Charging cable with controller

What is claimed is: 1. A charging cable configured to electrically couple a vehicle battery to a utility power source comprising: a vehicle connector configured to connect to a charging port on a vehicle; a data module configured to receive utility data from the utility power source and to receive vehicle data from the vehicle; and a control module communicatively coupled to the data module, the control module configured to connect the utility power source to the charging port based on both the utility data and the vehicle data; wherein: the utility data includes utility rates including a cost of electricity based on a utility rate schedule that includes different rates based on each of the following: a time of day, a time of year, and peak electricity demand; the vehicle data includes a vehicle battery level; and the control module is configured to connect the utility source to the charging port based on the vehicle battery level as well as a re-charging cost based on the utility rate schedule in combination with each of the following: the time of day, the time of year, and the peak electricity demand. 2. The charging cable according to claim 1 further comprising a communication module communicatively coupled to the data module, the communication module configured to send and receive the utility data and the vehicle data over a network. 3. The charging cable according to claim 1 the control module further comprising a processor that determines a charging schedule based on the utility data and the vehicle data. 4. The charging cable according to claim 1 further comprising a user interface configured to display a charging status of the vehicle battery, and configured to accept user input. 5. The charging cable according to claim 1 further comprising a charging status indicator configured to display a charging status. 6. The charging cable according to claim 1 further comprising a utility power status indicator configured to display a utility power status. 7. The charging cable according to claim 6 wherein the utility power status comprises power connection status and ground connection status. 8. A vehicle charging cable comprising: a data communication system configured to communicate with a home area network and configured to communicate with a vehicle; a control system comprising: a data module communicatively coupled to the data communication system, the data module configured to retain utility rate data, and power usage information, wherein: the utility data includes utility rates including a cost of electricity based on a utility rate schedule that includes different rates based on each of the following: a time of day, a time of year, and peak electricity demand; and a control module communicatively coupled to the data module and configured to connect a utility power source and a charging port, wherein the control module calculates a charging schedule based on both the utility rate data and the power usage information, and specifically based on the power usage information and a re-charging cost based on the utility rate schedule in combination with each of the following: the time of day, the time of year, and the peak electricity demand; and a user interface configured to display charging status of the vehicle battery, and configured to accept user input. 9. The vehicle charging cable according to claim 8 wherein the control system further comprises a measurement module communicatively coupled to the data module, the measurement module configured to measure electrical power usage and to produce usage data, wherein the usage data is stored in the data module. 10. The vehicle charging cable according to claim 9 , the measurement module comprising a current meter configured to measure electrical current passing through the vehicle charging cable. 11. A device comprising: a vehicle connector connected to a power cable configured to supply power for charging a vehicle battery, wherein the vehicle connector is configured to connect to a vehicle with a charging port; and a control module connected to the power cable wherein the control module is configured to receive utility data from a utility power source and to receive vehicle data from the vehicle, and to connect power supplied to the vehicle battery based on both the utility data and the vehicle data, wherein: the utility data includes utility rates including a cost of electricity based on a utility rate schedule that includes different rates based on each of the following: a time of day, a time of year, and peak electricity demand; the vehicle data includes a vehicle battery level; and the control module is configured to connect the utility source to the charging port based on the vehicle battery level and a re-charging cost based on the utility rate schedule in combination with each of the following: the time of day, the time of year, and the peak electricity demand. 12. The device according to claim 11 further comprising a utility connector connected to the power cable, wherein the utility connector is configured to connect to a utility power socket. 13. The device according to claim 11 wherein the power cable comprises a utility end and a vehicle end, and wherein the control module comprises a first module at the utility end of the cable, and a second module at the vehicle end of the cable, the power cable further comprising a communication cable communicatively coupled to the first module and the second module. 14. The device according to claim 11 wherein the device comprises a transmitter communicatively coupled to the control module, wherein the transmitter is configured to transmit the vehicle data. 15. The device according to claim 11 wherein the device comprises a display communicatively coupled to the control module, wherein the display is configured to indicate a charging status of the vehicle battery. 16. The device according to claim 15 wherein the display comprises a light emitting diode. 17. The device according to claim 11 wherein the device comprises a user input device configured to transmit a user input signal to the control module, and wherein the control module is configured to further adjust the power supplied to the vehicle battery based on the user input signal from the user input device. 18. The charging cable of claim 1 , further comprising: a measurement module communicatively coupled to the data module, the measurement module configured to measure vehicle electrical power usage data for the vehicle, wherein the vehicle electrical power usage data is retained in the data module; wherein the control module is configured to connect the utility source to the charging port based on the vehicle battery level, the vehicle electrical power usage data for the vehicle, and the re-charging cost based on the utility rate schedule in combination the vehicle electrical power usage data in addition to each of the following: the time of day, the time of year, and the peak electricity demand. 19. The charging cable of claim 18 , wherein: the data module is configured to receive electric grid power usage information for an electrical grid that is used to provide electrical power for the vehicle; and the control module is configured to connect the utility source to the charging port based on the vehicle battery level, the vehicle electrical power usage data for the vehicle, the electrical grid power usage information for the electrical grid, and the re-charging cost based on the utility rate schedule in combination the vehicle electrical pow