Electric vehicles and charging stations

What is claimed is: 1. An electric vehicle configured to connect with overhanging charging electrodes of a charging station, comprising: a support structure coupled a roof of the electric vehicle; at least one pair of charge-receiving electrodes; a connector arm including a first end and a second end, wherein (a) the first end of the connector arm is connected to the at least one pair of charge-receiving electrodes, and (b) the second end of the connector arm is pivotably coupled to the support structure at a pivot such that the connector arm is configured to rotate about the pivot about an axis substantially parallel to the roof of the electric vehicle; and a positioning device configured to rotate the connector arm at the pivot to move the pair of charge-receiving electrodes towards the charging electrodes of the charging station to establish contact therebetween. 2. The electric vehicle of claim 1 , wherein the at least one pair of charge-receiving electrodes of the electric vehicle is configured to establish contact with a pair of charging electrodes that include two linear electrodes arranged to extend along a single straight line. 3. The electric vehicle of claim 1 , wherein the at least one pair of charge-receiving electrodes of the electric vehicle is configured to establish contact with a pair of charging electrodes that includes two linear electrodes arranged parallel to each other. 4. The electric vehicle of claim 1 , wherein the at least one pair of charge-receiving electrodes of the electric vehicle includes two linear electrodes arranged transverse to a direction of travel of the electric vehicle. 5. The electric vehicle of claim 1 , wherein the at least one pair of charge-receiving electrodes of the electric vehicle includes two linear electrodes arranged parallel to a direction of travel of the electric vehicle. 6. The electric vehicle of claim 1 , wherein the support structure includes a pantograph. 7. The electric vehicle of claim 1 , wherein the positioning device includes a height adjustment system configured to allow the at least one pair of charge-receiving electrodes of the electric vehicle to connect with charging electrodes at different heights. 8. The electric vehicle of claim 1 , further including a transmitter configured to transmit a signal indicative of a spacing between the at least one pair of charge-receiving electrodes of the electric vehicle to a charging station that the electric vehicle is approaching. 9. The electric vehicle of claim 1 , wherein the electric vehicle is a bus. 10. The electric vehicle of claim 1 , wherein the electric vehicle is a heavy-duty vehicle. 11. The electric vehicle of claim 1 , further including one or more heaters configured to heat the at least one pair of charge-receiving electrodes of the electric vehicle. 12. The electric vehicle of claim 11 , wherein the one or more heaters are resistive heaters. 13. The electric vehicle of claim 1 , further including a display device configured to indicate to a driver of the electric vehicle a charge status of the electric vehicle. 14. The electric vehicle of claim 1 , further including a charge controller configured to communicate a charge status of the electric vehicle to a charging station. 15. A charging station for an electric vehicle having roof-mounted charge-receiving electrodes, comprising: a pair of charging electrodes configured to overhang the roof of the electric vehicle; a connector arm including a first end and a second end, wherein (a) the first end of the connector arm is connected to the pair of charging electrodes, and (b) the second end of the connector arm is pivotably coupled to a support structure at a pivot such that the connector arm is configured to rotate about the pivot about an axis substantially parallel to the roof of the electric vehicle; and a positioning device configured to rotate the connector arm at the pivot to decrease a gap between the pair of charging electrodes and the roof-mounted charge-receiving electrodes of the electric vehicle to establish contact therebetween. 16. The charging station of claim 15 , further including a DC power source electrically connected to the pair of charging electrodes. 17. The charging station of claim 15 , further including an energy buffer device electrically coupled to the pair of charging electrodes, the energy buffer device being configured to be charged using electrical power from an utility grid during times of lower energy cost and provide power to the pair of charging electrodes during times of higher energy cost. 18. The charging station of claim 17 , wherein the energy buffer device includes a plurality of batteries. 19. A charging station for an electric bus having roof-mounted charge-receiving electrodes, comprising: a pair of charging electrodes configured to overhang the roof of the electric bus, wherein the pair of charging electrodes includes two linear electrodes arranged parallel to each other; a connector arm including a first end and a second end, wherein (a) the first end of the connector arm is connected to the pair of charging electrodes, and (b) the second end of the connector arm is pivotably coupled to a support structure at a pivot such that the connector arm is configured to rotate about the pivot about an axis substantially parallel to the roof of the electric bus; and a positioning device configured to rotate the connector arm at the pivot to decrease a gap between the pair of charging electrodes and the roof-mounted charge-receiving electrodes of the electric bus to establish contact therebetween. 20. The charging station of claim 19 , further including an energy buffer device electrically coupled to the pair of charging electrodes, the energy buffer device being configured to be charged using electrical power from an utility grid during times of lower energy cost and provide power to the pair of charging electrodes during times of higher energy cost.