Permanent magnet machine including ferromagnetic components for external field weakening and method of constructing

What is claimed is: 1. A permanent magnet machine comprising: a stator; a rotor inside the stator; and a ferromagnetic component fixed axially movably to the rotor, the ferromagnetic component being configured for actuating axially toward the rotor to weaken a magnetic field of the rotor, a portion of the ferromagnetic component being axially aligned with magnets of the rotor. 2. The permanent magnet machine as recited in claim 1 wherein the ferromagnetic component is a ferromagnetic plate. 3. The permanent magnet machine as recited in claim 2 further comprising an axially fixed support, the ferromagnetic plate being axially slidable along the axially fixed support. 4. The permanent magnet machine as recited in claim 3 wherein the axially fixed support and the ferromagnetic plate define a cavity axially therebetween, the cavity being configured such that an increase in pressure therein forces the ferromagnetic plate toward the rotor. 5. The permanent magnet machine as recited in claim 4 further comprising a shaft and a rotor carrier nonrotatably fixing the rotor to the shaft. 6. The permanent magnet machine as recited in claim 5 further comprising at least one elastic element applying a preloading force to the ferromagnetic plate to hold the ferromagnetic plate axially away from the rotor carrier, the increase in pressure in the cavity overcoming the preloading force. 7. The permanent magnet machine as recited in claim 5 wherein the shaft includes at least one fluid line configured for supplying fluid to the cavity. 8. The permanent magnet machine as recited in claim 1 further comprising a further ferromagnetic component fixed axially movably to the rotor, the ferromagnetic component positioned at a first axial end of the rotor and the further ferromagnetic component positioned at a second axial end of the rotor, the further ferromagnetic component configured for actuating axially toward the rotor to weaken the magnetic field of the rotor. 9. A method of constructing a permanent magnet machine comprising: providing a stator and a rotor inside the stator; and axially movably fixing a ferromagnetic component to the rotor such that the ferromagnetic component is configured for actuating axially toward the rotor to weaken a magnetic field of the rotor, a portion of the ferromagnetic component being axially aligned with magnets of the rotor. 10. The method as recited in claim 9 wherein the ferromagnetic component is a ferromagnetic plate. 11. The method as recited in claim 10 further comprising fixing a carrier to the rotor such that the carrier is axially fixed with respect to the rotor and rotatable about a center axis of the permanent magnet machine with the rotor, the carrier attaching the ferromagnetic plate to the rotor for rotation about the center axis with the rotor. 12. The method as recited in claim 10 further comprising arranging a support to define a cavity axially between the support and the ferromagnetic plate, the cavity being configured such that an increase in pressure therein forces the ferromagnetic plate toward the rotor. 13. The method as recited in claim 12 further comprising providing at least one elastic element applying a preloading force to the ferromagnetic plate to hold the ferromagnetic plate axially away from the rotor, the increase in pressure in the cavity overcoming the preloading force. 14. The method as recited in claim 12 further comprising providing a shaft nonrotatably fixed to the rotor, the shaft including at least one fluid line configured for supplying fluid to the cavity. 15. The permanent magnet machine as recited in claim 1 wherein the portion of the ferromagnetic component axially aligned with magnets of the rotor is a radially outer end of the ferromagnetic component. 16. The method as recited in claim 9 wherein the portion of the ferromagnetic component axially aligned with magnets of the rotor is a radially outer end of the ferromagnetic component. 17. A permanent magnet machine comprising: a stator; a rotor inside the stator; a ferromagnetic component fixed axially movably to the rotor, the ferromagnetic component being configured for actuating axially toward the rotor to weaken a magnetic field of the rotor, the ferromagnetic component is a ferromagnetic plate; and an axially fixed support, the ferromagnetic plate being axially slidable along the axially fixed support, the axially fixed support and the ferromagnetic plate defining a cavity axially therebetween, the cavity being configured such that an increase in pressure therein forces the ferromagnetic plate toward the rotor. 18. The permanent magnet machine as recited in claim 17 further comprising a shaft and a rotor carrier nonrotatably fixing the rotor to the shaft. 19. The permanent magnet machine as recited in claim 18 further comprising at least one elastic element applying a preloading force to the ferromagnetic plate to hold the ferromagnetic plate axially away from the rotor carrier, the increase in pressure in the cavity overcoming the preloading force. 20. The permanent magnet machine as recited in claim 18 wherein the shaft includes at least one fluid line configured for supplying fluid to the cavity.