Diagnostic receptacle for electric vehicle supply equipment

What is claimed is: 1. A method comprising: detecting, by electric vehicle supply equipment configured to provide electric power to an electric vehicle, whether a connector of the electric vehicle supply equipment is electrically connected to a receptacle of the electric vehicle supply equipment; obtaining, by the electric vehicle supply equipment, electrical measurements at an end of one or more conductors accessible via the connector; determining a status of the one or more conductors based on the obtained electrical measurements; and indicating whether the electric vehicle supply equipment is available for use. 2. The method of claim 1 , wherein the detecting whether the connector of the electric vehicle supply equipment is electrically connected to the receptacle of the electric vehicle supply equipment comprises: closing a switch in the connector after the connector is electrically connected to the receptacle; and detecting, by the electric vehicle supply equipment, whether the switch is closed. 3. Electric vehicle supply equipment, comprising: a control box comprising control electronics configured to control whether current passes through a plurality of power lines; a connector comprising a first end and a second end, the second end being configured to connect to an inlet of an electric vehicle; a cable extending from a first part of the control box to a first end of the connector and comprising the plurality of power lines, wherein the plurality of power lines are configured to connect to an electric power source and provide electricity through the cable to the first end of the connector to supply electric power to an electric vehicle; a receptacle located on a second part of the control box and configured to electrically connect to the connector through the second end of the connector; and a diagnostic unit configured to perform a diagnostic test on a particular conductor within the connector when the connector is electrically connected to the receptacle. 4. The electric vehicle supply equipment of claim 3 , wherein the particular conductor comprises any one of a plurality of conductors accessible via the receptacle of the electric vehicle supply equipment, the plurality of conductors comprising the plurality of power lines, a proximity line, a control pilot line, and a ground line. 5. The electric vehicle supply equipment of claim 3 , wherein the diagnostic unit is configured to generate a stimulus and transmit the stimulus onto the particular conductor within the connector when the connector is electrically connected to the receptacle, and wherein the diagnostic test comprises measuring one of a continuity of the particular conductor, a resistance or impedance of the particular conductor, a capacitance between the particular conductor and another conductor, a leakage current of the particular conductor, a pulse width or frequency of a pulse width modulated signal on the particular conductor, a time between transmission and reception of a reflected signal transmitted on the particular conductor, a time to open or close a contactor, or a contact resistance of the particular conductor. 6. The electric vehicle supply equipment of claim 3 , further comprising: an output device configured to indicate a status of the electric vehicle supply equipment based on results of the diagnostic test, wherein the diagnostic test comprises determining whether the particular conductor is damaged or whether an insulation of the particular conductor is damaged. 7. The electric vehicle supply equipment of claim 3 , further comprising: the control electronics configured to control whether current passes through the plurality of power lines, wherein the diagnostic unit is electrically connected to the control electronics. 8. The electric vehicle supply equipment of claim 3 , further comprising: a monitoring circuit configured to detect a voltage at an end of the particular conductor, wherein the voltage is controlled by the diagnostic unit, and wherein the diagnostic unit is configured to determine whether the monitoring circuit is functioning properly. 9. The electric vehicle supply equipment of claim 3 , wherein the diagnostic unit is configured to distinguish a case in which the connector is electrically connected to an electric vehicle and a case in which the connector is electrically connected to the receptacle of the electric vehicle supply equipment. 10. The electric vehicle supply equipment of claim 3 , wherein the particular conductor has a first end coupled to the first part of the control box and a second end electrically connected to the connector, and wherein the receptacle is further configured to electrically connect to the particular conductor through the connector. 11. The electric vehicle supply equipment of claim 3 , further comprising: a proximity circuit configured to detect whether the connector is electrically connected to the receptacle, wherein the proximity circuit comprises a switch configured to close while the connector is electrically connected to the receptacle. 12. The electric vehicle supply equipment of claim 11 , wherein the switch is actuated by one of: a mechanical device configured to close the switch when conductive contact points of the connector physically contact conductive contact points of the receptacle; or a manual device configured to close the switch in response to a user's action in addition to moving the connector so that the conductive contact points of the connector physically contact the conductive contact points of the receptacle. 13. The electric vehicle supply equipment of claim 3 , wherein the connector comprises one or more conductive contact points and the receptacle comprises one or more conductive contact points arranged to electrically connect to each of the conductive contact points of the connector, respectively. 14. The electric vehicle supply equipment of claim 3 , wherein the connector allows access to an end of each of the plurality of power lines, a proximity line, a control pilot line, and a ground line, and wherein the receptacle comprises a plurality of conductive contact points arranged to electrically connect to each of the accessible ends, respectively. 15. Electric vehicle supply equipment, comprising: a control box comprising control electronics configured to control whether current passes through a plurality of power lines, the plurality of power lines configured to supply electric power to an electric vehicle, each of the power lines having a first end electrically coupled to an electric power source; a connector comprising a first end and a second end, the second end being configured to electrically connect a second end of each of the plurality of power lines to an electric vehicle; a cable extending from a first part of the control box to a first end of the connector; a receptacle located on a second part of the control box and configured to directly and electrically connect to the second end of the connector; and a diagnostic unit electrically connected to the receptacle and configured to perform a diagnostic test on a particular conductor within the connector when the connector is electrically connected to the receptacle, wherein the particular conductor comprises any one of a plurality of conductors accessible via the receptacle, the plurality of conductors comprising the plurality of power lines, a proximity line, a control pilot line, and a ground line. 16. The electric vehicle supply equipment of claim 15 , wherein the particular conductor has a first end electrically connected