Integrated eccentric motor and pump assembly

The invention claimed is: 1. A pump, comprising: an inner gerotor including: a plurality of lobes; and, a central opening; a crankshaft: passing through the central opening; rotatable about an axis of rotation; and, including a first longitudinal axis not co-linear with the axis of rotation; an outer gerotor located radially outwardly of the inner gerotor and including: a plurality of recesses; a radially outer surface; and, a plurality of pockets extending radially inwardly from the radially outer surface; at least one bearing disposed between the inner gerotor and the crankshaft; an inlet cover assembly including a plurality of inlet ports; an outlet cover assembly including a plurality of outlet ports; and, a plurality of magnetic actuators, each magnetic actuator including a core extending radially inwardly into a respective pocket included in the plurality of pockets, wherein: the at least one bearing enables relative rotation of the crankshaft with respect to the inner gerotor; the plurality of magnetic actuators is arranged to be energized in a sequence to create magnetic fields; and, the magnetic fields are arranged to displace the inner gerotor with respect to the axis of rotation: to displace a first lobe, included in the plurality of lobes, out of a first recess, included in the plurality of recesses, and draw a fluid through a first inlet port, included in the plurality of inlet ports, into the first recess; and, to displace a second lobe, included in the plurality of lobes, into a second recess, included in the plurality of recesses, and expel the fluid out of the second recess and through a first outlet port included in the plurality of outlet ports. 2. The pump of claim 1 , wherein: the sequence is in a first circumferential direction; the magnetic fields are arranged to displace the inner gerotor, with respect to the axis of rotation, in a second circumferential direction opposite the first circumferential direction; and, the displacement of the inner gerotor is arranged to rotate the crankshaft, with respect to the inner gerotor, in the first circumferential direction. 3. The pump of claim 1 , wherein: the sequence is in a first circumferential direction; the magnetic fields are arranged to displace the inner gerotor with respect to the axis of rotation in: a second circumferential direction opposite the first circumferential direction; and, at least one radial direction; and, the displacement of the inner gerotor is arranged to rotate the crankshaft, with respect to the inner gerotor, in the first circumferential direction. 4. The pump of claim 1 , wherein: the central opening of the inner gerotor is bounded by an inner surface of the inner gerotor; the crankshaft includes a cylindrical outer surface; and, the at least one bearing is disposed between the inner surface and the cylindrical outer surface. 5. The pump of claim 1 , further comprising: an inlet shutter plate non-rotatably connected to the crankshaft and axially disposed between the inner gerotor and the inlet cover assembly; and, an outlet shutter plate: non-rotatably connected to the crankshaft; axially disposed between the inner gerotor and the outlet cover assembly; and, axially overlapping the inlet shutter plate, wherein: the plurality of inlet ports is at a radial distance from the axis of rotation; and, a line, parallel to the axis of rotation, passes through the inlet shutter plate and the outlet shutter plate at the radial distance from the axis of rotation. 6. The pump of claim 5 , wherein: as the first lobe is displaced out of the first recess, the outlet shutter plate is arranged to block an axial end of the first recess; and, as the second lobe is displaced into the second recess, the inlet shutter plate is arranged to block an axial end of the second recess. 7. The pump of claim 5 , wherein: the inlet shutter plate includes a radially outer edge: disposed radially outwardly beyond the plurality of inlet ports; and, radially centered about the axis of rotation; and, the outlet shutter plate includes a radially outer edge: disposed radially outwardly beyond the plurality of outlet ports; and, radially centered about the axis of rotation. 8. The pump of claim 1 , wherein each magnetic actuator included in the plurality of magnetic actuators includes: a respective magnetic core, separate from the outer gerotor and fixedly connected to the outer gerotor; and, a respective winding disposed about the respective core. 9. The pump of claim 1 , wherein: the plurality of lobes consists of a first number of lobes; the plurality of recesses consists of a second number of recesses; and, the first number is different from the second number. 10. The pump of claim 1 , wherein: the plurality of magnetic actuators includes a first magnetic actuator and a second magnetic actuator circumferentially bracketing the second recess; the first magnetic actuator and the second magnetic actuator are arranged to be simultaneously energized to generate a first magnetic field passing through the second recess; and, the first magnetic field is arranged to: displace the first lobe out of the first recess; and displace the second lobe into the second recess. 11. The pump of claim 10 , wherein the first magnetic field is arranged to displace the second lobe into the second recess. 12. The pump of claim 10 , wherein: the plurality of lobes includes a third lobe; the plurality of recesses includes a third recess; the plurality of magnetic actuators includes a third magnetic actuator; the second magnetic actuator and the third magnetic actuator circumferentially bracket the third recess; the second magnetic actuator and the third magnetic actuator are arranged to be simultaneously energized to generate a second magnetic field passing through the third recess; and, the second magnetic field is arranged to rotate the third lobe into the third recess to: expel the fluid from the third recess and through a second outlet port, included in the plurality of outlet ports, into the third recess; and, displace the second lobe out of the second recess and draw the fluid into the second recess through a second inlet port included in the plurality of inlet ports. 13. The pump of claim 10 , wherein: the outer gerotor includes a slot: extending past the plurality of magnetic actuators in first and second opposite axial directions; circumferentially disposed between the first magnetic actuator and the second magnetic actuator; and, arranged to prevent the first magnetic field from passing through the outer gerotor. 14. The pump of claim 10 , further comprising: an outer ring: radially disposed about the plurality of magnetic actuators; and, constructed of a magnetic material, wherein the first magnetic field passes through the outer ring, the second recess, and the second lobe. 15. The pump of claim 1 , wherein: the outlet cover assembly bounds, at least in part, an outlet chamber; the plurality of outlet ports opens to the outlet chamber; and, the outlet cover assembly includes a pressure relief valve open to the outlet chamber and an exterior of the outlet cover assembly. 16. A pump, comprising: an outer gerotor including a plurality of recesses and a first longitudinal axis; an inner gerotor located radially inwardly of the outer gerotor and including: a plurality of lobes; a cylindrically-shaped central opening; and, a radially inner surface radially bounding a central opening a cylindrical crankshaft