

Application Number

US11/701,269
Publication Number

US 20080187443A1
Time in Patent Office

1,293 Days
Field of Search

318/268, 417/43, 417/44.1, 417/45, 417/44.2, 417/22, 417/44.11
US Class Current

318/268
CPC Class Codes

F04D 15/0066 by changing the speed, e.g....

Adjustable frequency pump control system

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Adjustable frequency pump control system

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Abstract

70 Citations

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