Drive system for a positive displacement pump

The invention claimed is: 1. A displacement pump comprising: a first housing at least partially defining an internal pressure chamber configured to be filled with a working fluid charged to a charge pressure, the working fluid being one of a compressed gas and a non-compressible hydraulic fluid under pressure; a reciprocator disposed within the first housing and configured to be driven along a first axis; a first diaphragm disposed at a first end of the first housing, the first diaphragm at least partially defining the internal pressure chamber; wherein the reciprocator is connected to the first diaphragm to mechanically displace the first diaphragm through a first suction stroke; wherein the internal pressure chamber is configured such that the working fluid exerts the charge pressure on the first diaphragm during both the first suction stroke and during a first pressure stroke of the first diaphragm, wherein the first diaphragm is configured to shift in a first direction along the first axis to increase a volume of a first process fluid chamber through which the process fluid is pumped by the first diaphragm during the first suction stroke, and wherein the first diaphragm is configured to shift in a second direction along the first axis to decrease a volume of the first process fluid chamber during the first pressure stroke; and an electric drive operably connected to the reciprocator to drive reciprocation of the reciprocator along the first axis. 2. A displacement pump comprising: a first housing at least partially defining an internal pressure chamber configured to be filled with a working fluid charged to a charge pressure, the working fluid being one of a compressed gas and a non-compressible hydraulic fluid under pressure; a reciprocator disposed within the first housing and configured to be driven along a first axis; a first diaphragm disposed at a first end of the first housing, the first diaphragm at least partially defining the internal pressure chamber; wherein the reciprocator is connected to the first diaphragm to mechanically displace the first diaphragm through a first suction stroke; wherein the internal pressure chamber is configured such that the working fluid exerts the charge pressure on the first diaphragm during both the first suction stroke and during a first pressure stroke of the first diaphragm, wherein the first diaphragm is configured to shift in a first direction along the first axis to increase a volume of a first process fluid chamber through which the process fluid is pumped by the first diaphragm during the first suction stroke, and wherein the first diaphragm is configured to shift in a second direction along the first axis to decrease a volume of the first process fluid chamber during the first pressure stroke; and wherein the internal pressure chamber is configured to be filled with the working fluid throughout both the first pressure stroke and the first suction stroke without the working fluid being exhausted from the internal pressure chamber. 3. A displacement pump comprising: a first housing at least partially defining an internal pressure chamber configured to be filled with a working fluid charged to a charge pressure, the working fluid being one of a compressed gas and a non-compressible hydraulic fluid under pressure; a reciprocator disposed within the first housing and configured to be driven along a first axis; a first diaphragm disposed at a first end of the first housing, the first diaphragm at least partially defining the internal pressure chamber; wherein the reciprocator is connected to the first diaphragm to mechanically displace the first diaphragm through a first suction stroke; wherein the internal pressure chamber is configured such that the working fluid exerts the charge pressure on the first diaphragm during both the first suction stroke and during a first pressure stroke of the first diaphragm, wherein the first diaphragm is configured to shift in a first direction along the first axis to increase a volume of a first process fluid chamber through which the process fluid is pumped by the first diaphragm during the first suction stroke, and wherein the first diaphragm is configured to shift in a second direction along the first axis to decrease a volume of the first process fluid chamber during the first pressure stroke; and a second diaphragm disposed at a second end of the first housing, the second diaphragm at least partially defining the internal pressure chamber; wherein the reciprocator is connected to the second diaphragm to mechanically displace the second diaphragm through a second suction stroke. 4. The displacement pump of claim 3 , wherein the working fluid is in contact with the first diaphragm and the second diaphragm during the first suction stroke and during the first pressure stroke. 5. The displacement pump of claim 3 , wherein the first diaphragm and the second diaphragm are disposed coaxially on the first axis. 6. The displacement pump of claim 1 , further comprising: a first fluid cover connected to the first housing, wherein a circumferential edge of the first diaphragm is retained between the first fluid cover and the first housing. 7. The displacement pump of claim 1 , wherein the electric drive includes an electric motor disposed outside of the first housing. 8. The displacement pump of claim 7 , wherein the electric drive further comprises a gear reduction drive connected to the electric motor to receive a rotational output from the electric motor and connected to the reciprocator to drive reciprocation of the reciprocator. 9. The displacement pump of claim 8 , wherein the gear reduction drive includes a crank shaft configured to rotate on a second axis and a cam follower offset from the second axis and configured to rotate about the second axis, and wherein the cam follower extends into a slot of the reciprocator. 10. The displacement pump of claim 1 , wherein the first diaphragm includes a first flexible membrane, wherein a circumferential edge of the first flexible membrane is secured between the first housing and a first cover connected to the first housing, wherein the first diaphragm fluidly separates the first process fluid chamber defined by the first cover and the first diaphragm from the internal pressure chamber, and wherein the charge pressure is configured to bias the first flexible membrane into the first process fluid chamber during both the first pressure stroke and the first suction stroke. 11. The displacement pump of claim 10 , further comprising: a second diaphragm disposed at a second end of the first housing, the second diaphragm at least partially defining the internal pressure chamber; wherein the second diaphragm includes a second flexible membrane, wherein a circumferential edge of the second flexible membrane is secured between the first housing and a second cover connected to the first housing, wherein the second diaphragm fluidly separates a second process fluid chamber defined by the second cover and the second diaphragm from the internal pressure chamber, and wherein the charge pressure is configured to bias the second flexible membrane into the second process fluid chamber during both a second pressure stroke of the second diaphragm and a second suction stroke of the second diaphragm; and wherein the reciprocator is connected to the second diaphragm to mechanically displace the second diaphragm through the second suction stroke. 12. The displacement pump of claim 1 , further comprising: a second diaphragm disposed at a second end of the first housing, the second diaphragm at least partially defining the internal pressure chamber, wherein the