Electronic power transformer

The invention claimed is: 1. A system, comprising: a multi-phase electronic power transformer, comprising: a set of center tapped primary windings, wherein each primary winding is configured to directly couple with an input voltage at a respective primary winding center tap; a pair of primary switching devices comprising a first primary switching device coupled to a first end of each primary winding and a second primary switching device coupled to a second end of each primary winding, wherein the first end and the second end of each primary winding are distinct and disposed on opposite sides of the respective primary winding center taps; a set of center tapped secondary windings, wherein each secondary winding is configured to inductively couple with a respective primary winding and to directly output a voltage at a respective secondary winding center tap; and a pair of secondary switching devices comprising a first secondary switching device coupled to a first end of each secondary winding and a second secondary switching device coupled to a second end of each secondary winding, wherein the first end and the second end of each secondary winding are distinct and disposed on opposite sides of the respective secondary winding center taps, wherein the pair of primary switching devices are configured to operate synchronously with the pair of secondary switching devices to output one or more voltages at an output frequency equal to an input frequency of one or more input voltages; and the multi-phase electronic power transformer configured by the inductively coupled set of center tapped primary and secondary windings to directly convert the one or more input voltages and the input frequency to output the one or more output voltages and output frequency at the set of center tapped secondary windings. 2. The system of claim 1 , wherein the pair of primary switching devices comprises one or more electronic switches, and a total of the respective electronic switches for the pair of primary switching devices is less than a total of the respective primary windings coupled to the pair of primary switching devices. 3. The system of claim 1 , wherein the pair of secondary switching devices comprises one or more electronic switches, and a total of the respective electronic switches for the pair of secondary switching devices is less than a total of the respective secondary windings coupled to the pair of secondary switching devices. 4. The system of claim 1 , wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises one or more electronic switches, and a total of the respective electronic switches for each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device is less than a total of the respective primary and secondary windings coupled to each respective primary and secondary switching device. 5. The system of claim 1 , wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises a pair of electronic switches. 6. The system of claim 1 , wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises a single controller. 7. The system of claim 6 , wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises a single electronic switch coupled to a respective controller. 8. The system of claim 7 , wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises a transistor. 9. The system of claim 8 , wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises a multi-phase diode bridge coupled to a respective electronic switch. 10. The system of claim 1 , wherein the pair of primary and the pair of secondary switching devices are configured to enable independent control of one or more voltages across the pair of primary and the pair of secondary windings. 11. The system of claim 10 , wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises a multi-phase diode bridge, each multi-phase diode bridge comprises a plurality of phase-leg modules, each phase-leg module is coupled to a pair of electronic switches and each electronic switch is coupled to a single controller. 12. The system of claim 1 , wherein the set of primary windings comprises three primary windings and the set of secondary windings comprises three secondary windings. 13. The system of claim 1 , wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises one or more electronic switches, and each electronic switch is configured to operate at a frequency higher than a frequency of the one or more input voltages. 14. The system of claim 1 , wherein the multi-phase electronic power transformer comprises a high frequency transformer. 15. A system, comprising: a multi-phase, high frequency electronic power transformer, comprising: a set of center tapped primary windings, wherein each primary winding is configured to directly couple with an input voltage at a respective primary winding center tap; a pair of primary switching devices comprising a first primary switching device coupled to a first end of each primary winding and a second primary switching device coupled to a second end of each primary winding, wherein the first end and the second end of each primary winding are distinct and disposed on opposite sides of the respective primary winding center taps; a set of center tapped secondary windings, wherein each secondary winding is configured to inductively couple with a respective primary winding and to directly output a voltage at a respective secondary winding center tap; and a pair of secondary switching devices comprising a first secondary switching device coupled to a first end of each secondary winding and a second secondary switching device coupled to a second end of each secondary winding, wherein the first end and the second end of each secondary winding are distinct and disposed on opposite sides of the respective secondary winding center taps, wherein each of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device comprises one or more electronic switches, and a total of the respective electronic switches of: the first primary switching device, the second primary switching device, the first secondary switching device, and the second secondary switching device is less than a total of the respective primary and secondary windings coupled to each respective primary and secondary switching device; and the multi-phase electronic power transformer configured by the inductively coupled set of center tapped primary and secondary windings to directly convert the one or more input voltages and the input frequency to output the one or more output voltag