Self-propelled sprayer

What is claimed is: 1. A self-propelled sprayer comprising: a chassis; a primary fluid tank and a secondary fluid tank supported by the chassis; a first distribution path in communication with the primary fluid tank for distributing a first fluid; a second distribution path in communication with the secondary fluid tank for distributing a second fluid; a wing boom supported by the chassis, the wing boom having a plurality of spray nozzle assemblies, each spray nozzle assembly providing a first inlet and a second inlet for receiving the first and second fluids, respectively, a mixing chamber for mixing the first and second fluids to provide a mixed fluid, and an outlet for spraying the mixed fluid, wherein each spray nozzle assembly is in communication with the first distribution path for receiving the first fluid at the first inlet; a plurality of fluid storage chambers; a plurality of first electronically controlled valves, each first electronically controlled valve coupled between the second distribution path and a corresponding fluid storage chamber of the plurality of fluid chambers for controlling flow of the second fluid from the second distribution path to the corresponding fluid storage chamber; a plurality of second electronically controlled valves, each second electronically controlled valve associated with a corresponding first electronically controlled valve of the plurality of first electronically controlled valves and being coupled between the corresponding fluid storage chamber and the second inlet of a corresponding spray nozzle assembly of the plurality of spray nozzle assemblies for controlling flow of the second fluid from the corresponding fluid storage chamber to the second inlet of the corresponding spray nozzle assembly; and a controller in communication with the plurality of first electronically controlled valves and the plurality of second electronically controlled valves; wherein: the controller is configured to control the plurality of first electronically controlled valves and the plurality of second electronically controlled valves with Pulse Width Modulation (PWM) signals; and the controller is configured to hold one of the plurality of first electronically controlled valves and the plurality of second electronically controlled valves coupled to the corresponding fluid storage chamber open while controlling the other of the plurality of first electronically controlled valves and the plurality of second electronically controlled valves associated therewith and coupled to the corresponding fluid storage chamber with the PWM signals; wherein the PWM signals include first PWM signals and second PWM signals, and wherein the controller is configured to control the plurality of first electronically controlled valves with the first PWM signals and control the plurality of second electronically controlled valves with the second PWM signals, and wherein the first PWM signals and the second PWM signals have the same frequency and differ in phase; wherein the first PWM signals and the second PWM signals differ in duty cycle; wherein the first PWM signals control the plurality of first electronically controlled valves to open during a first time while the second PWM signals control the plurality of second electronically controlled valves to close, then the first PWM signals control the plurality of first electronically controlled valves to close during a second time while the second PWM signals control the plurality of second electronically controlled valves to remain closed, and then the first PWM signals control the plurality of first electronically controlled valves to remain closed during a third time while the second PWM signals control the plurality of second electronically controlled valves to open. 2. The self-propelled sprayer of claim 1 , wherein the plurality of fluid storage chambers are operable to expand with pressure from the second fluid. 3. The self-propelled sprayer of claim 1 , wherein the plurality of first electronically controlled valves and the plurality of second electronically controlled valves are solenoid valves. 4. A self-propelled sprayer comprising: a chassis; a primary fluid tank and a secondary fluid tank supported by the chassis; a first distribution path in communication with the primary fluid tank for distributing a first fluid; a second distribution path in communication with the secondary fluid tank for distributing a second fluid; a wing boom supported by the chassis, the wing boom having a plurality of spray nozzle assemblies, each spray nozzle assembly providing a first inlet and a second inlet for receiving the first and second fluids, respectively, a mixing chamber for mixing the first and second fluids to provide a mixed fluid, and an outlet for spraying the mixed fluid, wherein each spray nozzle assembly is in communication with the first distribution path for receiving the first fluid at the first inlet; a plurality of fluid storage chambers; a plurality of first electronically controlled valves, each first electronically controlled valve coupled between the second distribution path and a corresponding fluid storage chamber of the plurality of fluid chambers for controlling flow of the second fluid from the second distribution path to the corresponding fluid storage chamber; a plurality of second electronically controlled valves, each second electronically controlled valve associated with a corresponding first electronically controlled valve of the plurality of first electronically controlled valves and being coupled between the corresponding fluid storage chamber and the second inlet of a corresponding spray nozzle assembly of the plurality of spray nozzle assemblies for controlling flow of the second fluid from the corresponding fluid storage chamber to the second inlet of the corresponding spray nozzle assembly; and a controller in communication with the plurality of first electronically controlled valves and the plurality of second electronically controlled valves; wherein: the controller is configured to control the plurality of first electronically controlled valves and the plurality of second electronically controlled valves with Pulse Width Modulation (PWM) signals; and the controller is configured to hold one of the plurality of first electronically controlled valves and the plurality of second electronically controlled valves coupled to the corresponding fluid storage chamber open while controlling the other of the plurality of first electronically controlled valves and the plurality of second electronically controlled valves associated therewith and coupled to the corresponding fluid storage chamber with the PWM signals, wherein the PWM signals include first PWM signals and second PWM signals, and wherein the controller is configured to control the plurality of first electronically controlled valves with the first PWM signals and control the plurality of second electronically controlled valves with the second PWM signals, and wherein the first PWM signals and the second PWM signals have the same frequency and differ in phase; wherein the first PWM signals control the plurality of first electronically controlled valves to open during a first time while the second PWM signals control the plurality of second electronically controlled valves to open, then the first PWM signals control the plurality of first electronically controlled valves to close during a second time while the second PWM signals control the plurality of second electronically controlled valves to remain open, and then the first PWM signals control the plurality of first electronically controlled valves to remain closed during a third time while the second PWM signals control the plurality of second electronically controlled valves to close. 5. A