Abstract: Some embodiments provide hydro-power generation systems for irrigation systems. In some embodiments, a system comprises a generator comprising a turbine at least partially inserted into a fluid flow path of a conduit of the irrigation system and to be activated by a fluid flow in the conduit, wherein the generator is to output an electrical power signal; a control circuit to: determine a characteristic of the electrical power signal; determine, based on the characteristic, a load impedance selected from a plurality of load impedances; and output a control signal to select the load impedance. The system also comprises a variable load circuit to: receive the control signal; and provide the load impedance, where an impedance of the variable load circuit is based on the characteristic to provide power generation over various flow rates of fluid in the fluid flow path.

Abstract: Some embodiments provide an irrigation flow sensor system, comprising: a housing forming a fluid channel to cooperate with conduits of an irrigation system; a paddle wheel device with at least a first blade of a set of the blades comprises a magnetic element; the paddle wheel device is positioned with at least a portion of the blades extends into the fluid channel as the blades rotate about an axis; a magnetic sensor proximate a pathway of the magnetic element as it rotates configured to provide a sensor output every time the magnetic element passes the magnetic sensor; a switch coupled to the magnetic sensor and a current loop, wherein the switch in an activate state is configured to temporarily change the current in the current loop in response to the sensor output, with a rate of change in current corresponding to a flow rate of the fluid flowing.

Abstract: Some embodiments provide hydro-power generation systems for irrigation systems. In some embodiments, a system comprises a generator comprising a turbine at least partially inserted into a fluid flow path of a conduit of the irrigation system and to be activated by a fluid flow in the conduit, wherein the generator is to output an electrical power signal; a control circuit to: determine a characteristic of the electrical power signal; determine, based on the characteristic, a load impedance selected from a plurality of load impedances; and output a control signal to select the load impedance. The system also comprises a variable load circuit to: receive the control signal; and provide the load impedance, where an impedance of the variable load circuit is based on the characteristic to provide power generation over various flow rates of fluid in the fluid flow path.

Abstract: Some embodiments provide an irrigation flow sensor system, comprising: a housing forming a fluid channel to cooperate with conduits of an irrigation system; a paddle wheel device with at least a first blade of a set of the blades comprises a magnetic element; the paddle wheel device is positioned with at least a portion of the blades extends into the fluid channel as the blades rotate about an axis; a magnetic sensor proximate a pathway of the magnetic element as it rotates configured to provide a sensor output every time the magnetic element passes the magnetic sensor; a switch coupled to the magnetic sensor and a current loop, wherein the switch in an activate state is configured to temporarily change the current in the current loop in response to the sensor output, with a rate of change in current corresponding to a flow rate of the fluid flowing.

Abstract: Some embodiments provide an irrigation flow sensor system, comprising: a housing forming a fluid channel to cooperate with conduits of an irrigation system; a paddle wheel device with at least a first blade of a set of the blades comprises a magnetic element; the paddle wheel device is positioned with at least a portion of the blades extends into the fluid channel as the blades rotate about an axis; a magnetic sensor proximate a pathway of the magnetic element as it rotates configured to provide a sensor output every time the magnetic element passes the magnetic sensor; a switch coupled to the magnetic sensor and a current loop, wherein the switch in an activate state is configured to temporarily change the current in the current loop in response to the sensor output, with a rate of change in current corresponding to a flow rate of the fluid flowing.

Abstract: Apparatus, system, and method are provided herein for causing and controlling the injection of fertilizer into an irrigation of an irrigation system. The fertigation system comprises a fertigation supply unit including at least one storage container containing at least one of a fertilizer component, a herbicide, and an insecticide coupled to a irrigation of the irrigation system. A fertigation control unit is coupled to the fertigation supply unit. The fertigation control unit is configured to cause the fertigation supply unit to inject at least some of the fertilizer component, herbicide, and/or insecticide into the irrigation. The fertigation control unit can cause the fertigation supply unit to inject the fertilizer component, herbicide, and/or insecticide in response to at least air temperature data and/or soil temperature data received from a sensor unit, or in response to user input at the fertigation control unit.

Abstract: Some embodiments provide an irrigation flow sensor system, comprising: a housing forming a fluid channel to cooperate with conduits of an irrigation system; a paddle wheel device with at least a first blade of a set of the blades comprises a magnetic element; the paddle wheel device is positioned with at least a portion of the blades extends into the fluid channel as the blades rotate about an axis; a magnetic sensor proximate a pathway of the magnetic element as it rotates configured to provide a sensor output every time the magnetic element passes the magnetic sensor; a switch coupled to the magnetic sensor and a current loop, wherein the switch in an activate state is configured to temporarily change the current in the current loop in response to the sensor output, with a rate of change in current corresponding to a flow rate of the fluid flowing.

Abstract: In some embodiments, systems and methods provide a water flow controlled irrigation system, comprising: an irrigation water flow sensor system comprising: a housing comprising a pipe nesting surface configured to be positioned adjacent with an irrigation pipe; an acoustic sensor secured with the housing proximate the pipe nesting surface; a sensor control circuit configured to receive acoustic data, and identify when a change in detected acoustic data is consistent with a first predefined acoustic pattern; and a flow indicator output communicatively coupled with the sensor control circuit and configured to further coupled with a separate irrigation controller that is configured to control irrigation valves of the irrigation system in accordance with an irrigation schedule, and wherein the sensor control circuit is configured to activate a first flow notification from the flow indicator output when the change in detected acoustic data is consistent with the first predefined acoustic pattern.

Abstract: Apparatus and method are provided herein for causing and controlling the injection of antifreeze material into a water line of an irrigation system. The irrigation system comprises an antifreeze supply unit including an antifreeze storage container containing a liquid antifreeze coupled to a water line of the irrigation system. A control unit is coupled to the antifreeze supply unit. The control unit is configured to cause the antifreeze supply unit to inject at least some of the liquid antifreeze from the antifreeze storage container into the water line. The control unit can cause the antifreeze supply unit to inject the liquid antifreeze from the antifreeze storage container in response to temperature data received from a sensor unit or in response to user input at the control unit.

Abstract: A variable arc sprinkler nozzle is provided for distribution of water through nearly any adjustable arcuate span. The nozzle includes one or more arcuate slots formed by the helical engagement of spiral surfaces of a deflector and a nozzle body. A user may rotate a portion of the nozzle body to select the arcuate span of the one or more slots. A matched precipitation rate feature is adjustable to proportion the amount of water directed to the deflector depending on the extent of the arcuate span. Further, edge fins on the deflector and nozzle body channel water flow at the two edges of the distribution arc to increase the throw radius and to provide fairly uniform water distribution at the edges of the arc.

Abstract: A variable arc sprinkler nozzle is provided for distribution of water through nearly any adjustable arcuate span. The nozzle includes one or more arcuate slots formed by the helical engagement of spiral surfaces of a deflector and a nozzle body. A user may rotate a portion of the nozzle body to select the arcuate span of the one or more slots. A matched precipitation rate feature is adjustable to proportion the amount of water directed to the deflector depending on the extent of the arcuate span. Further, edge fins on the deflector and nozzle body channel water flow at the two edges of the distribution arc to increase the throw radius and to provide fairly uniform water distribution at the edges of the arc.