Power system architecture with reduced common mode voltage

What is claimed is: 1. An electric power system comprising: a three-phase to ten-phase step-up transformer comprising: a plurality of primary winding groupings, each primary winding grouping including a plurality of sub-primary windings coupled in series with a junction of two sub primary windings defining an interior junction, wherein each end of a primary winding grouping is connected to an end of another primary winding grouping to form a delta configuration and a junction of two primary winding groupings defines an input phase connection that receives a phase of a multi-phase input voltage; a plurality of secondary windings, each secondary winding having a first end and a second end with a first end coupled to one of the plurality of sub-primary windings and a second end coupled to one of a plurality of third windings or one of ten outputs of the three-phase to ten-phase step-up transformer; and the plurality of the third windings each having a first end and a second end, wherein the first end of a third winding is coupled to a second end of one of the plurality of secondary windings and the second end is coupled to one of the ten outputs of the three-phase to ten-phase step-up transformer; wherein each of the plurality of secondary windings and the plurality of third windings are configured such that an output voltage at each output is higher than an input voltage applied to the input phase connection; a plurality of sets of diode pairs with each set of diode pairs having a first end, a second end, and an inner connection, each of the plurality of sets of diode pairs having the first end connected to a positive dc bus, the second end connected to a negative dc bus and the inner connection connected to one of the ten outputs of the three-phase to ten-phase step-up transformer; a three phase inverter connected to the positive dc bus and the negative dc bus; and wherein the plurality of the sets of diode pairs operatively rectify the output voltage from the three-phase to ten-phase step-up transformer to form a DC voltage on the positive dc bus and the negative dc bus with a reduced common mode voltage. 2. The electric power system of claim 1 , further comprising: a power source comprising a three phase input voltage from a variable frequency constant voltage generator, wherein each input phase connection of the three-phase to ten-phase step-up transformer operatively receives a phase from the variable frequency constant voltage generator. 3. The electric power system of claim 2 further comprising: an input bus breaker connected between the power source and the input phase connection of the three-phase to ten-phase step-up transformer. 4. The electric power system of claim 1 , further comprising: a first transfer bus operatively connected to an output of the three phase inverter and to at least one electric power load; and a second transfer bus connected between the first transfer bus and at least one second electric power load. 5. The electric power system of claim 4 further comprising: an output bus breaker connected between the first transfer bus and the output of the three phase inverter. 6. The electric power system of claim 1 further comprising a second three-phase to ten-phase step-up transformer; a plurality of sets of second diode pairs with each set of second diode pairs having a second first end, a second second end, and a second inner connection, each of the plurality of sets of second diode pairs having the second first end connected to a second positive dc bus, the second second end connected to a second negative dc bus and the second inner connection connected to one of the ten outputs of the second three-phase to ten-phase step-up transformer; and a second three phase inverter connected to the second positive dc bus and the second negative dc bus. 7. The electric power system of claim 6 further comprising a second transfer bus connected between an output of the second three phase inverter and at least one electric power load. 8. The electric power system of claim 7 further comprising at least one transfer bus breaker between an output bus breaker connected to each output phase of the three phase inverter and the second transfer bus. 9. The electric power system of claim 8 further comprising a second output bus breaker connected between the output phase of the second three phase inverter and the second transfer bus. 10. The electric power system of claim 6 , further comprising: a second power source comprising a second three phase input voltage from a second variable frequency constant voltage generator, wherein each input phase connection of the second three-phase to ten-phase step-up transformer operatively receives a phase from the second variable frequency constant voltage generator. 11. A method to provide three phase power to equipment with reduced common mode voltage on a DC bus of a three phase inverter, the method comprising: connecting a three-phase to ten-phase step-up transformer to ten sets of diode pairs with each set of diode pairs having a first end, a second end, and an inner connection connecting diodes of the set of diode pairs to each other, the three-phase to ten-phase step-up transformer comprising: a plurality of primary winding groupings, each primary winding grouping including a plurality of sub-primary windings coupled in series with a junction of two sub primary windings defining an interior junction, wherein each end of a primary winding grouping is connected to an end of another primary winding grouping to form a delta configuration and a junction of two primary winding groupings defines an input phase connection that receives a phase of a multi-phase input voltage; a plurality of secondary windings, each secondary winding having a first end and a second end with a first end coupled to one of the plurality of sub-primary windings and a second end coupled to one of a plurality of third windings or one of ten output connections of the three-phase to ten-phase step-up transformer; the plurality of the third windings each having a first end and a second end, wherein the first end of a third winding is coupled to a second end of one of the plurality of secondary windings and the second end is coupled to one of the ten output connections of the three-phase to ten-phase step-up transformer, wherein each of the plurality of secondary windings and the plurality of third windings are configured such that an output voltage at each of the output connections is higher than an input voltage applied to the input phase connection; for each output connection of the ten outputs of the three-phase to ten-phase step-up transformer, connecting the output connection to an inner connection of one of the ten sets of diode pairs; connecting each first end of the ten sets of diode pairs to each other and to switches of the three phase inverter; and connecting each second end of the ten sets of diode pairs to each other and to other switches of the three phase inverter, wherein the ten sets of diode pairs operatively rectify the output voltage from the three-phase to ten-phase step-up transformer to form a DC voltage on a DC bus with a reduced common mode voltage. 12. The method of claim 11 wherein the multi-phase input voltage comprises a three phase input voltage from a variable frequency constant voltage generator, the method further comprising connecting each input phase connection to a phase of the variable frequency constant voltage generator. 13. The method of claim 12 further comprising: connecting each output phase of the three phase inverter to a transfer bus to provide power to equipment ope