Downhole electric motors having angularly displaced rotor sections

What is claimed is: 1. A system comprising: an electric drive; an electric submersible pump system (ESP); and a power cable coupled between the drive and the ESP, wherein the power cable carries power from the drive to the ESP; wherein the ESP includes a pump, and a motor coupled to the pump, wherein the motor drives the pump, the motor having a stator and at least two permanent-magnet rotor sections; wherein within each of the rotor sections, a plurality of permanent magnets are positioned in two or more rows, wherein each row is axially aligned; wherein the rotor sections are mounted on a common rotor shaft, wherein each rotor section is configured to be secured to the rotor shaft at a circumferential angle which is variable; wherein each rotor section is adjusted so that adjacent ones of the rotor sections are clocked with respect to each other and the rows of permanent magnets within a first one of the rotor sections are circumferentially displaced from corresponding rows of permanent magnets within a second, adjacent one of the rotor sections by a desired, adjustable angle. 2. The system of claim 1 , wherein for each pair of adjacent rotor sections, at least one end of each rotor section is adjustably keyed to the rotor shaft, wherein the keying of the rotor section is adjusted to the predetermined displacement angle between the rotor sections. 3. The system of claim 1 , wherein each rotor sections has a pair of end rings, wherein the end rings are secured to opposing ends of the rotor section, thereby securing a set of rotor laminations and the plurality of permanent magnets between the end rings. 4. The system of claim 3 , wherein each end ring is keyed to mate with a shaft slot in a common rotor shaft and thereby maintain the desired, adjustable angular displacement of the rotor section with respect to the adjacent rotor section. 5. The system of claim 4 , wherein the shaft slot comprises one or more shaft slots at a single circumferential position on the rotor shaft. 6. The system of claim 4 , wherein the shaft slot comprises one of a plurality of shaft slots, wherein ones of the shaft slots that correspond to adjacent ones of the rotor sections are circumferentially displaced on the rotor shaft. 7. The system of claim 1 , wherein the motor includes at least three rotor sections, wherein the angular displacement between each adjacent pair of rotor sections is the same. 8. The system of claim 1 , wherein the motor includes at least three rotor sections, wherein the angular displacement is not the same between each adjacent pair of rotor sections. 9. A system comprising: an electric drive; an electric submersible pump system (ESP); and a power cable coupled between the drive and the ESP, wherein the power cable carries power from the drive to the ESP; wherein the ESP includes a pump, and a motor coupled to the pump, wherein the motor drives the pump, the motor having a stator and at least two permanent-magnet rotor sections; wherein within each of the rotor sections, a plurality of permanent magnets are positioned in two or more rows, wherein each row is axially aligned; wherein adjacent ones of the rotor sections are clocked with respect to each other so that the rows of permanent magnets within a first one of the rotor sections are circumferentially displaced from corresponding rows of permanent magnets within a second, adjacent one of the rotor sections by a predetermined angle; wherein each rotor sections has a pair of end rings, wherein the end rings are secured to opposing ends of the rotor section, thereby securing a set of rotor laminations and the plurality of permanent magnets between the end rings; wherein each end ring is keyed to mate with a shaft slot in a common rotor shaft and thereby maintain the predetermined angular displacement of the rotor section with respect to the adjacent rotor section; wherein each end ring is threaded onto a rotor tube, thereby securing the rotor laminations and the plurality of permanent magnets between the end rings, wherein each end ring has an end ring slot at a predetermined position, wherein the end ring slot receives a key that holds the rotor in a predetermined angular position with respect to the rotor shaft and the adjacent rotor section. 10. The system of claim 9 , wherein each end ring comprises a single-piece ring in which the end ring slot is formed in the single-piece ring at a fixed position. 11. The system of claim 9 , wherein each end ring comprises a threaded outer ring and an inner ring that is rotatable with respect to the outer ring, wherein the inner ring has the end ring slot formed therein, wherein the inner ring is rotated to a desired position and the outer ring is secured to the rotor tube, thereby securing the inner ring in the desired position and securing the end ring slot in the desired position. 12. A downhole electric motor comprising: a stator and a rotor concentrically positioned within a bore of the stator wherein the rotor has at least two permanent-magnet rotor sections mounted on a common rotor shaft, wherein each rotor section is configured to be secured to the rotor shaft at a circumferential angle which is variable; wherein within each of the rotor sections, a plurality of permanent magnets are positioned in two or more rows, wherein each row is axially aligned; wherein each rotor section is adjusted so that adjacent ones of the rotor sections are clocked with respect to each other and the rows of permanent magnets within a first one of the rotor sections are circumferentially displaced from corresponding rows of permanent magnets within a second, adjacent one of the rotor sections by a desired, adjustable angle; wherein for each pair of adjacent rotor sections, at least one end of each rotor section is adjustably keyed to the rotor shaft to maintain the desired, adjustable displacement angle between the rotor sections; and wherein each rotor sections has a pair of end rings, wherein the end rings are secured to opposing ends of the rotor section, thereby securing a set of rotor laminations and the plurality of permanent magnets between the end rings. 13. The downhole electric motor of claim 12 , wherein each end ring is keyed to mate with a shaft slot in the common rotor shaft and thereby maintain the predetermined angular displacement of the rotor section with respect to the adjacent rotor section. 14. The downhole electric motor of claim 13 , wherein the shaft slot comprises one or more shaft slots at a single circumferential position on the rotor shaft. 15. The downhole electric motor of claim 13 , wherein the shaft slot comprises one of a plurality of shaft slots, wherein ones of the shaft slots that correspond to adjacent ones of the rotor sections are circumferentially displaced on the rotor shaft. 16. The downhole electric motor of claim 12 , wherein the motor includes at least three rotor sections, wherein the angular displacement between each adjacent pair of rotor sections is the same. 17. The downhole electric motor of claim 12 , wherein the motor includes at least three rotor sections, wherein the angular displacement is not the same between each adjacent pair of rotor sections. 18. A downhole electric motor comprising: a stator and a rotor concentrically positioned within a bore of the stator wherein the rotor has at least two permanent-magnet rotor sections mounted on a common rotor shaft; wherein within each of the rotor sections, a plurality of permanent magnets are positioned in two or more rows, wherein each row is axially al