Methods and apparatus for soft operation of transformers using auxiliary winding excitation

That which is claimed: 1 . A method comprising: providing a magnetizing current to a transformer following disconnection of a primary winding of the transformer from a power source. 2 . The method of claim 1 , wherein providing a magnetizing current to a transformer following disconnection of a primary winding of the transformer from a power source comprises providing the magnetizing current from a first source following disconnection of the primary winding from a second source. 3 . The method of claim 2 , wherein the transformer comprises a first transformer and wherein the first source comprises a second transformer coupled between the second source and the first transformer. 4 . The method of claim 3 , wherein the second transformer has a greater impedance than the first transformer. 5 . The method of claim 2 , wherein the first source comprises a solid-state converter. 6 . The method of claim 2 , wherein providing the magnetizing current from a first source following disconnection of the primary winding from a second source comprises: electrically coupling the first source to the primary winding and/or a secondary winding of the transformer while the primary winding is electrically coupled to the second source, electrically decoupling the second source from the primary winding while the first source remains electrically coupled to the secondary winding; and electrically decoupling the first source from the secondary winding. 7 . The method of claim 6 , wherein the first source is configured to induce a flux in the transformer such that a voltage in the primary winding or the secondary wining is substantially in phase with a voltage applied by the second source. 8 . The method of claim 6 , wherein electrically coupling the first source to the primary winding and/or a secondary winding of the transformer while the primary winding is electrically coupled to the second source comprises coupling the second source to the secondary winding via a circuit having a greater impedance than the transformer. 9 . The method of claim 6 , wherein the transformer comprises a first transformer and wherein electrically coupling the first source to the primary winding and/or a secondary winding of the transformer while the primary winding is electrically coupled to the second source comprises coupling the second source to the secondary winding via a second transformer. 10 . An apparatus comprising: a magnetizing circuit configured to be coupled to a transformer and to selectively provide a magnetizing current to the transformer; and a control circuit configured to cause the magnetizing circuit to provide the magnetizing current following disconnection of the primary winding of the transformer from the power source. 11 . The apparatus of claim 10 , wherein the magnetizing circuit is configured to provide the magnetizing current from a first source following disconnection of the primary winding from a second source. 12 . The apparatus of claim 11 , wherein the transformer comprises a first transformer and wherein the apparatus further comprises a second transformer coupled between the second source and the first transformer. 13 . The apparatus of claim 10 , wherein the magnetizing circuit comprises a solid-state converter. 14 . The apparatus of claim 10 , wherein the control circuit is configured to cause the magnetizing circuit to electrically couple the first source to the primary winding and/or a secondary winding of the transformer while the primary winding is electrically coupled to the second source, to cause a switch to electrically decouple the second source from the primary winding while the first source remains electrically coupled to the secondary winding and to further cause the magnetizing circuit to electrically decouple the first source from the secondary winding after the second source has been decoupled from the primary winding. 15 . The apparatus of claim 14 , wherein the first source is configured to induce a flux in the transformer such that a voltage in the primary winding or the secondary winding is substantially in phase with a voltage applied by the second source. 16 . The apparatus of claim 15 , wherein the magnetizing circuit is configured to electrically couple the second source to the secondary winding via a circuit having a greater impedance than the transformer. 17 . The apparatus of claim 16 , wherein the transformer comprises a first transformer and wherein the magnetizing circuit comprises a second transformer and a switch configured to electrically couple the second source to the secondary winding via the second transformer. 18 . A motor drive comprising: a transformer; a rectifier having an input coupled to a secondary of the transformer; an inverter having an input coupled to an output of the rectifier and an output configured to be coupled to a motor; a magnetizing circuit configured to be coupled to the transformer and to selectively provide a magnetizing current to the transformer; a switch configured to couple and decouple a power source to and from a primary winding of the transformer; and a control circuit operatively associated with the switch and the magnetizing circuit and configured to cause the magnetizing circuit to provide the magnetizing current following disconnection of the primary winding of the transformer from the power source. 19 . The motor drive of claim 18 , wherein the transformer comprises a first transformer and wherein the magnetizing circuit comprises a second transformer and a switch configured to electrically couple the second transformer between the power source and a primary winding or a secondary winding of the first transformer. 20 . The motor drive of claim 19 , wherein the second transformer has a greater impedance than the first transformer.