Modular lighting control

What is claimed is: 1. A modular lighting system comprising: a bridge module; an array of LEDs; a driver module providing a communication port and adapted to: drive the array of LEDs in response to information received from the bridge module; and provide power via a power port to the bridge module, wherein the bridge module is adapted to communicate with the driver module over a communication bus using a first protocol and communicate with a remote control system using a second protocol, which is different from the first protocol, wherein the driver module comprises rectifying circuitry and conversion circuitry adapted to convert an AC input signal into a DC power signal that is used to supply the power to the power port; and at least one auxiliary module, which is adapted to communicate with the driver module and the bridge module via the communication bus, wherein the at least one auxiliary module provides information used to determine how the driver module should control the array of LEDs. 2. The modular lighting system of claim 1 , wherein the driver module is further adapted to: drive the array of LEDs in response to the information received from the at least one auxiliary module such that the driver module is configured to be controlled by the at least one auxiliary module and the information received from the bridge module, wherein: the at least one auxiliary module comprises an occupancy sensor and the driver module is adapted to receive occupancy related information from the occupancy sensor; and the driver module is configured to provide power directly to the bridge module via the power port. 3. The modular lighting system of claim 2 wherein the information received from the at least one auxiliary module bears on a sensor reading of a sensor associated with the at least one auxiliary module. 4. The modular lighting system of claim 2 wherein the driver module is further adapted to send information bearing on the driver module to the at least auxiliary module. 5. The modular lighting system of claim 2 wherein communications with the at least one auxiliary module uses a standard protocol. 6. The modular lighting system of claim 2 wherein the driver module is further adapted to receive information identifying a type associated with the at least one auxiliary module coupled to the communication bus. 7. The modular lighting system of claim 2 further comprising a second auxiliary module coupled to the communication bus, wherein the driver module is adapted to communicate with both the at least one auxiliary module and the second auxiliary module. 8. The modular lighting system of claim 2 wherein the bridge module is further adapted to support a plurality of protocols including the second protocol and determine that the second protocol is an appropriate one of the plurality of protocols to use for communications with the remote control system. 9. The modular lighting system of claim 2 wherein the driver module receives commands to control how the array of LEDs should be driven from the remote control system via the bridge module. 10. The modular lighting system of claim 2 wherein the at least one auxiliary module comprises a temperature sensor and the driver module is adapted to receive temperature related information from the at least one auxiliary module. 11. The modular lighting system of claim 2 wherein the at least one auxiliary module comprises a light sensor and the driver module is adapted to receive light related information from the at least one auxiliary module. 12. The modular lighting system of claim 2 wherein the at least one auxiliary module is adapted to provide emergency lighting control and the driver module is adapted to receive emergency lighting information from the at least one auxiliary module. 13. The modular lighting system of claim 2 wherein the at least one auxiliary module is adapted to provide emergency lighting control and the driver module is adapted to provide emergency lighting information to the at least one auxiliary module. 14. The modular lighting system of claim 2 further comprising a second auxiliary module and the at least one auxiliary module and the second auxiliary module are adapted to communicate with each other and the driver module over the communication bus. 15. The modular lighting system of claim 2 wherein communications between the driver module and the at least one auxiliary module are serial communications. 16. The modular lighting system of claim 2 wherein the driver module is further adapted to provide power via the power port to the at least one auxiliary module that is coupled to the communication bus. 17. The modular lighting system of claim 16 wherein the communication port and the power port are integrated. 18. The modular lighting system of claim 2 wherein the driver module comprises control circuitry that drives the array of LEDs and facilitates communications over the communication bus. 19. The modular lighting system of claim 2 wherein the array of LEDs comprises a plurality of LEDs of a first type and a plurality of LEDs of a second type, which is different than the first type. 20. The modular lighting system of claim 1 , wherein the driver module is further adapted to: drive the array of LEDs in response to the information received from the at least one auxiliary module coupled to the communication bus such that the driver module is configured to be controlled by the at least one auxiliary module wherein: the at least one auxiliary module comprises a light sensor and the driver module is adapted to receive light related information from the light sensor; and provide power via the power port directly to the bridge module.