Coupler for electric vehicle charging station

What is claimed is: 1. A method, comprising: receiving first identification information comprising a fingerprint scan from a fingerprint reader of a coupler; transmitting a first signal to unlock the coupler so that the coupler may be removed from a charging station, wherein transmitting the first signal comprises supplying electric power to an actuator within the coupler to move the actuator into an unlock position; detecting a connection between the coupler and an electric vehicle; transmitting a second signal to lock the coupler to the electric vehicle in response to detecting the connection to the electric vehicle, wherein transmitting the second signal comprises supplying electric power to the actuator within the coupler to move the actuator into a lock position; allowing the charging station to charge a battery of the electric vehicle; determining whether a user is authorized to remove the coupler from the electric vehicle; transmitting a third signal to unlock the coupler so that the coupler may be removed from the electric vehicle in response to determining that the user is authorized to remove the coupler, wherein transmitting the third signal comprises supplying electric power to the actuator within the coupler to move the actuator into the unlock position; detecting a connection between the coupler and a charging station receptacle of the charging station; and transmitting a fourth signal to lock the coupler to the charging station receptacle in response to detecting the connection to the charging station receptacle, wherein transmitting the fourth signal comprises supplying electric power to the actuator within the coupler to move the actuator into the lock position. 2. The method of claim 1 , wherein the determining of whether the user is authorized comprises: receiving second identification information; and comparing the second identification information with the first identification information, wherein the user is authorized when the second identification information matches the first identification information. 3. The method of claim 2 , wherein the second identification information is received from the fingerprint reader. 4. A method, comprising: receiving first identification information; transmitting a signal to unlock a coupler so that the coupler may be removed from a charging station; detecting a connection between the coupler and an electric vehicle; transmitting a signal to lock the coupler to the electric vehicle in response to detecting the connection to the electric vehicle; allowing a charging of a battery of the electric vehicle; determining whether a user is authorized to remove the coupler from the electric vehicle, wherein the determining of whether the user is authorized comprises: receiving second identification information; and comparing the second identification information with the first identification information, wherein the user is authorized when the second identification information matches the first identification information; transmitting a signal to unlock the coupler so that the coupler may be removed from the electric vehicle in response to determining that the user is authorized to remove the coupler; detecting a connection between the coupler and a charging station receptacle of the charging station; and transmitting a signal to lock the coupler to the charging station receptacle in response to detecting the connection to the charging station receptacle, wherein the first identification information and the second identification information are received from a common identification device (ID device), and wherein the ID device is located on the coupler. 5. The method of claim 1 , wherein the determining of whether the user is authorized comprises: receiving second identification information; and determining whether the second identification information identifies the same user that the first identification information identifies, wherein the user is authorized when the second identification information and the first identification information identify the same user, and wherein the first identification information and the second identification information are received from different devices. 6. The method of claim 1 , further comprising: identifying a user based on the first identification information, wherein determining whether the user is authorized to remove the coupler includes determining whether the user is the identified user. 7. The method of claim 1 , wherein the actuator comprises a solenoid within the coupler. 8. An electric vehicle charging station, comprising: a control box configured to house control electronics configured to control an electric power supply for charging an electric vehicle; a cable connected to the control box, the cable including a plurality of conductors for delivering the electric power supply; a charging station receptacle located on an outside of the control box; and a coupler arranged at an end of the cable, the coupler comprising a fingerprint reader incorporated into a button and a locking mechanism configured to lock the coupler to the electric vehicle, to lock the coupler to the charging station receptacle, and to unlock the coupler in response to a signal indicating that a user has been authorized to remove the coupler, wherein the locking mechanism comprises an actuator, within the coupler, that is configured to move between a lock position and an unlock position in response to electrical signals provided by the electric vehicle charging station. 9. The electric vehicle charging station of claim 8 , wherein the locking mechanism further comprises: a snap configured to move in response to movement of the button and to latch onto the charging station receptacle and the electric vehicle, wherein the actuator is configured to lock the coupler to the charging station or the electric vehicle by preventing a user from moving the snap. 10. The electric vehicle charging station of claim 8 , further comprising: a processor; and memory storing computer-executable instructions that, when executed by the processor, cause the electric vehicle charging station to: receive identification information obtained by the fingerprint reader; determine whether the identification information identifies a user who is authorized to remove the coupler; and output the signal to the actuator to unlock the coupler when determining that the user is authorized to remove the coupler. 11. The electric vehicle charging station of claim 8 , wherein the actuator comprises a solenoid. 12. The electric vehicle charging station of claim 8 , wherein the coupler further comprises: a snap configured to latch onto a groove of the electric vehicle; and a lever configured to raise the snap above the groove. 13. The electric vehicle charging station of claim 8 , wherein the coupler further comprises: a stopper configured to move between a stopper lock position and a stopper unlock position in response to movement of the actuator, wherein the stopper physically blocks the button from moving when the stopper is in the stopper lock position. 14. A coupler, comprising: a handle including a face having contacts therein for electrically connecting conductors in a cable of an electric vehicle charging station to an electric vehicle inlet; a button attached to the handle and configured to move between a first position and a second position; a fingerprint reader incorporated into the button; and a locking mechanism configured to lock the coupler to a receptacle of the electric vehicle charging station, to lock the coupler to t