System, apparatus, and method for reducing inrush current in a transformer

What is claimed is: 1. A pre-fluxing system for a multiple-phase transformer to reduce inrush current in the multiple-phase transformer having first windings, second windings, and a magnetic core having segments associated with the first and second phase windings, respectively, comprising: a pre-fluxing capacitor; a current source; a charging circuit for charging the pre-fluxing capacitor using the current source; and, a pre-fluxing circuit for connecting the pre-fluxing capacitor to a winding of the first windings. 2. The pre-fluxing system of claim 1 , wherein: the first windings comprise first A, B, and C phase windings; the second windings comprise second A, B, and C phase windings; and, the magnetic core segments comprise A, B, and C phase segments. 3. The pre-fluxing system of claim 1 , wherein the charging circuit is configured to charge the pre-fluxing capacitor to a pre-determined voltage level. 4. The pre-fluxing system of claim 1 , wherein the current source comprises a direct current source. 5. The pre-fluxing system of claim 1 , further comprising a line circuit including a line breaker for applying line voltage to the multiple phase transformer. 6. The pre-fluxing system of claim 5 , further comprising a control circuit for controlling a closing of the line circuit to apply line voltage to the multiple phase transformer. 7. The pre-fluxing system of claim 6 , wherein the control circuit is configured to apply line voltage to the multiple phase transformer coincident with a positively-referenced voltage peak of the winding into which the pre-fluxing capacitor was discharged. 8. The pre-fluxing system of claim 5 , wherein the breaker is configured to apply the line voltage simultaneously with disconnecting the pre-fluxing capacitor from the winding. 9. A pre-fluxing system for a multiple phase transformer to reduce inrush current in the multiple phase transformer having first windings in wye configuration, second windings, and a magnetic core having segments associated with the first and second windings, respectively, comprising: a line circuit including a line breaker for applying line voltage to the multiple phase transformer; a pre-fluxing capacitor; a current source; a charging circuit for charging the pre-fluxing capacitor; a pre-fluxing circuit for discharging the pre-fluxing capacitor through a winding of the first windings; and, a control circuit for controlling a closing of the line circuit to apply line voltage to the multiple phase transformer coincident with a positively-referenced voltage peak of the winding into which the pre-fluxing capacitor was discharged. 10. The pre-fluxing system of claim 9 , wherein the charging circuit is configured to charge the pre-fluxing capacitor to a pre-determined voltage level. 11. The pre-fluxing system of claim 9 , wherein the current source comprises a direct current source. 12. The pre-fluxing system of claim 9 , wherein the control circuit is further configured to apply the line voltage simultaneously with disconnecting the pre-fluxing capacitor from the winding. 13. A pre-fluxing system for a multiple phase transformer to reduce inrush current in the multiple phase transformer having first windings in delta configuration, second windings, and a magnetic core having segments associated with the first and second windings, respectively, comprising: a line circuit including a line breaker for applying line voltage to the multiple phase transformer; a pre-fluxing capacitor; a current source; a charging circuit for charging the pre-fluxing capacitor; a pre-fluxing circuit for discharging the pre-fluxing capacitor through a winding of the first windings to establish a residual flux in a segment; and, a control circuit for controlling a closing of the line circuit to apply line voltage to the multiple phase transformer coincident with a positively-referenced voltage peak of a phase associated with a selected segment of the segments. 14. The pre-fluxing system of claim 13 , wherein the charging circuit is configured to charge the pre-fluxing capacitor to a pre-determined voltage level. 15. The pre-fluxing system of claim 13 , wherein the current source comprises a direct current source. 16. The pre-fluxing system of claim 13 , wherein the control circuit is further configured to apply the line voltage simultaneously with disconnecting the pre-fluxing capacitor from the winding.