Radiation tolerant high voltage dc power distribution systems and method

What is claimed is: 1 . An alternating current to direct current (AC to DC) power converter assembly that converts a plurality of low voltage alternating current (AC) inputs into a high voltage DC power output, the AC to DC power converter comprising: two or more AC to DC power converters, each of the two or more AC to DC power converters including: a low power AC power input configured to receive an AC input from a low power AC power source; and a low power DC power output; and two or more isolated DC to DC power converters, each DC to DC power converter electrically coupled at least one of the AC to DC power converters, wherein each DC to DC power converter includes an output and wherein each of the DC to DC power converters are connected in series to produce the high power DC power output. 2 . The AC to DC power converter assembly of claim 1 , wherein each DC to DC power converter is directly connected to a respective one of the two or more AC to DC power converters. 3 . The AC to DC power converter assembly of claim 1 , further comprising an internal DC bus; wherein the low power DC power output of each of the two or more AC to DC power converters are connected in parallel to the internal DC bus. 4 . The AC to DC power converter of claim 3 , wherein each of the two or more DC to DC power converters are connected in parallel to the internal DC bus. 5 . The AC to DC power converter assembly of claim 1 , wherein each of the two or more AC to DC power converters is an active inverter. 6 . The AC to DC power converter assembly of claim 5 , wherein the active inverter of each of the two or more AC to DC power converters includes solid state semiconductor switching devices. 7 . The AC to DC power converter assembly of claim 6 , wherein the switching devices are built with gallium nitride (GaN) or silicon (Si) semiconductor material. 8 . The AC to DC power converter assembly of claim 6 , wherein the switches are radiation hardened switches. 9 . The AC to DC power converter assembly of claim 6 , wherein the active inverter is one of: a uni-directional three or greater level active neutral point clamped inverter; or a bi-directional three or greater level active neutral point clamped inverter. 10 . The AC to DC power converter assembly of claim 1 , wherein the two or more DC to DC converters are isolated converters. 11 . The AC to DC power converter assembly of claim 10 , wherein the DC to DC converters are series connected Dual active half bridge converters, series connected dual active full bridge converters or three level dual active full bridge converters. 12 . A high power direct current (DC) power supply comprising: two or more low power AC power sources; and an alternating current to direct current (AC to DC) power converter assembly that converts power received from the two or more low power AC power sources a high power DC power output, the AC to DC power converter comprising: two or more AC to DC power converters, each of the two or more AC to DC power converters including: a low power AC power input connected to a respective one of the two or more low power AC power sources; and a low power DC power output; and two or more DC to DC power converters, each DC to DC power converter electrically coupled at least one of the AC to DC power converters, wherein each DC to DC power converter includes an output and wherein each of the DC to DC power converters are connected in series to produce the high power DC power output. 13 . The DC power source of claim 12 , in combination with a high voltage DC power network. 14 . The DC power source of claim 12 , wherein the low power AC power sources are generators. 15 . The DC power source of claim 12 , wherein each DC to DC power converter is directly connected to a respective one of the two or more AC to DC power converters. 16 . The DC power source of claim 12 , wherein the AC to DC power converter assembly further includes an internal DC bus; wherein the low power DC power output of each of the two or more AC to DC power converters are connected in parallel to the internal DC bus. 17 . The DC power source of claim 16 , wherein each of the two or more DC to DC power converters are connected in parallel to the internal DC bus.