Charger having retractable cooling surface

What is claimed is: 1. A device comprising: a charger case; charging electronics supported within the charger case; an electrical connector coupled to the charging electronics for coupling to a power source; and a cooling element that is mechanically and thermally coupled to the charger case, and that is extendable to an extended position from the charger case such that a cooling surface area of the charger case is increased, wherein the cooling element comprises a planar surface, wherein the planar surface comprises a first hinged fin rotatable about a first hinge coupled to the charger case from a position coplanar and adjacent to a first surface of the charger case to a position extending at an angle greater than zero from the first surface, and wherein the planar surface comprises a second hinged fin rotatable about a second hinge coupled to the charger case from a position coplanar and adjacent to a second surface of the charger case to a position extending at an angle greater than zero from the second surface. 2. The device of claim 1 , wherein the planar surface comprises a first extendable fin that is extendible from within the charger case to a position extending orthogonally from a first surface of the charger case. 3. The device of claim 2 , wherein the planar surface comprises a second extendable fin that is extendible from within the charger case to a position extending orthogonally from a second surface of the charger case. 4. The device of claim 1 , wherein a volume of the device with the cooling element extended is substantially the same as a volume of the device with the cooling element in a retracted position. 5. The device of claim 1 , and further comprising a trigger coupled to the cooling element, the trigger configured to extend the cooling element when actuated. 6. The device of claim 5 , wherein the trigger is supported by the charger case such that coupling the electrical connector to an alternating current power source actuates the trigger to extend the cooling element. 7. The device of claim 2 , wherein the first extendible fin comprises a sleeve extendable from a first end of the charger case opposite a second end supporting the electrical connector. 8. A device comprising: a charger case; charging electronics supported within the charger case; an electrical connector coupled to the charging electronics and positioned on a first end of the charger case configured to couple to a power socket to access a power source; and a cooling element that is mechanically and thermally coupled to the charger case, and that is extendable from a retracted position to an extended position, wherein the cooling element comprises a planar surface, wherein the planar surface comprises a first hinged fin rotatable about a first hinge coupled to the charger case from a position coplanar and adjacent to a first surface of the charger case to a position extending at an angle greater than zero from the first surface, and wherein the planar surface comprises a second hinged fin rotatable about a second hinge coupled to the charger case from a position coplanar and adjacent to a second surface of the charger case to a position extending at an angle greater than zero from the second surface. 9. The device of claim 8 , wherein the cooling element increases a device cooling surface area from the extended position to passively disperse heat generated by the charging electronics. 10. The device of claim 8 , wherein a volume of the device with the cooling element extended is substantially the same as a volume of the device with the cooling element in a retracted position. 11. The device of claim 8 , further comprising: a trigger coupled to the cooling element, the trigger configured to extend the cooling element when actuated wherein the trigger is supported by the charger case such that coupling the electrical connector to an alternating current power source actuates the trigger to extend the cooling element. 12. A method comprising: forming a battery charger case with a cooling element, wherein the cooling element is mechanically and thermally coupled to the battery charger case, wherein the cooling element comprises a planar surface, wherein the planar surface comprises a first hinged fin rotatable about a first hinge coupled to the battery charger case from a position coplanar and adjacent to a first surface of the battery charger case to a position extending at an angle greater than zero from the first surface, and wherein the planar surface comprises a second hinged fin rotatable about a second hinge coupled to the battery charger case from a position coplanar and adjacent to a second surface of the battery charger case to a position extending at an angle greater than zero from the second surface; and forming a trigger coupled to the battery charger case and the planar surface to controllably move the planar surface between a retracted position and an extended position. 13. The method of claim 12 , wherein the trigger comprises a mechanical trigger actuated responsive to coupling the battery charger case to a power source via electrical connectors extending from the battery charger case. 14. The method of claim 12 , wherein the trigger comprises an electrically actuated trigger actuated responsive to coupling the battery charger case to a power source via electrical connectors extending from the battery charger case.