Control modules having integral antenna components for luminaires and wireless intelligent lighting systems containing the same

What is claimed is: 1. A sensor and control module comprising: a housing; a lens; a lens fastener configured to attach the lens to an outer surface of the housing; a light responsive detector located in the housing so as to receive light through the lens; circuitry configured to generate a control signal dependent on the light sensed by the light responsive detector; an antenna formed as an integral component of the lens fastener, the antenna at least partially encircling the lens; and a wireless radio-frequency transmitter coupled to the antenna and configured to wirelessly transmit the control signal via the antenna. 2. The sensor and control module of claim 1 , wherein the antenna is plated on a surface of the lens fastener. 3. The sensor and control module of claim 2 , wherein the antenna comprises one or more laser-direct-structuring (LDS) metal traces on the surface of the lens fastener. 4. The sensor and control module of claim 1 , wherein the antenna is embedded in the lens fastener. 5. The sensor and control module of claim 1 , wherein: the antenna is formed as an integral component of the lens fastener, the sensor and control module further comprises a circuit board assembly within the housing, and the circuitry is provided on the circuit board assembly. 6. The sensor and control module of claim 5 , wherein the circuit board assembly includes a spring contact configured to contact a component of the antenna on the lens fastener so as to electrically connect the antenna to the circuitry. 7. A luminaire comprising: a housing having an endcap with a module mounting aperture; a light source within the housing; and a wireless lighting control module coupled to control operation of the light source, the wireless lighting control module including: a lens; a module housing; a lens fastener configured to extend through the module mounting aperture to attach the lens to the module housing with the endcap positioned between the lens fastener and the module housing to also attach the module housing to the endcap; a wireless transceiver located within the module housing; and an antenna formed as an integral component of the lens fastener at a location at least partially outside the wireless lighting control module and so as to extend outside a portion of interior space of the luminaire at least partially enclosed by the endcap, the antenna being coupled to the wireless transceiver, and the antenna at least partially encircling the lens. 8. The luminaire of claim 7 , wherein: the control module further comprises a circuit board within the housing; and circuitry provided on the circuit board includes the wireless transceiver. 9. The luminaire of claim 8 , wherein the lens fastener is removably attached to the module housing. 10. The luminaire of claim 9 , wherein the circuit board includes a spring contact configured to contact a component of the antenna on the lens fastener so as to electrically connect the antenna to the wireless transceiver. 11. The luminaire of claim 10 , wherein the antenna is plated on a surface of the lens fastener or the housing. 12. The luminaire of claim 11 , wherein the antenna comprises one or more laser-direct-structuring (LDS) metal traces on the surface of the lens fastener. 13. The luminaire of claim 10 , wherein the antenna is embedded in the lens fastener. 14. The luminaire of claim 9 , wherein the lens fastener further comprises one or more male prongs that mate with one or more corresponding slots in the module housing. 15. The luminaire of claim 14 , wherein the one or more male prongs include a detent to engage the slots in the module housing and retain the lens fastener to the module housing. 16. The luminaire of claim 14 , wherein the one or more male prongs is configured to facilitate mating with the one or more corresponding slots when the lens fastener is positioned correctly relative to the module housing. 17. The luminaire of claim 14 , wherein the one or more male prongs is provided with contact pads for contacting an associated connector on the circuit board to connect the antenna to the circuit board. 18. The luminaire of claim 9 , wherein the light source comprises a light emitting diode (LED) source. 19. The luminaire of claim 9 , wherein the antenna has a length in a range of 50 to 100 mm, the length corresponding to a frequency of operation of the wireless transceiver. 20. The luminaire of claim 7 , further comprising: a circuit board within the housing, a light responsive detector located in the module housing so as to receive light through the lens; wherein circuitry provided on the circuit board includes the wireless transceiver, and the circuitry is configured to generate a control signal dependent on the light sensed by the light responsive detector; and the wireless transceiver is configured to wirelessly transmit the control signal via the antenna. 21. A luminaire comprising: a housing having an endcap with a module mounting aperture; a light source within the housing; and a wireless lighting control module coupled to control operation of the light source, the wireless lighting control module including: a lens; a module housing having a portion extending through the module mounting aperture; a lens fastener configured to attach the lens to the portion of the module housing; a module fastener attached to the portion of the module housing with the endcap positioned between the module fastener and the module housing to also attach the module housing to the endcap; a wireless transceiver located within the module housing; and an antenna formed as an integral component of the module housing, the antenna being coupled to the wireless transceiver, and the antenna at least partially encircling the lens. 22. The luminaire of claim 21 , wherein the control module further comprises: a circuit board within the housing; and circuitry provided on the circuit board includes the wireless transceiver. 23. The luminaire of claim 22 , wherein the circuit board includes a spring contact configured to contact a component of the antenna on the module housing so as to electrically connect the antenna to the wireless transceiver. 24. The luminaire of claim 21 , wherein the antenna is plated on a surface of the module housing. 25. The luminaire of claim 24 , wherein the antenna comprises one or more laser-direct-structuring (LDS) metal traces on the surface of the module housing. 26. The luminaire of claim 21 , wherein the antenna is embedded in the module housing. 27. The luminaire of claim 21 , further comprising: a circuit board within the housing, a light responsive detector located in the module housing so as to receive light through the lens; wherein circuitry provided on the circuit board includes the wireless transceiver, and the circuitry is configured to generate a control signal dependent on the light sensed by the light responsive detector; and the wireless transmitter is configured to wirelessly transmit the control signal via the antenna.