Methods for handling a bearingless machine

The invention claimed is: 1. A method for integrating a bearingless machine into a driveline, the method comprising: providing a rotor subassembly with a first circumferential rotor track portion, providing a stator subassembly with a first circumferential stator track portion and a casing having a first portal; aligning the rotor subassembly coaxially with the stator subassembly such that the first circumferential rotor track portion and the first circumferential stator track portion define a substantially complete first circumferential track in communication with the first portal; inserting a first fixture band into the first circumferential track via the first portal to substantially maintain axial and radial alignment of the rotor subassembly relative to the stator subassembly; after the step of inserting the first fixture band, inserting a second fixture band into a second circumferential track via a second portal in the casing; and securing the rotor subassembly and the stator subassembly to adjacent components of the driveline. 2. The method of claim 1 , further comprising the step of removing the first fixture band from the first track via the first portal after the step of securing the rotor subassembly and the stator subassembly. 3. The method of claim 1 , wherein the bearingless machine is an electric machine selected from one of: a permanent magnet machine, an induction machine, a switched reluctance machine, and a wound field machine. 4. The method of claim 1 , wherein the aligning step is performed by utilizing at least one jacking fixture to react magnetic forces between a plurality of rotor elements disposed in the rotor subassembly and a plurality of stator elements disposed in the stator subassembly. 5. The method of claim 4 , wherein the jacking fixture maintains a substantially uniform annular air gap between the rotor elements and the stator elements until the first fixture band is inserted into the first circumferential track. 6. A method for integrating a bearingless machine into a driveline, the method comprising: providing a rotor subassembly with a first circumferential rotor track portion, providing a stator subassembly with a first circumferential stator track portion and a casing having a first portal substantially tangential to the first circumferential stator track portion; aligning the rotor subassembly coaxially with the stator subassembly such that the first circumferential rotor track portion and the first circumferential stator track portion define a substantially complete first circumferential track in communication with the first portal; inserting a first fixture band substantially tangentially into the first circumferential track via the first portal, to substantially maintain axial and radial alignment of the rotor subassembly relative to the stator subassembly; and securing the rotor subassembly and the stator subassembly to adjacent components of the driveline. 7. The method of claim 6 , further comprising: after the step of inserting the first fixture band, inserting a second fixture band into a second circumferential track via a second portal in the casing, the second portal substantially tangential to the second circumferential track. 8. The method of claim 6 , further comprising the step of removing the first fixture band from the first track via the first portal after the step of securing the rotor subassembly and the stator subassembly. 9. The method of claim 6 , wherein the bearingless machine is an electric machine selected from one of: a permanent magnet machine, an induction machine, a switched reluctance machine, and a wound field machine. 10. The method of claim 6 , wherein the aligning step is performed by utilizing at least one jacking fixture to react magnetic forces between a plurality of rotor elements disposed in the rotor subassembly and a plurality of stator elements disposed in the stator subassembly. 11. The method of claim 10 , wherein the jacking fixture maintains a substantially uniform annular air gap between the rotor elements and the stator elements until the first fixture band is inserted into the first circumferential track.