Master/slave arrangement for lighting fixture modules

What is claimed is: 1. A modular lighting system comprising: a plurality of LEDs; a communication module having at least one first port; a driver module adapted to drive the plurality of LEDs, the driver module comprising: at least one second port where the driver module drives the plurality of LEDs in response to information received at the at least one second port; and rectifying circuitry and conversion circuitry adapted to convert an AC input signal into a DC power signal that is used to supply the DC power signal to the at least one second port; an auxiliary module having at least one third port; and a communication bus, wherein the communication module, the driver module, and the auxiliary module are associated with the communication bus such that the driver module supplies the DC power signal to the communication module, and the auxiliary module over the communication bus and the communication bus provides bi-directional communications between the communication module, the driver module, and the auxiliary module. 2. The modular lighting system of claim 1 wherein the information is received from the auxiliary module and is a command controlling how the driver module should drive the plurality of LEDs. 3. The modular lighting system of claim 1 wherein the information is received from the auxiliary module and bears on a sensor reading of a sensor associated with the auxiliary module. 4. The modular lighting system of claim 1 further comprising an additional auxiliary module coupled to the communication bus wherein the driver module is adapted to communicate with each of the auxiliary modules over the communication bus. 5. The modular lighting system of claim 4 , wherein the auxiliary modules are adapted to communicate with each other and the driver module over the communication bus. 6. The modular lighting system of claim 1 wherein the auxiliary module is a bridge module, which is adapted to communicate with the driver module using a first protocol and communicate with a remote control system using a second protocol, which is different from the first protocol. 7. The modular lighting system of claim 6 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. 8. The modular lighting system of claim 1 , wherein the communication module is adapted to: receive a message from another lighting fixture providing an instruction for driving the plurality of LEDs; and provide the message to the driver module, wherein the driver module drives the plurality of LEDs based on the instruction. 9. The modular lighting system of claim 1 wherein the auxiliary module comprises an occupancy sensor and the driver module is adapted to receive occupancy related information from the auxiliary module and drive the plurality of LEDs based on the occupancy related information. 10. The modular lighting system of claim 1 wherein the auxiliary module comprises a temperature sensor and the driver module is adapted to receive temperature related information from the auxiliary module and drive the plurality of LEDs based on the temperature related information. 11. The modular lighting system of claim 1 wherein the auxiliary module comprises a light sensor and the driver module is adapted to receive light related information from the auxiliary module and drive the plurality of LEDs based on the light related information. 12. A driver module adapted to drive a plurality of LEDs for use in a modular lighting system having a communications bus, the driver module comprising: at least one first port where the driver module drives the plurality of LEDs in response to information received at the at least one first port; rectifying circuitry and conversion circuitry adapted to: convert an AC input signal into a DC power signal that is used to supply the DC power signal to the at least one first port; provide the DC power signal to a communication module having at least one second port; provide the DC power signal to an auxiliary module having at least one third port, wherein the driver module, the communication module, and the auxiliary module are associated with the communication bus that provides bi-directional communications between the communication module, the driver module, and the auxiliary module. 13. The driver module of claim 12 wherein the information is received from the auxiliary module and is a command controlling how the driver module should drive the plurality of LEDs. 14. The driver module of claim 12 wherein the information is received from the auxiliary module and bears on a sensor reading of a sensor associated with the auxiliary module. 15. The driver module of claim 12 wherein the driver module is adapted to communicate with another auxiliary module over the communication bus. 16. The driver module of claim 12 wherein the auxiliary module comprises an occupancy sensor and the driver module is adapted to receive occupancy related information from the auxiliary module and drive the plurality of LEDs based on the occupancy related information. 17. The driver module of claim 12 wherein the auxiliary module comprises a temperature sensor and the driver module is adapted to receive temperature related information from the auxiliary module and drive the plurality of LEDs based on the temperature related information. 18. The driver module of claim 12 wherein the auxiliary module comprises a light sensor and the driver module is adapted to receive light related information from the auxiliary module and drive the plurality of LEDs based on the light related information.