Sensing Mechanism for Valve Operation

What is claimed is: 1 . A flush valve assembly comprising: a manifold defining a fluid passageway between at least one fluid inlet and a fluid outlet; a motor connected to the manifold and coupled to a driving gear, the driving gear having a flag extending outwardly from a central body of the driving gear; a sensor positioned to receive at least a portion of the flag in a gap of the sensor; a valve gear positioned to contact the driving gear which drives the valve gear, the valve gear is coupled to a valve shaft extending from a valve cartridge received in the manifold, the valve cartridge is connected to at least one of the fluid inlets of the manifold, the valve shaft controls a rotational position of at least one valve element in the valve cartridge between an open position and a closed position to regulate fluid flow; wherein rotational motion from the motor is transferred through the driving gear, the valve gear, and the valve shaft to rotate the valve cartridge between the open position and the closed position, wherein in the open position the flag is positioned in the gap of the sensor such that the sensor indicates the valve cartridge is in an open position, and in the closed position the flag is positioned outside of the gap of the sensor such that the sensor indicates the valve cartridge is in the closed position. 2 . The flush valve assembly of claim 1 wherein: the motor generates rotational motion in a first direction to place the valve cartridge in the open position, and the motor generates rotational motion in a second direction opposite the first direction to place the valve cartridge in the closed position. 3 . The flush valve assembly of claim 1 wherein: the driving gear and the valve gear are each wedge gears and the valve cartridge is a quarter-turn valve. 4 . The flush valve assembly of claim 1 wherein: the sensor is an optical sensor, and when the flag is positioned in the gap of the sensor, the flag interrupts the optical sensor to indicate a position of the driving gear correlated to the open position of the valve cartridge. 5 . The flush valve assembly of claim 1 further comprising: a controller connected to the sensor and the motor, the controller configured to execute a flush cycle including the steps of: instructing the motor to initiate rotational motion in a first direction; identifying the valve cartridge is in the open position when the flag interrupts the sensor to indicate a position of the driving gear correlated to the open position; instructing the motor to stop rotational motion when the open position is identified; instructing the motor to initiate rotational motion in a second direction opposite the first direction after a pre-determined amount of time has elapsed; identifying the valve cartridge is in the closed position when the flag no longer interrupts the sensor to indicate a position of the driving gear correlated to the closed position; and instructing the motor to stop rotational motion when the closed position is identified. 6 . The flush valve assembly of claim 5 wherein the controller is further connected to a user sensor that detects a presence of a user in proximity to the flush valve assembly followed by an absence of the user, in which the controller is further configured to execute the flush cycle upon detection of the absence of the user following the presence of the user. 7 . The flush valve assembly of claim 1 further comprising: a fluid passageway between an assembly inlet and an assembly outlet; a chamber positioned along the fluid passageway; a diaphragm assembly positioned in the chamber and bifurcating the chamber into an upper chamber and a lower chamber in which the diaphragm assembly has a diaphragm having a bypass opening that places the upper chamber and the lower chamber in fluid communication with one another, the diaphragm assembly selectively being received at a diaphragm seat to regulate flow between the assembly inlet and the assembly outlet during a flush cycle by controlling fluid communication between the lower chamber and an outlet chamber that connects the lower chamber to the assembly outlet; wherein the valve cartridge is operable as a pilot valve to control a flush cycle by placing the upper chamber and the outlet chamber in selective fluid communication with one another so that, when the valve cartridge is in the open position, a fluid pressure from the upper chamber is released through the manifold to unseat the diaphragm assembly from the diaphragm seat to initiate the flush cycle and, when the valve cartridge is in the closed position, the diaphragm assembly re-seats on the diaphragm seat due to an increased fluid pressure on the diaphragm assembly from the upper chamber to end the flush cycle. 8 . The flush valve assembly of claim 1 wherein the motor comprises a planetary metal gearbox. 9 . The flush valve assembly of claim 1 wherein the motor is a direct current (DC) motor. 10 . The flush valve assembly of claim 1 wherein the motor comprises at least a three-hundred to one (300:1) gear ratio. 11 . A flush valve assembly comprising: a pilot valve; a drive train for selective driving the pilot valve between an open position and a closed position, the drive train comprising: a motor; a drive gear coupled to the motor for rotating the drive gear; and a valve gear coupled to the pilot valve and intermeshing with the drive gear; wherein at least one of the drive gear and the valve gear have a flag extending outwardly therefrom; a sensor positioned to detect the flag and establish a rotational position of the drive gear and the valve gear to thereby establish an opened or closed position of the pilot valve. 12 . The flush valve assembly of claim 11 wherein: the motor generates rotational motion in a first direction to place the pilot valve in the open position, and the motor generates rotational motion in a second direction opposite the first direction to place the pilot valve in the closed position. 13 . The flush valve assembly of claim 11 wherein: the sensor is an optical sensor, and when the flag is positioned in a gap of the sensor, the flag interrupts the optical sensor to indicate a position of the driving gear correlated to the open position of the valve cartridge. 14 . The flush valve assembly of claim 11 wherein the motor is a direct current (DC) motor. 15 . The flush valve assembly of claim 11 wherein the motor comprises at least a three-hundred to one (300:1) gear ratio. 16 . A method for operating a flush valve assembly, the method comprising the steps of: (a) providing a fluid under pressure from a fluid inlet to a valve cartridge via a fluid passageway in a valve housing; (b) providing a controller connected to a sensor and a motor, the controller configured to execute a flush cycle including the steps of: instructing the motor to initiate rotational motion in a first direction; identifying the valve cartridge is in an open position when a flag interrupts a sensor to indicate a position of a driving gear correlated to the open position; instructing the motor to stop rotational motion when the open position is identified; instructing the motor to initiate rotational motion in a second direction opposite the first direction after a pre-determined amount of time has elapsed; identifying the valve cartridge is in a closed position when the flag no longer interrupts the sensor to indicate a position of the driving gear correlated to the closed position; and instructing the motor to stop rotational motion when the