Automatic faucet

The invention claimed is: 1. An automatic faucet assembly comprising: a faucet having a body and a spout; an electromechanical valve; a controller; and a power source, wherein the faucet body and/or spout comprises an electrically conductive material, the faucet spout is configured to deliver water when the electromechanical valve is in an open position and to not deliver water when the electromechanical valve is in a closed position, the controller, the faucet body and/or spout, the electromechanical valve, and the power source are in wired electrical communication, the faucet body and/or spout are directly electrically connected to the power source, the faucet body and/or spout are configured to perform as an electrode of a capacitive sensing system and to be associated with an electric field, the electric field configured to perform as a detection zone, the controller is configured to detect motion of an end user in the electric field, the faucet assembly comprises an electromechanical valve body, an adapter, or a manifold, the electromechanical valve body, the adapter, and the manifold comprise a non-conductive insulating material, and the electromechanical valve body, the adapter, and the manifold are configured to electrically isolate the faucet assembly, wherein the controller is configured to: determine a power characteristic of the power source, wherein the power characteristic includes at least one of a power source type and power source condition, wherein the power source is a battery or an AC power source; adjust a sensitivity of the capacitive sensing system based on the determined power characteristic; wherein the adjustment of sensitivity includes modifying at least one of: a detection frequency, a detection threshold, and a sampling rate of the capacitive sensing system, such that the capacitive sensing system operates with a lower sensitivity when the power characteristic indicates a limited power supply compared to when the power characteristic indicates an abundant power supply. 2. The automatic faucet assembly according to claim 1 , wherein the controller is configured to detect an end user approaching the faucet body, and to open the electromechanical valve upon said detection, and/or wherein the controller is configured to detect an end user retreating from the faucet body, and to close the electromechanical valve upon said detection. 3. The automatic faucet assembly according to claim 1 , wherein the controller is configured to detect a first capacitance signal amplitude, followed by a second capacitance signal amplitude, when an end user approaches the faucet body, and/or a second capacitance signal amplitude, followed by a first capacitance signal amplitude when an end user retreats from the faucet body, wherein the second signal amplitude is greater than the first signal amplitude. 4. The automatic faucet assembly according to claim 3 , wherein the second signal amplitude is from about 1.1 times to about 3.0 times the first signal amplitude. 5. The automatic faucet assembly according to claim 3 , wherein the controller is configured to determine an end user is approaching the faucet body upon detection of the second capacitance signal amplitude following detection of the first capacitance signal amplitude within a time period of from about 0.2 seconds to about 2.0 seconds, and/or wherein the controller is configured to determine an end user is retreating from the faucet body upon detection of the first capacitance signal amplitude following detection of the second capacitance signal amplitude within a time period of from about 0.2 seconds to about 2.0 seconds. 6. The automatic faucet assembly according to claim 3 , wherein the controller is configured to detect a third capacitive signal amplitude and a fourth capacitance signal amplitude upon an end user's hand or hands being present at or near the faucet body and/or spout; or upon movement of an end user's hand or hands at or near the faucet body and/or faucet spout, and to open the electromechanical valve upon said detection. 7. The automatic faucet assembly according to claim 6 , wherein the controller is configured to open the electromechanical valve upon detecting the fourth capacitance signal amplitude 2 or more times, and wherein the controller is configured to open the electromechanical valve after said detection within a total time period of from about 0.2 seconds to about 3.0 seconds. 8. The automatic faucet assembly according to claim 6 , wherein the controller is configured to detect that the end user's hand or hands are no longer at or near the faucet body and/or faucet spout and to close the electromechanical valve upon said detection. 9. The automatic faucet assembly according to claim 1 , wherein the controller is configured to detect a first capacitance signal amplitude, followed by a second capacitance signal amplitude, followed by a third capacitance signal amplitude, followed by a fourth capacitance signal amplitude when an end user approaches the faucet body and places and/or moves their hand or hands at or near the faucet body and/or faucet spout, the controller is configured to detect a fourth capacitance signal amplitude, followed by a third capacitance signal amplitude, followed by a second capacitance signal amplitude, followed by a first capacitance signal amplitude when an end user removes their hand or hands from at or near the faucet body and/or faucet spout and retreats from the faucet body, the controller is configured to open the electromechanical valve upon detecting the end user approaching the faucet body and placement and/or movement of the end user's hand or hands at or near the faucet body and/or spout, and the controller is configured to close the electromechanical valve upon detecting removal of the end user's hand or hands from at or near the faucet body and/or faucet spout and the end user retreating from the faucet body. 10. The automatic faucet assembly according to claim 1 , wherein the controller is configured to detect a first capacitance signal amplitude, followed by a second capacitance signal amplitude, followed by a third capacitance signal amplitude, followed by a fourth capacitance signal amplitude when an end user approaches the faucet body and places and/or moves their hand or hands at or near the faucet body and/or faucet spout, and a fourth capacitance signal amplitude, followed by a third capacitance signal amplitude, followed by a second capacitance signal amplitude, followed by a first capacitance signal amplitude when an end user removes their hand or hands from at or near the faucet body and/or faucet spout and retreats from the faucet body. 11. The automatic faucet assembly according to claim 1 , wherein the controller is configured to close the electromechanical valve if the valve has been in the open position for a defined open time period. 12. The automatic faucet assembly according to claim 11 , wherein the controller is configured to determine an average number of times the electromechanical valve is opened in a time period, and to adjust the defined open time period depending on the average number. 13. The automatic faucet assembly according to claim 1 , wherein the controller is configured to determine an average time period an end user's hand or hands are at or near the faucet body and/or faucet spout. 14. The automatic faucet assembly according to claim 13 , wherein the controller is configured to close the electromechanical valve if the valve has been in the open position for a time period of greater than or equal to the average time period.