Aerial lighting fixture connector

The invention claimed is: 1. A system to couple a controller to a roadside aerial lighting fixture, comprising: a primary male connector integrated with the controller; a primary female connector integrated with the roadside aerial lighting fixture, wherein the primary male connector is arranged for substantially permanent coupling to the primary female connector, wherein the primary male and female connectors are compliant with a roadway area lighting standard promoted by a standards body; a first substantially planar surface integrated with the controller and having the primary male connector protruding therefrom, wherein electrical contacts of the primary male connector are arranged about a first central axis, the first central axis being substantially normal to the first substantially planar surface; a second substantially planar surface integrated with the roadside aerial lighting fixture and having the primary female connector recessed therein, wherein electrical contacts of the primary female connector are arranged about a second central axis, the second central axis being substantially normal to the second substantially planar surface; a controller-side data connector integrated with and protruding from the first substantially planar surface or a third surface substantially parallel to the first substantially planar surface; and a fixture-side data connector integrated with and recessed within the second substantially planar surface or recessed within a fourth surface substantially parallel to the second substantially planar surface, wherein the primary male connector is electrically coupled to the primary female connector and the controller-side data connector is communicatively coupled to the fixture-side data connector when the controller is rotatably coupled to the roadside aerial lighting fixture. 2. The system of claim 1 , wherein the primary male and primary female connectors are compliant with American National Standards Institute (ANSI) C136. 3. The system of claim 2 , wherein the primary male and primary female connectors are compliant with ANSI C136.41-2013. 4. The system of claim 1 , wherein the controller-side data connector and the fixture-side data connector are multi-conduit connectors arranged to pass packetized digital data. 5. The system of claim 1 , wherein the controller-side data connector and the fixture-side data connector are optically based connectors. 6. The system of claim 1 , wherein the controller-side data connector has a semi-circular shape arranged about the first central axis, wherein the fixture-side data connector has a semi-circular shape arranged about the second central axis, and wherein the fixture-side data connector receives the controller-side data connector when the controller is rotatably coupled to the roadside aerial lighting fixture. 7. The system of claim 1 , wherein the controller-side data connector includes a plurality of pins and wherein the fixture-side data connector includes a plurality of sockets, wherein each of the plurality of pins of the controller-side data connector has a corresponding socket in the fixture-side data connector. 8. The system of claim 1 , wherein the controller-side data connector includes a plurality of spring contacts and wherein the fixture-side data connector includes a plurality of contacts, wherein each of the plurality of spring contacts of the controller-side data connector has a corresponding contact in the fixture-side data connector. 9. The system of claim 1 , wherein the controller-side data connector includes a plurality of contacts and wherein the fixture-side data connector includes a plurality of contacts, wherein at least some of the plurality of contacts of the controller-side data connector or at least some of the plurality of contacts of the fixture-side data connector are spring contacts. 10. The system of claim 1 , wherein at least one of the controller-side data connector and the fixture-side data connector includes a registration feature. 11. The system of claim 1 , wherein the controller-side data connector is electromechanically coupled to the fixture-side data connector when the controller is rotatably coupled to the roadside aerial lighting fixture. 12. The system of claim 1 , wherein the primary male connector and the controller-side data connector are the only connectors associated with the first planar surface or the third surface. 13. The system of claim 1 , wherein the controller-side data connector is arranged to pass signals according to an Ethernet protocol. 14. The system of claim 1 , wherein the controller-side data connector is arranged to pass signals according to a power-over-Ethernet (PoE) protocol. 15. An aerially mountable electronic control device, comprising: a first primary connector arranged for substantially permanent coupling to a corresponding second primary connector, wherein the first and second primary connectors are compliant with a roadway area lighting standard promoted by a standards body; a substantially planar surface having either protruding therefrom or recessed therein the first primary connector, wherein electrical contacts of the first primary connector are arranged about a central axis, the central axis being substantially normal to the planar surface; and integrated with the substantially planar surface or another surface parallel to the substantially planar surface, a first multi-conduit data connector arranged for substantially permanent coupling to a corresponding second multi-conduit data connector, wherein the first multi-conduit data connector is separate and distinct from the first primary connector. 16. The aerially mountable electronic control device of claim 15 , wherein the first multi-conduit data connector is arranged to partially rotate about the central axis when the aerially mountable electronic control device is rotatably coupled to a roadside aerial lighting fixture, said partial rotation arranged to form a communicative coupling between conduits of the first multi-conduit data connector and the corresponding second multi-conduit data connector. 17. The aerially mountable electronic control device of claim 15 , wherein the first multi-conduit data connector includes: a plurality of leaf spring contacts. 18. The aerially mountable electronic control device of claim 15 , wherein the first multi-conduit data connector includes: a plurality of pins aligned substantially parallel to the central axis. 19. The aerially mountable electronic control device of claim 15 , wherein the first multi-conduit data connector includes: a plurality of pins aligned substantially parallel to the substantially planar surface. 20. A method, comprising: controlling a light source of a roadside aerial lighting fixture with a controller that is electrically coupled to the roadside aerial lighting fixture via a primary male connector integrated with the controller and a primary female connector integrated with the roadside aerial lighting fixture, wherein the primary male and female connectors are compliant with a roadway area lighting standard promoted by a standards body; and communicating control signals between the controller and the aerial lighting fixture, said control signals passing through a controller-side data connector integrated with the controller and a fixture-side data connector integrated with the roadside aerial lighting fixture, said controller-side data connector being communicatively coupled to the fixture-side data connector via the controller being r