In one aspect, an alternator is described which includes a current control apparatus including a stator winding and a control winding, wherein current control in the control winding regulates the stator winding. In another aspect, a gas turbine engine includes a multiple-channel alternator for redun
In one aspect, an alternator is described which includes a current control apparatus including a stator winding and a control winding, wherein current control in the control winding regulates the stator winding. In another aspect, a gas turbine engine includes a multiple-channel alternator for redundantly driving accessory systems. In another aspect, an alternator cooling scheme is provided, which alternator includes means for reducing stray inductance of stator winding end turns.
대표청구항▼
What is claimed is: 1. An alternator comprising a rotor; a stator; at least one stator winding for providing an alternating current to a load electrical circuit, the stator winding having a plurality of serially-connected first and second portions, the first portions spaced apart circumferentially
What is claimed is: 1. An alternator comprising a rotor; a stator; at least one stator winding for providing an alternating current to a load electrical circuit, the stator winding having a plurality of serially-connected first and second portions, the first portions spaced apart circumferentially from one another relative to the stator; a control electrical circuit including at least one control winding and a control apparatus for controlling current flow through the control winding, the control winding having a plurality of legs, one of said legs disposed adjacent to each second portion of the stator winding; a plurality of rotor magnetic flux paths defined co-operatively by the rotor and stator for conducting rotor magnetic flux around the plurality of first portions of the stator winding; and a plurality of secondary magnetic flux paths for conducting secondary magnetic flux induced by current flow through the stator winding, the secondary magnetic flux paths defined around the stator winding second portions and adjacent control winding legs, the secondary magnetic flux paths being isolated from the rotor and the rotor magnetic flux paths. 2. The alternator of claim 1, wherein the stator winding second portions and the control winding legs are disposed within the stator. 3. The alternator of claim 2, wherein each rotor magnetic flux path passes through a portion of the stator shared with one of the secondary magnetic flux paths. 4. The alternator of claim 3, wherein said stator common portion comprises a material having a Curie temperature lower than a maximum permissible operating temperature of the alternator. 5. The alternator of claim 2, wherein said control winding legs are connected in parallel to one another. 6. The alternator of claim 2, wherein the control winding legs are connected in series with one another. 7. The alternator of claim 2, wherein the control apparatus includes at least one fuse for open-circuiting the control winding when a threshold current is exceeded in the control winding, wherein the threshold current in the control winding corresponds to a maximum desired output current in the stator winding. 8. The alternator of claim 7, wherein each rotor magnetic flux path passes through a portion of the stator shared with one of the secondary magnetic flux paths, and wherein the control apparatus includes said shared portion having a material with a Curie temperature lower than a maximum desired operating temperature of the alternator. 9. The alternator of claim 2, wherein the control circuit includes a solid-state circuit operated to control an average current flow in the control winding. 10. The alternator of claim 9, wherein each control winding leg comprises multiple turns relative to a number of turns of the adjacent stator winding second portion. 11. The alternator of claim 2, wherein a portion of the secondary magnetic flux paths remote from the rotor magnetic flux paths passes through a material having a Curie temperature lower than a maximum permissible operating temperature of the alternator, and wherein said Curie temperature corresponds to a machine temperature above which additional output power is supplied by the at least one stator winding to a load electrical circuit. 12. The alternator of claim 2, wherein the stator comprises at least two non-overlapping sectors, and wherein each sector includes at least one said stator winding, one of said control winding, a plurality of said rotor magnetic flux paths and a plurality of said secondary magnetic flux paths, and wherein the stator and control windings of each sector are operable independently of one another. 13. A gas turbine engine having an alternator according to claim 12, wherein the stator and control windings of each sector are connected to respective portions of a redundant gas turbine engine accessory system. 14. The gas turbine engine of claim 13, wherein at least one accessory of the accessory system comprises an electrical machine operable as a motor, the machine having the stator with non-overlapping stator sectors defined therein, each stator sector having stator windings operable independently of other stator windings of the machine, each sector driven by a corresponding sector of the alternator. 15. The alternator of claim 1, wherein said control winding legs are connected in parallel to one another. 16. The alternator of claim 1, wherein the control winding legs are connected in series with one another. 17. The alternator of claim 1, wherein the control apparatus includes at least one fuse for open-circuiting the control winding when a threshold current is exceeded, wherein the threshold current corresponds to a maximum desired output current in the stator winding. 18. The alternator of claim 1, wherein the control circuit includes a current source. 19. The alternator of claim 18, wherein the current source is independent of the stator winding. 20. The alternator of claim 1, wherein the control circuit includes a current source independent of the stator winding. 21. The alternator of claim 1, wherein a portion of the rotor magnetic flux paths passes through a material having a Curie temperature lower than a maximum permissible operating temperature of the alternator. 22. A gas turbine engine system comprising an electric machine operable at least as an alternator, the alternator having a stator with independently-controllable non-overlapping stator sectors defined therein, each stator sector having stator windings operable independently of other stator windings of the machine, each sector connected to a corresponding power conditioning system, the sectors connected in parallel to a gas turbine engine accessory system. 23. The gas turbine engine according to claim 22, wherein at least one accessory of the gas turbine engine accessory system comprises an electrical machine operable as a motor, the machine having its stator with independently-controllable non-overlapping stator sectors defined therein, each stator sector having stator windings operable independently of other stator windings of the machine, each sector driven by a corresponding sector of the alternator.
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