System and method for charging portable electronic devices within a vehicle

We claim: 1. A system for charging a portable electronic device within a vehicle, comprising: a plurality of device chargers configured to charge a power source of a portable electronic device in a charging mode, the plurality of device chargers having respective predetermined locations; at least one transmitter configured to be associated with a portable electronic device, the transmitter emitting at least one type of wireless signal; a plurality of detectors that are configured to be supported on a vehicle, the plurality of detectors detecting the wireless signal from the at least one transmitter; and a controller that utilizes information from the detectors regarding a detected wireless signal from the at least one transmitter and determines a location of the at least one transmitter relative to the plurality of device chargers, the controller controls at least a selected one of the device chargers to operate in the charging mode based on a proximity between the determined location of the at least one transmitter and the predetermined location of the selected one of the device chargers, wherein the controller is configured to: communicate with a vehicle navigation system; determine an approximate remaining time of a current trip; determine a rate at which a portable electronic device is being charged; determine whether the rate is sufficient to provide a complete charge to the portable electronic device during the remaining time; and provide an indication to change a position of the portable electronic device relative to the selected device charger if changing the position will increase a likelihood of achieving a complete charge within the remaining time. 2. The system of claim 1 , comprising a user interface that provides information regarding a position of the at least one transmitter relative to at least the selected one of the device chargers. 3. The system of claim 2 , wherein the user interface provides an indication of a movement of a portable electronic device associated with the at least one transmitter that will place the portable electronic device into a position where the selected one of the device chargers can charge the power source of the portable electronic device. 4. The system of claim 3 , wherein the controller determines an orientation of the portable electronic device relative to the selected one of the device chargers; and the user interface provides an indication of an adjustment of the orientation of the portable electronic device to facilitate charging the power source of the portable electronic device. 5. The system of claim 1 , wherein the controller is configured to determine a rate of charging provided by the selected one of the device chargers; and determine an adjustment of a position of the portable electronic device associated with the at least one transmitter if the rate of charging is below a predetermined level. 6. The system of claim 1 , wherein the controller is configured to determine a charge level of the power source of the portable electronic device associated with the at least one transmitter; and selectively control whether the selected one of the device chargers operates in the charging mode based on the determined charge level. 7. The system of claim 1 , wherein the controller is configured to determine a charge level of at least one portable electronic device; and provide a recommendation to place the portable electronic device close to a selected device charger if the determined charge level is below a threshold. 8. The system of claim 1 , wherein the controller is configured to determine that a particular portable electronic device is likely to be used for a task during a trip based on schedule information obtained by the controller; determine a charge level of the particular portable electronic device; and provide an indication to move the particular portable electronic device into a position near the selected charging device if the determined charge level appears inadequate to facilitate performing the task. 9. The system of claim 1 , wherein the at least one transmitter is configured to be secured to an exterior of the portable electronic device, configured to be secured to a case that is configured to receive the portable electronic device, or included within the portable electronic device. 10. The system of claim 1 , wherein each device charger has a power-saving, inactive mode during which the device charger does not operate to provide charge to a portable electronic device; and each device charger remains in the power-saving, inactive mode unless the controller causes the device charger to operate in the charging mode. 11. A vehicle comprising the system of claim 1 , wherein the detectors are supported on the vehicle to detect the wireless signal at least when the at least one transmitter is within an interior of the vehicle; and the device chargers are situated in predetermined locations in the vehicle interior. 12. A method of charging a portable electronic device, the method comprising: detecting a wireless signal from at least one transmitter using a plurality of detectors that are configured to be supported on a vehicle, the at least one transmitter being configured to be associated with a portable electronic device; determining a location of the at least one transmitter relative to a plurality of device chargers based on the detected wireless signal, the plurality of device chargers being configured to charge a power source of a portable electronic device in a charging mode, the plurality of device chargers having respective predetermined locations; controlling at least a selected one of the device chargers to operate in the charging mode based on a proximity between the determined location of the at least one transmitter and the predetermined location of the selected one of the device chargers; determining an approximate remaining time of a current trip based on information from a vehicle navigation system; determining a rate at which a portable electronic device is being charged; determining whether the rate is sufficient to provide a complete charge to the portable electronic device during the remaining time; and providing an indication to change a position of the portable electronic device relative to the selected device charger if changing the position will increase a likelihood of achieving a complete charge within the remaining time. 13. The method of claim 12 , comprising providing information through a user interface regarding a position of the at least one transmitter relative to at least the selected one of the device chargers. 14. The method of claim 13 , comprising using the user interface to provide an indication of a movement of a portable electronic device associated with the at least one transmitter that will place the portable electronic device into a position where the selected one of the device chargers can charge the power source of the portable electronic device. 15. The method of claim 12 , wherein the at least one transmitter comprises a plurality of transmitters associated with one portable electronic device; and the method comprises determining an orientation of the portable electronic device relative to the selected one of the device chargers based on signals from the plurality of transmitters; and using the user interface to provide an indication of an adjustment of the orientation of the portable electronic device to facilitate charging the power source of the portable electronic device. 16. The method of claim 12 , comprising determining a rate of