Charger for electric vehicles with distributed power converter arbitration

The invention claimed is: 1. A charger for electric vehicles, comprising: at least two power exchange ports for vehicles, each port including: a data communication connection for at least receiving a power request from a vehicle, and a power exchange connection for delivering power to a vehicle; at least one grid connection for receiving electric power; a data communication bus, for communicating a power request from the vehicles to: a plurality of autonomously controllable power converters, each for converting AC power from the grid connection to DC power for charging a vehicle; and wherein each of the power converters includes a first data communication device, connected to the data communication bus, and configured for indicating available power via the data communication bus; and wherein the charger is configured for receiving power requests from vehicles, and each of the power exchange ports directly control a subset of the power converters, in which the subset of the power converters is defined by a predefined set of deterministic rules. 2. The charger according to claim 1 , wherein each of the power exchange ports are provided with a second data communication device, that is configured for: receiving available power indications from the power converters; allowing a power request for a vehicle via the communication bus; and retrieving a power request, based on an available power, from a vehicle. 3. The charger according to claim 2 , wherein the first and second data communication devices are configured for: determining if at least one power converter has power available for at least partly fulfilling a power request from a vehicle; coupling a power output of at least one power converter to a power exchange connection of a power exchange port for a vehicle if power is available; and negotiating power conversion settings with the autonomously controllable power converters in response to a power request from a vehicle. 4. The charger according to claim 2 , comprising: a data storage coupled to the data communication bus, the data storage containing system limitation data, including at least one of a power limit of the grid connection, peak shaving requirements, and charging priority of the energy exchange port or energy costs. 5. The charger according to claim 3 , wherein the first and second data communication devices are configured for: verifying if there are available power converters after a predetermined time interval or after a predetermined event when a power request was or is more than a maximum power available from a power converter; and if there are available power converters, coupling a power output of at least one of such power converters to the power exchange connection of the power exchange port for the vehicle that requests the power. 6. The charger according to claim 3 , comprising: a data storage coupled to the data communication bus, the data storage containing system limitation data, including at least one of a power limit of the grid connection, peak shaving requirements, and charging priority of the energy exchange port or energy costs. 7. The charger according to claim 5 , comprising: a data storage coupled to the data communication bus, the data storage containing system limitation data, including at least one of a power limit of the grid connection, peak shaving requirements, and charging priority of the energy exchange port or energy costs. 8. The charger according to claim 5 , comprising: a communication port for communication with a back-end of the power grid. 9. The charger according to claim 7 , comprising: a communication port for communication with a back-end of the power grid. 10. The charger according to claim 1 , wherein each of the power exchange ports are provided with a second data communication device, that is configured for: retrieving a power request from a vehicle; making the power request available to the controllable power converters via the communication bus; and receiving available power indications from the power converters. 11. The charger according to claim 10 , wherein the first and second data communication devices are configured for: coupling power outputs of available power converters to a power exchange connection until a power request is fulfilled or until no more power converters are available. 12. The charger according to claim 11 , wherein the first and second data communication devices are configured for: verifying if there are available power converters after a predetermined time interval or after a predetermined event when a power request was or is more than a maximum power available from a power converter; and if there are available power converters, coupling a power output of at least one of such power converters to the power exchange connection of the power exchange port for a vehicle that requests the power. 13. The charger according to claim 11 , comprising: a data storage coupled to the data communication bus, the data storage containing system limitation data, including at least one of a power limit of the grid connection, peak shaving requirements, and charging priority of the energy exchange port or energy costs. 14. The charger according to claim 12 , comprising: a data storage coupled to the data communication bus, the data storage containing system limitation data, including at least one of a power limit of the grid connection, peak shaving requirements, and charging priority of the energy exchange port or energy costs. 15. The charger according to claim 12 , comprising: a communication port for communication with a back-end of the power grid. 16. The charger according to claim 10 , wherein the first and second data communication devices are configured for: determining if at least one power converter has power available for at least partly fulfilling a power request from a vehicle; coupling a power output of at least one power converter to a power exchange connection of a power exchange port for a vehicle if power is available; and negotiating power conversion settings with the autonomously controllable power converters in response to a power request from a vehicle. 17. The charger according to claim 16 , comprising: a data storage coupled to the data communication bus, the data storage containing system limitation data, including at least one of a power limit of the grid connection, peak shaving requirements, and charging priority of the energy exchange port or energy costs. 18. The charger according to claim 10 , comprising: a data storage coupled to the data communication bus, the data storage containing system limitation data, including at least one of a power limit of the grid connection, peak shaving requirements, and charging priority of the energy exchange port or energy costs. 19. The charger according to claim 1 , comprising: a data storage coupled to the data communication bus, the data storage containing system limitation data, including at least one of a power limit of the grid connection, peak shaving requirements, and charging priority of the energy exchange port or energy costs. 20. The charger according to claim 1 , comprising: a communication port for communication with a back-end of the power grid. 21. The charger according to claim 1 , wherein each of the power exchange ports are provided with a second data communication device, the first and second data communication devices coupling power outputs of available power converters