Irrigation system peripheral communications using valve control wires
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B05B-017/04
출원번호
US-0083286
(2002-02-26)
발명자
/ 주소
Harris, Steven Lee
인용정보
피인용 횟수 :
14인용 특허 :
10
초록▼
An irrigation system controller communicates with peripheral sensors using control valve wires as the medium over which to send and receive electronic signals. Various types of sensors such as soil moisture, temperature, etc., can be interfaced to this system. A sensor that is near a control valve c
An irrigation system controller communicates with peripheral sensors using control valve wires as the medium over which to send and receive electronic signals. Various types of sensors such as soil moisture, temperature, etc., can be interfaced to this system. A sensor that is near a control valve can be connected to the control valve wires, eliminating the need to run additional sensor wires back to the controller. Installation costs are reduced because of less wire to run.
대표청구항▼
1. An apparatus for passing electrical communication signals over valve control wires in an electronic irrigation system between a master data acquisition circuit and at least one sensor circuits comprising:(a) an electronic irrigation controller for controlling the application of irrigation fluid o
1. An apparatus for passing electrical communication signals over valve control wires in an electronic irrigation system between a master data acquisition circuit and at least one sensor circuits comprising:(a) an electronic irrigation controller for controlling the application of irrigation fluid over a given area; (b) at least one control valve driven by electrical current from said irrigation controller to control the flow of irrigation fluid to at least one dispersion nozzle; (c) an electrical connection between said irrigation contol means and said control valve for use in applying power to said control valves; (d) a first communications filter circuitry coupled to said electrical connection and located in the vicinity of said irrigation control; and (e) a second communications filter circuitry coupled to said electrical connection and located in the vicinity of where said irrigation fluid is dispersed. 2. The apparatus of claim 1 wherein the first and second communication filters provides isolation from electrical voltages and currents used to power said control valve, comprising at least one capacitors configured to form a high pass filter which disallows the passage of valve power signals, yet allows higher frequency communication signals to pass through.3. The apparatus of claim 2 wherein the first and second communication filter circuits contain slew rate limiting circuitry, comprising a resistor and capacitor configured as a low pass filter, to prevent misfiring of solid state triac devices which may be used in said irrigation control means.4. The apparatus of claim 2 wherein the first and second communication filter circuits contain at least one diode for overvoltage and undervoltage protection of said data acquisition circuit and said sensor circuits.5. The apparatus of claim 2 wherein the first and second instances of said communication filter circuits contain at least four terminals, two being connected to valve control wires, and two connected to sensor or data acquisition circuitry.6. The apparatus of claim 1 wherein said electrical communication signals use a slow speed single bit encoding scheme to reduce the level of radio frequency emissions which may be generated during operation.7. The apparatus of claim 1, further comprising an active sensor coupled to the electrical connection and located in a vicinity of where the irrigation fluid is dispersed.8. The apparatus of claim 1, further comprising a passive sensor coupled to the electrical connection and located near where the irrigation fluid is dispersed.9. An apparatus for passing electrical communication signals over valve control wires in an electronic irrigation system between a data acquisition circuit and at least one passive sensor circuits comprising:(a) an electronic irrigation contoller for controlling the application of irrigation fluid over a given area; (b) at least one control valve driven by electrical current from said irrigation controller to control the flow of irrigation fluid to at least one dispersion nozzle; (c) electrical connection between said irrigation contoller and said control valve for use in applying power to said control valves; (d) a first communications filter circuitry coupled to said electrical connection and located in the vicinity of said irrigation controller; and (e) a second communication filter circuitry coupled to said electrical connection and to a passive sensor and located near where said irrigation fluid is dispersed. 10. The apparatus of claim 9 wherein said first and second communications filter circuitry provides isolation from electrical voltages and currents used to power said control valve, comprising at least one capacitors configured to form a high pass filter which disallows the passage of valve power signals, yet allows higher frequency communication signals to pass through.11. The apparatus of claim 10 wherein said second communications filter circuitry provides isolation from electrical voltages and currents used to power said control valve, comprising first and second capacitors and a resistor configured to form a high pass filter which disallows the passage of valve power signals, yet allows higher frequency communication signals to pass through.12. The apparatus of claim 10 wherein said first communications filter circuitry contains slew rate limiting circuitry, comprising a resistor and capacitor configured as a low pass filter, to prevent misfiring of solid state triac devices which may be used in said irrigation control means.13. The apparatus of claim 12 wherein said first communications filter circuitry contains at least one diode for overvoltage and undervoltage protection of said data acquisition circuit.14. The apparatus of claim 9 wherein said electrical communication signals are not transmitted continuously, but are intermittent with a period of time between each transmission sufficient to reduce to an acceptable level the radio frequency emissions which may be generated during operation.15. A method for passing electrical communication signals over valve control wires in an electric irrigation system between a master data acquisition circuit and at least one sensor circuits comprising:providing an electric irrigation controller for controlling the application of irrigation fluid over a given area; providing at least one control valve driven by electrical current from said irrigation controller to control the flow of irrigation fluid to at least one dispersion nozzle; and providing an electrical connection between said irrigation control means and said control valve for use in applying power to said control valves; said connection usually consisting of solid copper wire; and providing a first instance of communications filter circuitry coupled to said electrical connection and located in the vicinity of said irrigation control means; and providing a second instance of communications filter circuitry coupled to said electrical connection and located in the vicinity of where said irrigation fluid is dispersed. 16. The method of claim 15, further comprising:(a) providing a stimulus signal which is passed through a series resistor for the purpose of creating a voltage divider with said resistive sensor; and (b) passing said signal through an isolation filter to said valve control wires, said isolation filter having first and second series capacitors configured to form a high pass filter for isolation from power voltages which may exist on valve control wires; and (c) said stimulus signal is digital pulse of the proper magnitude and duration such that when it is passed to said valve control wires, the control valve which is connected in parallel briefly appears as a high impedance, such that for a small instant of time a voltage divider is created between the series resistor and resistive sensor; and (d) a high speed analog to digital converter is used to obtain a digital value of the voltage level that briefly exists in said voltage divider, further that said digital value is proportional to resistance level of said sensor, whereby the resistance level of the sensor can be mathematically derived. 17. The method of claim 16, wherein said passive resistive sensor is connected to said valve control wires through an isolation filter having first and second series capacitors configured to form a high pass filter for isolation from power voltages which may exist on valve control wires.18. The method of claim 16, wherein said series resistor is connected with a capacitor in parallel to form a low pass filter, whereby the slew rate of said digital pulse is limited to less than 1 volt per microsecond to protect against premature firing of solid state triac devices generally used in irrigation control system.19. The method of claim 16, wherein the magnitude and duration of said digital pulse is around 15 volts and 30 microseconds, respectively.20. The method of claim 16, wherein said stimulus signal is applied only intermittently, with a period of time between each stimulus signal, sufficient to reduce to an acceptable level the radio frequency emissions which may be generated during operation.
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