Synchronous machine with rechargeable power storage devices

What is claimed is: 1. A synchronous machine rotor portion, comprising: a rotor carrying a field winding; and a re-chargeable energy storage device carried on the rotor; and a rotating power converter with a first switch and a second switch carried on the rotor and electrically connected to the re-chargeable energy storage device to receive direct current electrical power and electrically connected to the field winding to provide direct current electrical power to the field winding, wherein the first switch is connected in series between a positive terminal of the energy storage device and the field winding, wherein the second switch is connected in series between a negative terminal of the energy storage device and a return lead of the field winding to provide two-way current flow through a positive rail of the rotating power converter between the energy storage device and the field winding for rapidly de-energizing the field winding; and a diode connected between a source lead of the field winding and the negative terminal of the energy storage device, and in series with the first switch, the diode arranged to oppose current flow from the first switch to the negative terminal of the energy storage device. 2. The rotor portion as recited in claim 1 , wherein the energy storage device includes a capacitive device. 3. The rotor portion as recited in claim 1 , wherein the energy storage device includes a battery device. 4. The rotor portion as recited in claim 1 , further including an inductor electrically connected between the energy storage device and the rotating power converter. 5. The rotor portion as recited in claim 1 , further including a capacitor connected in parallel with the positive and negative terminals of the energy storage device. 6. The rotor portion as recited in claim 1 , further including a switch control module carried on the rotor and operatively connected to the first switch and the second switch. 7. The rotor portion as recited in claim 1 , wherein the diode is a first diode, and further including a second diode connected between the positive terminal of the energy storage device and a return lead of the field winding. 8. A synchronous machine, comprising: a stator portion with an armature winding; a rotor portion as recited in claim 1 rotatably disposed relative to the stator portion, a switch control module operatively connected to the rotating power converter first switch and second switch to reverse current flow through the rotating power converter, wherein the switch control module has a generate mode or motor mode and a charge mode; and a communications transformer spanning a gap between the stator portion and the rotor portion connecting a generator control unit to the switch control module. 9. The synchronous machine as recited in claim 8 , wherein the communications transformer includes a rotor coil and a stator coil, wherein the synchronous machine rotor portion carries the rotor coil, wherein the stator coil is inductively coupled to the rotor coil and is fixed relative to the rotor coil. 10. The synchronous machine as recited in claim 8 , further including a monitoring module carried by the rotor and communicative with the switch control module. 11. The synchronous machine as recited in claim 8 , further including at least one monitoring device carried by the rotor and selected from a group including (a) a battery current sensor connected to the energy storage device, (b) a battery temperature sensor thermally coupled to the energy storage device, (c) a battery voltage sensor connected to the energy storage device, and (d) a field winding current sensor connected to the field winding. 12. A synchronous machine rotor portion, comprising: a rotor carrying a field winding; and a re-chargeable energy storage device carried on the rotor; and a rotating power converter with a first switch and a second switch carried on the rotor and electrically connected to the re-chargeable energy storage device to receive direct current electrical power and electrically connected to the field winding to provide direct current electrical power to the field winding, wherein the first switch is connected in series between a positive terminal of the energy storage device and the field winding, wherein the second switch is connected in series between a negative terminal of the energy storage device and a return lead of the field winding to provide two-way current flow through a positive rail of the rotating power converter between the energy storage device and the field winding for rapidly de-energizing the field winding; and a diode connected between a return lead of the field winding and the positive terminal of the energy storage device, and in series with the second switch, the diode arranged to oppose current flow from the positive terminal of the energy storage device to the second switch. 13. The rotor portion as recited in claim 12 , wherein the diode is a first diode and further comprising a second diode, the second diode connected between a source lead of the field winding and the negative terminal of the energy storage device. 14. The rotor portion as recited in claim 12 , wherein the energy storage device includes a capacitive device. 15. The rotor portion as recited in claim 12 , wherein the energy storage device includes a battery device. 16. A synchronous machine, comprising: a stator portion with an armature winding; a rotor portion as recited in claim 12 rotatably disposed relative to the stator portion, a switch control module operatively connected to the rotating power converter first switch and second switch to reverse current flow through the rotating power converter, wherein the switch control module has a generate mode or motor mode and a charge mode; and a communications transformer spanning a gap between the stator portion and the rotor portion connecting a generator control unit to the switch control module.