Pump with high torque drive

The invention claimed is: 1. A pump apparatus for pumping fluid, the apparatus comprising: an electric motor configured to generate a rotational output, the electric motor comprising: a motor rotor configured to rotate about a common axis, the motor rotor comprising a permanent magnet array, the permanent magnet array disposed annularly around the common axis; and a motor stator configured to be electrically energized to generate magnetic flux that causes the motor rotor to rotate, the motor stator comprising: a plurality of coils, the plurality of coils arrayed along the common axis, each coil of the plurality of coils coaxial with the common axis; and a plurality of circular spur arrays arranged in sets of paired circular spur arrays that are arrayed along the common axis; wherein each respective circular spur array of the plurality of circular spur arrays includes a plurality of spurs that are arrayed in a circle coaxial with the common axis, all spurs of the plurality of spurs of the respective circular spur array configured to be polarized simultaneously by a respective coil of the plurality of coils to generate flux to rotate the motor rotor relative to the motor stator; wherein each set of paired circular spur arrays has a first circular spur array and a second circular spur array, and each respective coil of the plurality of coils is located between a respective set of paired circular spur arrays; and wherein each set of paired circular spur arrays includes a plurality of axial returns extending so that each axial return of the plurality of axial returns radially overlaps the first circular spur array of the set of paired circular spur arrays and the second circular spur array of the set of paired circular spur arrays to allow a flux circuit to polarize pairs of spurs on the first circular spur array and the second circular spur array; and a fluid pump operably connected to the electric motor to be powered by the electric motor, the fluid pump comprising: a pump stator; and a pump rotor disposed coaxially with the motor rotor on the common axis and connected to the motor rotor to receive the rotary output from the motor rotor, the pump rotor configured to rotate on the pump axis coaxial with the common axis and relative to the pump stator to pump fluid, wherein the fluid pump includes an elastomer that forms a series of lobe cavities to progressively move a plurality of respective pockets along the common axis. 2. The pump apparatus of claim 1 , wherein the plurality of coils are arrayed along the common axis such that each coil of the plurality of coils does not radially overlap any other coil of the plurality of coils. 3. The pump apparatus of claim 1 , wherein a closest spur of the plurality of spurs along the common axis is closer to the fluid displacement member than a closest coil of the plurality of coils. 4. The pump apparatus of claim 1 , wherein for each circular spur array each spur of the plurality of spurs projects radially toward the motor rotor with respect to the common axis to focus concentrated flux toward the motor rotor. 5. The pump apparatus of claim 4 , wherein a circumferential width of each spur of the plurality of spurs narrows as the spur extends toward the motor rotor. 6. The pump apparatus of claim 1 , wherein each spur of the plurality of spurs comprises metal. 7. The pump apparatus of claim 1 , wherein each spur of the plurality of spurs comprises a first stack of metal laminations, wherein each axial return of the plurality of axial returns comprises a second stack of metal laminations formed separately from the first stack of metal laminations of each spur of the plurality of spurs. 8. The pump apparatus of claim 1 , wherein each spur of the plurality of spurs includes a powdered metal piece. 9. The pump apparatus of claim 1 , wherein each circular spur array of the plurality of circular spur arrays comprises at least 25 spurs. 10. The pump apparatus of claim 1 , wherein the pump rotor is disposed within the pump stator to rotate within the pump stator. 11. The pump apparatus of claim 1 , wherein the motor does not include a coil having endturns that extend along the common axis beyond all of the spurs. 12. The pump apparatus of claim 1 , wherein the motor stator comprises at least one phase assembly including a first coil of the one or more coils, the first coil disposed axially between a first flux ring of the at least one phase assembly and a second flux ring of the at least one phase assembly. 13. The pump apparatus of claim 1 , where the permanent magnet array comprises a plurality of magnets, each magnet having a long axis and a short axis orthogonal to its long axis, the long axis of each magnet extending parallel with the common axis, and each magnet permanently magnetically polarized to have north and south poles respectively at the ends of the short axis. 14. The pump apparatus of claim 13 , wherein the one or more coils comprises three coils arrayed along the common axis, wherein none of the three coils circumferentially overlap with each other, and wherein each of the three coils generate a respective magnetic field that interacts with each magnet of the plurality of magnets to rotate the motor rotor. 15. The pump apparatus of claim 1 , wherein each coil of the plurality of coils is positioned such that the common axis extends through each coil of the plurality of coils and such that the motor does not include a single coil in which the common axis does not extend through such single coil. 16. The pump apparatus of claim 1 , wherein the motor does not include coils disposed at a common axial position along the common axis and arrayed circumferentially around the common axis. 17. The pump apparatus of claim 1 , wherein the drive mechanism comprises an elongate screw, the screw coaxial with the common axis, the screw driven by the rotational output so that the screw one of rotates about the common axis and linearly reciprocates along the common axis, and a nut that interfaces with the elongate screw to one of rotate about the common axis and linearly reciprocate along the common axis. 18. The pump apparatus of claim 1 , wherein the motor stator comprises: one or more phase assemblies disposed along the common axis, each phase assembly of the one or more phase assemblies including a coil of the plurality of coils disposed axially between a first flux ring of the first circular spur array of the phase assembly and a second flux ring of the second circular spur array. 19. The pump apparatus of claim 18 , wherein each phase assembly of the one or more phase assemblies further comprises the plurality of axial returns extending between and connecting the first flux ring and the second flux ring. 20. The pump apparatus of claim 19 , wherein each respective coil of the plurality of coils is disposed in an annular chamber coaxial with the common axis and defined by the first flux ring, the second flux ring, and the plurality of axial returns. 21. The pump apparatus of claim 1 , wherein, in each set of paired circular spur arrays the plurality of spurs of the first circular spur array and the plurality of spurs of the second circular spur array are radially offset from the respective coil located between the set of paired circular spur arrays such that the plurality of spurs of the first circular spur array and the plurality of spurs of the second circular spur array extend radially beyond the respective coil. 22. A pump apparatus fo