Automatic faucet with remote activation

The invention claimed is: 1. An automatic faucet system comprising: a faucet comprising a faucet body and a faucet spout; an outlet hose in fluid communication with a cold water supply line, a hot water supply line, and the faucet spout; an electromechanical valve fluidly coupled to the outlet hose and configured to control water flow to the faucet spout; an activator separate from the faucet body and configured to be placed in a variety of positions during installation of the faucet system; a controller configured to receive a first signal from the activator and, in response to the first signal, to control the electromechanical valve to control water flow to the spout; and a manual mixing valve configured to be open or closed when water flows to the faucet spout, wherein the automatic faucet system is configured to operate in an automatic mode and a manual mode, and when the automatic faucet system operates in the automatic mode, a user activates the automatic faucet system with the activator, and when the automatic faucet system operates in the manual mode, a user activates the automatic faucet using a handle or knob configured to control the manual mixing valve. 2. The automatic faucet system of claim 1 , wherein the activator is configured to receive a user input, and, in response to the user input, the activator is configured to send the first signal to the controller. 3. The automatic faucet system of claim 1 , wherein if the automatic faucet system is installed at a sink above a cabinet, the activator is configured to be installed on at least one of: a toekick of the cabinet, a top surface of a countertop proximate to a front edge of the sink, or a face of the cabinet at a location that is from about 25% to about 75% a total distance measured between a bottom edge of the face of the cabinet and a top edge of the face of the cabinet. 4. The automatic faucet system of claim 1 , wherein the activator comprises an infrared sensor, a proximity sensor, a capacitive sensor, a microwave sensor, or an ultrasonic sensor. 5. The automatic faucet system of claim 1 , wherein the controller, in response to receiving the first signal, is configured to open the electromechanical valve to allow water to flow to the faucet body. 6. The automatic faucet system of claim 1 , wherein the controller is configured to receive a second signal sent from the activator, and, in response to the second signal, is configured to close the electromechanical valve to stop flow of water to the faucet body. 7. The automatic faucet system of claim 1 , wherein the activator and the electromechanical valve are in wireless communication the controller. 8. The automatic faucet system of claim 1 , wherein the activator and the electromechanical valve are in wired electrical communication with the controller. 9. The automatic faucet system of claim 1 , wherein the automatic mode is configured to be overridden by a user who activates the automatic faucet system with a handle or knob configured to control the manual mixing valve. 10. A kit for retro-fitting a manual faucet to an automatic faucet configured to have remote activation, the kit comprising: an electromechanical valve configured to be fluidly coupled to a manual mixing valve of a manual faucet; an activator configured to be placed in a variety of positions separate from the faucet during installation; and a controller configured to be in electronic communication with the electromechanical valve and the activator, wherein the controller is configured to receive a first signal from the activator, and, in response to the first signal, to control the electromechanical valve to control water flow to a faucet spout of the manual faucet, and wherein the retro-fitted automatic faucet is configured to operate in an automatic mode and a manual mode, and when the automatic faucet operates in the automatic mode, a user activates the automatic faucet with the activator, and when the automatic faucet system operates in the manual mode, a user activates the automatic faucet using a handle or knob configured to control the manual mixing valve. 11. The kit of claim 10 , wherein the manual mixing valve is configured to be open or closed when water flows to the faucet spout of the manual faucet. 12. The kit of claim 10 , wherein the electromechanical valve is configured to be fluidly coupled using a quick connect mechanism. 13. The kit of claim 10 , wherein the activator is configured to receive a user input, and, in response to the user input, the activator is configured to send the first signal to the controller. 14. The kit of claim 10 , wherein if the kit is installed at a sink above a cabinet, the activator is configured to be installed on: a toekick of the cabinet, a top surface of a countertop proximate to a front edge of the sink, or a face of the cabinet at a location that is from about 25% to about 75% a total distance measured between a bottom edge of the face of the cabinet and a top edge of the face of the cabinet. 15. The kit of claim 10 , wherein the activator comprises an infrared sensor, a proximity sensor, a capacitive sensor, a microwave sensor, or an ultrasonic sensor. 16. The kit of claim 10 , wherein the controller is configured to receive a second signal sent from the activator, and, in response to the second signal, is configured to close the electromechanical valve to stop flow of water to the faucet body. 17. The kit of claim 10 , wherein the activator and the electromechanical valve are in wireless communication the controller. 18. The kit of claim 10 , wherein the activator and the electromechanical valve are in wired electrical communication with the controller. 19. The kit of claim 10 , wherein the automatic mode is configured to be overridden by a user who activates the automatic faucet system with a handle or knob configured to control the manual mixing valve.