Multiple vehicle charging system

The invention claimed is: 1. A vehicle charging system, comprising: a first electrical converter; a plurality of second electrical converters; a conductive ring connected to the first electrical converter and the plurality of second electrical converters; and a plurality of electrical breakers connecting a plurality of ring sections together such that each ring section is defined by two electrical breakers at opposite ends of the ring section, the ring sections defining at least a portion of the conductive ring; wherein a first one of the second electrical converters is connected to a first ring section and a second one of the second electrical converters is connected to a second ring section; wherein a fault in the first ring section or the first one of the second electrical converters causes the electrical breakers at opposite ends of the first ring section to open and disconnect the first one of the second electrical converters from the first electrical converter while the second one of the second electrical converters remains connected to the first electrical converter. 2. The vehicle charging system according to claim 1 , wherein the plurality of ring sections defines the entire conductive ring. 3. The vehicle charging system according to claim 1 , further comprising more than one of the second electrical converters connected to one of the ring sections. 4. The vehicle charging system according to claim 1 , wherein each of the plurality of second electrical converters convert electricity using semiconductor switches. 5. The vehicle charging system according to claim 1 , wherein the first electrical converter converts electricity using semiconductor switches. 6. The vehicle charging system according to claim 1 , further comprising an electrical breaker between the conductive ring and the first electrical converter. 7. The vehicle charging system according to claim 1 , further comprising an electrical breaker between the conductive ring and each of the second electrical converters. 8. The vehicle charging system according to claim 1 , wherein the first electrical converter converts a source of electrical energy to a DC voltage supplied to the conductive ring. 9. The vehicle charging system according to claim 1 , wherein each of the second electrical converters converts a DC voltage of the conductive ring of one voltage level to a DC voltage of another voltage level. 10. The vehicle charging system according to claim 9 , wherein each of the second electrical converters converts a DC voltage of the conductive ring of a higher voltage level to a DC voltage of a lower voltage level. 11. The vehicle charging system according to claim 1 , further comprising a plurality of charge cables, each of the charge cables being connected to one of the second electrical converters at one end and being coupleable to an electric vehicle at another end. 12. The vehicle charging system according to claim 1 , further comprising another conductive ring connected to the first electrical converter and the plurality of second electrical converters, the conductive ring being maintained at a higher voltage level than the another conductive ring. 13. The vehicle charging system according to claim 12 , further comprising another plurality of electrical breakers connecting another plurality of ring sections together to define at least a portion of the another conductive ring such that each of the another ring sections corresponds to one of the ring sections of the conductive ring. 14. The vehicle charging system according to claim 1 , wherein the first electrical converter converts an AC voltage from a utility grid to a DC voltage supplied to the conductive ring. 15. The vehicle charging system according to claim 1 , wherein the first electrical converter converts a DC voltage of one voltage level from an energy storage, a renewable source or a utility grid to a DC voltage of another voltage level supplied to the conductive ring. 16. The vehicle charging system according to claim 1 , further comprising a plurality of the first electrical converter, each of the first electrical converters being connected to different ring sections, a fault in one of the ring sections, first electrical converters or second electrical converters disconnecting one of the first electrical converters from at least one of the second electrical converters while at least one of the second electrical converters remains connected to the one of the first electrical converters. 17. The vehicle charging system according to claim 1 , wherein the first electrical converter is connected to one of the ring sections not connected to any of the plurality of second electrical converters, a fault in another ring section or in any of the plurality of second electrical converters thereby not disconnecting other second electrical converters from the first electrical converter. 18. The vehicle charging system according to claim 1 , further comprising a plurality of the first electrical converter, each of the first electrical converters being connected to different ring sections not connected to any of the plurality of second electrical converters, a fault in any of the plurality of second electrical converters or ring section connected thereto or a fault in one of the first electrical converters or ring section connected thereto thereby not disconnecting other second electrical converters from at least one the first electrical converters. 19. The vehicle charging system according to claim 1 , wherein the first electrical converter converts a source of electrical energy to a DC voltage supplied to the conductive ring, the first electrical converter converts electricity using semiconductor switches, each of the plurality of second electrical converters convert electricity using semiconductor switches, and further comprising a plurality of charge cables, each of the charge cables being connected to one of the second electrical converters at one end and being coupleable to an electric vehicle at another end. 20. The vehicle charging system according to claim 19 , further comprising a plurality of the first electrical converter, wherein one of the first electrical converters converts an AC or DC voltage from a utility grid to the DC voltage supplied to the conductive ring, and another of the first electrical converters converts a DC voltage of one voltage level from an energy storage or a renewable source to the DC voltage of another voltage level supplied to the conductive ring, and each of the first electrical converters is connected to different ring sections, a fault in one of the ring sections, first electrical converters or second electrical converters disconnecting one of the first electrical converters from at least one of the second electrical converters while at least one of the second electrical converters remains connected to the one of the first electrical converters.