Fluid sprayer

The invention claimed is: 1. A spray system comprising: a handheld fluid spray gun comprising: a gun body having a gun handle; a trigger supported by the gun body; a nozzle configured to generate an atomized spray of spray fluid; and a spray valve actuatable between an open state, in which the spray fluid can flow to the nozzle, and a closed state, in which the spray fluid is prevented from flowing to the nozzle; a solenoid connected to the spray valve and configured to actuate the spray valve from the closed state to the open state, the solenoid comprising a plunger and a stator that includes a coil, the coil configured to electromagnetically move the plunger; and a controller operatively connected to the solenoid to control activation of the solenoid, the controller configured to provide a first power level to the solenoid to cause the solenoid to actuate the spray valve from the closed state to the open state and configured to provide a second power level different from the first power level to the solenoid to cause the solenoid to hold the spray valve in the open state, wherein the first power level is greater than the second power level. 2. The spray system of claim 1 , wherein the first power level is a first voltage level and the second power level is a second voltage level. 3. The spray system of claim 1 , wherein the first power level is a first current level and the second power level is a second current level. 4. The spray system of claim 1 , wherein the trigger includes a switch, the switch configured to provide a signal to the controller to cause the controller to provide power to the solenoid based on the switch sensing actuation of the trigger. 5. The spray system of claim 1 , wherein the trigger is not mechanically connected to the spray valve such that the trigger does not directly mechanically actuate the spray valve to the open state. 6. The spray system of claim 1 , wherein an electromagnetic force acting on the plunger is greater with the spray valve in the closed state than with the spray valve in the open state. 7. The spray system of claim 1 , further comprising a spring configured to urge the spray valve towards the closed state. 8. The spray system of claim 1 , wherein an axial gap is formed between the plunger and the stator, the axial gap setting a distance that the spray valve can shift between the closed state and the open state, the axial gap open with the spray valve in the closed state and the axial gap closed with the spray valve in the open state. 9. The spray system of claim 1 , wherein the plunger is closer to the spray valve than the coil is to the spray valve. 10. The spray system of claim 1 , further comprising a solenoid housing and a valve housing, the coil and the plunger located inside of the solenoid housing, the spray valve located inside of the valve housing, the valve housing defining a wet chamber for spray fluid, wherein the valve housing is located forward of the solenoid housing and the solenoid housing is directly connected to the valve housing. 11. The spray system of claim 10 , wherein the solenoid housing is directly connected to the valve housing by a threaded interface. 12. The spray system of claim 1 , further comprising a hose that extends from outside of the gun body to inside of the handle, the hose in fluid communication with the spray valve. 13. The spray system of claim 12 , wherein the hose is part of a conduit, the conduit further comprising a plurality of wires which extend along the hose from outside of the gun body to inside of the handle. 14. The spray system of claim 12 , wherein at least one wire of the plurality of wires connects the coil and the controller. 15. The spray system of claim 14 , wherein at least one other wire of the plurality of wires connects the trigger and the controller. 16. The spray system of claim 1 , wherein the plunger is disposed at least partially within the coil. 17. The spray system of claim 1 , further comprising a battery configured to provide the power to the solenoid. 18. The spray system of claim 1 , wherein the spray valve includes a needle connected to the plunger and configured to shift along an axis to place the spray valve in the open state and the closed state, the needle holding a ball configured to engage a seat with the spray valve in the closed state, the ball disengaged the seat with the spray valve in the open state. 19. The spray system of claim 1 , wherein the nozzle is disposed in a spray tip insertable into a bore of the fluid handheld spray gun, the spray tip rotatable in the bore to reverse direction of fluid flow through the spray tip to remove clogs. 20. A method of spraying a spray fluid with a spray system including a handheld spray gun and a controller, the handheld spray gun comprising a gun body having a gun handle, the handheld spray gun further including a trigger supported by the gun body, the handheld spray gun further including a nozzle configured to generate an atomized spray of spray fluid, the handheld spray gun further including a spray valve actuatable between an open state, in which the spray fluid can flow to the nozzle, and a closed state, in which the spray fluid is prevented from flowing to the nozzle, and the handheld spray gun further including a solenoid disposed at least partially within the gun body and connected to the spray valve, the solenoid and configured to actuate the spray valve from the closed state to the open state, the solenoid comprising a plunger and a stator that includes a coil, the coil configured to electromagnetically move the plunger, the method comprising: generating a signal with the trigger based on actuation of the trigger; energizing the coil, by the controller, based on the trigger having generated the signal, the controlling energizing the coil with a first power level to cause the coil to electromagnetically move the plunger rearward to open the spray valve; energizing the coil, by the controller, with a second power level once the spray valve is in the open state to cause the coil to hold the plunger and hold the spray valve in the open state, wherein the first power level is greater than the second power level; de-energizing the coil based on the trigger having ceased generation of the signal; and closing the spray valve.