Air mass control for diaphragm pumps

The invention claimed is: 1. A diaphragm pump comprising: a first diaphragm that separates a cavity into a motive fluid chamber and a pumped media chamber, the first diaphragm being configured to move reciprocally between a first end-of-stroke position and a second end-of-stroke position; a charge unit that includes first and second charge chambers therein; wherein the first and second charge chambers are adjustable in size by a piston that is movable between the first and second charge chambers in the charge unit; wherein each of the first and second charge chambers accommodates a controlled volume capable of storing a controlled mass of compressed fluid for subsequent delivery to the diaphragm pump; wherein the controlled volume of each of the first and second charge chambers is adjustable to vary the controlled mass of compressed fluid by changing the size of each of the first and second charge chambers by moving the piston in the charge unit in either a first direction or a second direction; wherein when the piston is moved in the charge unit in the first direction to a first end position, the controlled volume of the first charge chamber has a maximum value, while the controlled volume of the second charge chamber will have a minimum value; wherein when a first supply of compressed fluid fills the first charge chamber the piston moves within the charge unit such that the controlled volume of the first charge chamber increases to the maximum value of the first charge chamber; wherein a charge valve fluidly couples the second charge chamber to a compressed fluid inlet of the diaphragm pump, such that the controlled mass of compressed fluid previously stored in the second charge chamber is moved to the diaphragm pump; wherein when the piston is moved in the charge unit to a second end position opposite the first end position, the controlled volume of the second charge chamber has a maximum value, and the controlled volume of the first charge chamber will have a minimum value; wherein when a second supply of compressed fluid fills the second charge chamber the piston moves within the charge unit such that the controlled volume of the second charge chamber increases to the maximum value of the second charge chamber; wherein the charge valve fluidly couples the first charge chamber to the compressed fluid inlet of the diaphragm pump, such that the controlled mass of compressed fluid previously stored in the first charge chamber is moved to the diaphragm pump. 2. A pre-charging system for use with a double diaphragm pump that comprises a first diaphragm that separates a first cavity into a first motive fluid chamber and a first pumped media chamber, a second diaphragm that separates a second cavity into a second motive fluid chamber and a second pumped media chamber, a compressed fluid inlet, and a main valve movable between (i) a first main valve position in which the main valve fluidly couples the compressed fluid inlet to the first motive fluid chamber and (ii) a second main valve position in which the main valve fluidly couples the compressed fluid inlet to the second motive fluid chamber, the pre-charging system comprising: a charge unit comprising a first charge chamber having a first controlled volume and a second charge chamber having a second controlled volume, wherein the first controlled volume is adjustable to vary a first controlled mass of compressed fluid capable of being stored in the first charge chamber and the second controlled volume is adjustable to vary a second controlled mass of compressed fluid capable of being stored in the second charge chamber; a charge valve configured to be fluidly coupled to a compressed fluid source, the first charge chamber, the second charge chamber, and the compressed fluid inlet of the double diaphragm pump, wherein the charge valve is movable between (i) a first charge valve position in which the charge valve is configured to communicate compressed fluid from the first charge chamber to the compressed fluid inlet and to communicate compressed fluid from the compressed fluid source to the second charge chamber and (ii) a second charge valve position in which the charge valve is configured to communicate compressed fluid from the second charge chamber to the compressed fluid inlet and to communicate compressed fluid from the compressed fluid source to the first charge chamber; and a controller configured to (i) receive a sensor signal indicative of the first and second diaphragms of the double diaphragm pump reaching an end-of-stroke position and (ii) transmit a first control signal to the charge valve that causes the charge valve to shift between the first and second charge valve positions in response to receiving the sensor signal; (iii) determine a stroke speed of the double diaphragm pump using the sensor signal and (iv) transmit a second control signal that causes an actuator to adjust at least one of the first and second controlled volumes in response to the determined stroke speed being outside a desired range. 3. The pre-charging system of claim 2 , wherein the charge valve is configured to (i) receive at least one pilot signal from the double diaphragm pump, (ii) shift the charge valve from the first charge valve position to the second charge valve position in response to a first change in the at least one pilot signal that causes the main valve to shift from the first main valve position to the second main valve position, and (iii) shift the charge valve from the second charge valve position to the first charge valve position in response to a second change in the at least one pilot signal that causes the main valve to shift from the second main valve position to the first main valve position.