Electrically operated linear pump and pump drive

The invention claimed is: 1 . A pumping assembly for pumping a fluid from an upstream fluid source to a downstream location, the pumping assembly comprising: a motor including a stator and a rotor, the rotor configured to rotate relative to the stator on a pump axis; a drive connected to the rotor, the drive configured to receive a rotational output from the rotor and convert the rotational output into a linear input along the pump axis to cause pumping of the fluid; and a pump comprising a piston, wherein the piston is connected to the drive to receive the linear input and is disposed coaxially with the drive and the rotor, wherein the piston is configured to reciprocate axially along the pump axis to pump fluid; wherein the drive is configured to drive the piston in a first axial direction along the pump axis and a second axial direction along the pump axis, and wherein a screw of the drive extends into the motor with the screw disposed at a first position associated with an end of a stroke in a second axial direction. 2 . The pumping assembly of claim 1 , wherein the drive comprises: a drive nut connected to the rotor to rotate with the rotor; the screw elongated along the pump axis and disposed coaxially on the pump axis; and a plurality of rolling elements disposed radially between the drive nut and the screw and supporting the drive nut relative to the screw to maintain a radial gap between the drive nut and the screw. 3 . The pumping assembly of claim 2 , wherein the drive further comprises: a drive nut bore extending axially through the drive nut and inner threading formed on a surface of the hole, wherein the inner threading rotates with the drive nut; and outer threading on the screw, wherein the outer threading moves axially with the screw; and wherein each rolling element of the plurality of rolling elements interfaces with both the inner threading and the outer threading. 4 . The pumping assembly of claim 2 , wherein the plurality of rolling elements includes one of balls and elongate rollers. 5 . The pumping assembly of claim 1 , further comprising: a pump frame supporting the motor by a first static connection and a first dynamic connection. 6 . The pumping assembly of claim 5 , wherein a main body of the pump frame extends in a first axial direction relative to a first axial end of the motor, and wherein the first static connection is formed between the pump frame and a second axial end of the motor disposed opposite the first axial end. 7 . The pumping assembly of claim 5 , wherein the first dynamic connection is formed by a bearing supporting the motor on the pump frame, the bearing configured to react to axial loads in each of a first axial direction and a second axial direction. 8 . The pumping assembly of claim 5 , wherein the pump is mounted to the pump frame by a second static connection, wherein the piston is connected to the drive by a second dynamic connection, and wherein the first dynamic connection is disposed axially between the first static connection and the second static connection. 9 . The pumping assembly of claim 1 , wherein the piston is at least partially disposed within a cylinder of the pump, and wherein the piston is configured to reciprocate within a first zone along the axis during a first pumping mode to pump the fluid, and wherein the piston is configured to move into a second zone along the axis during a second pumping mode, the second zone different from the first zone. 10 . The pumping assembly of claim 1 , wherein the rotor includes a rotor body supporting a plurality of permanent magnets and a rotor shaft extending in the first axial direction from the rotor body, and wherein the drive is connected to an end of the rotor shaft opposite the rotor body. 11 . A pumping assembly for pumping a fluid from an upstream fluid source to a downstream location, the pumping assembly comprising: a motor including a stator and a rotor, the rotor configured to rotate relative to the stator on a pump axis; a drive connected to the rotor, the drive configured to receive a rotational output from the rotor and convert the rotational output into a linear input along the pump axis to cause pumping of the fluid; a pump comprising a piston, wherein the piston is connected to the drive to receive the linear input and is disposed coaxially with the drive and the rotor, wherein the piston is configured to reciprocate axially along the pump axis to pump fluid; and a rotor shaft connected to the rotor and coaxial with the rotor, wherein the rotor shaft rotates with the rotor and connects the rotor to the drive; wherein a screw of the drive extends into the rotor shaft during at least a portion of a pump cycle. 12 . The pumping assembly of claim 11 , wherein the rotor shaft is at least partially disposed within and surrounded by the rotor. 13 . The pumping assembly of claim 11 , further comprising: a spacer is disposed on the screw of the drive and radially between the screw and the rotor shaft; wherein the spacer prevents the screw from directly contacting the rotor shaft. 14 . A pumping assembly for pumping a fluid from an upstream fluid source to a downstream location, the pumping assembly comprising, a motor including a stator and a rotor, the rotor configured to rotate relative to the stator on a pump axis; a drive connected to the rotor, the drive configured to receive a rotational output from the rotor and convert the rotational output into a linear input along the pump axis to cause pumping of the fluid; and a pump comprising a piston, wherein the piston is connected to the drive to receive the linear input and is disposed coaxially with the drive and the rotor, wherein the piston is configured to reciprocate axially along the pump axis to pump fluid, wherein the pump includes: a first check valve disposed on the pump axis; and a second check valve disposed on the pump axis; wherein the second check valve is disposed in the piston to travel with the piston. 15 . A pumping assembly for pumping a fluid from an upstream fluid source to a downstream location, the pumping assembly comprising: a motor including a stator and a rotor, the rotor configured to rotate relative to the stator on a pump axis; a drive connected to the rotor, the drive configured to receive a rotational output from the rotor and convert the rotational output into a linear input along the pump axis to cause pumping of the fluid; a pump comprising a piston, wherein the piston is connected to the drive to receive the linear input and is disposed coaxially with the drive and the rotor, wherein the piston is configured to reciprocate axially along the pump axis to pump fluid; and a bearing assembly connecting the rotor of the electric motor to the drive, wherein the bearing assembly is configured to react to axial loads; wherein the bearing assembly further comprises: a first housing member comprising a first opening; a second housing member positioned axially between the first housing member and the electric motor and comprising a second opening, wherein the second housing member is connected to a housing of the electric motor and to the first housing member; a sleeve coupler positioned axially between the first housing member and the second housing member and coaxial with the first housing member and the second housing member; a first plurality of roller bearings disposed between the sleeve coupler and the first housing member; and a second plurality of roller bearings disposed between the sleeve coupler and the second housing member, wherein a drive