Transformer system

What is claimed is: 1. A flexible transformer system comprising: conductive windings extending around a magnetic core of a transformer phase impedance-varying windings extending around the magnetic core of the transformer phase, the conductive windings and the impedance-varying windings configured to conduct electric current around the magnetic core of the transformer phase; and an impedance switch coupled with the impedance-varying windings and with the conductive windings, the impedance switch configured to change an impedance of the system by changing which impedance-varying winding of the impedance-varying windings is conductively coupled with the conductive windings and which impedance-varying winding of the impedance-varying windings is disconnected from the conductive windings; wherein the voltage-varying windings extending, around the magnetic core of the transformer phase, the voltage-varying windings also configured to conduct electric current around the magnetic core of the transformer phase: and a voltage switch coupled with the voltage-varying windings and with the conductive windings, the voltage switch configured to change a voltage ratio at the system by changing which voltage-varying winding of the voltage-varying windings is conductively coupled with the conductive windings and which voltage-varying winding of the voltage-varying windings is disconnected from the conductive windings. 2. The system of claim 1 , wherein the conductive windings and the impedance-varying windings are disposed in a common housing of the transformer phase. 3. The system of claim 1 , wherein the voltage-varying windings are disposed at one or more of a high voltage bushing end of the transformer phase or at a low voltage bushing end of the transformer phase. 4. The system of claim 1 , wherein the voltage switch is configured to selectively couple the voltage-varying winding with the conductive windings without changing the impedance of the system. 5. The system of claim 1 , wherein the impedance-varying windings further comprise a number of even windings and a same number of odd windings. 6. The system of claim 5 , wherein the even windings of the impedance-varying windings are disposed at a first end of the magnetic core and the odd windings of the impedance-varying windings are disposed at an opposite, second end of the magnetic core. 7. The system of claim 1 , wherein the impedance switch is configured to selectively couple the impedance-varying winding with the conductive windings without changing a voltage ratio of the system. 8. The system of claim 1 , wherein the system is a flexible three-phase large power transformer. 9. The system of claim 1 , wherein the impedance-varying windings are disposed at one or more of a high voltage bushing end of the transformer phase or at a low voltage bushing. end of the transformer phase. 10. A flexible transformer system comprising: conductive windings extending around a magnetic core of a transformer phase; impedance-varying windings extending around the >magnetic core of the transformer phase, the conductive windings and the impedance-varying windings configured to, conduct electric current around the magnetic core of the transformer phase, wherein the impedance-varying windings are disposed at one or more of a high voltage bushing end of the transformer phase or at a low voltage bushing end of the transformer phase; and an impedance switch coupled with the impedance-varying windings and with the conductive windings, the impedance switch configured to change an impedance of the system by changing which impedance-varying winding of the impedance-varying windings is conductively coupled with the conductive windings and which impedance-varying winding of the impedance-varying windings is disconnected from the conductive windings. 11. The system of claim 10 , further comprising: voltage-varying windings extending around the magnetic core of the transformer phase, the voltage-varying windings also configured to conduct electric current around the magnetic core of the transformer phase; and a voltage switch coupled with the voltage-varying windings and with the conductive windings, the voltage switch configured to change a voltage ratio of the system by changing which voltage-varying winding of the voltage-varying windings is conductively coupled with the conductive windings and which voltage-varying winding of the voltage-varying windings is disconnected from the conductive windings. 12. The system of claim 11 , wherein the voltage switch is configured to selectively couple the voltage-varying winding with the conductive windings without changing the impedance of the system. 13. The system of claim 10 , wherein the impedance-varying windings further comprise a number of even windings and a same number of odd windings. 14. The system of claim 10 , wherein the impedance switch is configured to selectively couple the impedance-varying winding with the conductive windings without changing a voltage ratio of the system. 15. A method comprising: changing an impedance of a flexible transformer system that includes impedance-varying, windings and conductive windings extending around a magnetic core of a transformer phase by actuating an impedance switch coupled with the impedance-varying windings and with the conductive windings in order to change which impedance-varying winding of the impedance-varying windings is conductively coupled with the conductive windings and which impedance-varying winding of the impedance-varying windings is disconnected from the conductive windings. 16. The method of claim 15 , wherein coupling the impedance-varying windings around the magnetic core includes positioning the impedance-varying windings in a housing of the transformer phase that also includes the conductive windings. 17. The method of claim 15 , further comprising: changing a voltage ratio of the system by actuating a voltage switch coupled with voltage-varying windings and the conductive windings to change which voltage-varying winding of the voltage-varying windings is conductively coupled with the conductive windings and which voltage-varying winding of the voltage-varying windings is disconnected from the conductive windings. 18. The method of claim 17 , wherein changing the voltage ratio of the system includes selectively coupling the voltage-varying winding with the conductive windings with the voltage switch without changing the impedance of the system. 19. The method of claim 15 , wherein changing the impedance of the system includes selectively coupling the impedance-varying winding with the conductive windings with the impedance switch without changing a voltage ratio of the system.