Power loss detection for a lighting control system

What is claimed is: 1. A device for a wireless device control system, the device powered by an AC supply, the device comprising: a zero-cross detection circuit coupled to the AC supply, the zero-cross detection circuit including a timer having a preset time, the timer reset by a zero-cross detection, and the zero-cross detection circuit detecting a loss of power of the AC supply upon the timer reaching the preset time without resetting; a first voltage regulator including a rectifier and having an input coupled to the AC supply and an output providing a first DC supply; a diode having a cathode and an anode, the anode coupled to the output of the first voltage regulator; a wireless transmitter having a power input, the wireless transmitter for communicating with at least one other component of the wireless device control system; and at least one first capacitor coupled to the cathode of the diode and to the power input of the wireless transmitter; and wherein the at least one first capacitor provides energy storage sufficient to power the wireless transmitter for a duration long enough to transmit one message upon detecting the loss of power of the AC supply. 2. The device of claim 1 , comprising a second voltage regulator having an input coupled to the cathode of the diode and an output providing a second DC supply, the output coupled to the at least one capacitor and to the power input of the wireless transmitter. 3. The device of claim 2 , comprising a second capacitor coupled to the anode of the diode, and wherein detection of a decrease in voltage across the second capacitor detects a loss of the first DC supply and confirms the loss of power of the AC supply. 4. The device of claim 3 , wherein the zero-cross detection circuit includes an A-to-D converter and a controller, the A-to-D converter providing an AC voltage level to a controller, the controller capable of detecting zero-crossings of the AC voltage level, and the controller coupled to the wireless transmitter and providing a power loss message to the wireless transmitter upon the timer reaching the preset time. 5. The device of claim 4 , wherein the controller includes a port coupled to the second capacitor to detect a decrease in voltage of the output of the first DC supply upon the loss of power of the AC supply. 6. The device of claim 5 , wherein the port is configurable as an input or output mode port and detection of a decrease in voltage of the output of the first DC supply includes the steps of: setting the port to output mode; pushing the port to a low output state; setting the port to input mode; and detecting whether the voltage at the port remains at a low state, indicating loss of the AC supply; and wherein pushing the port to a low output state provides a faster detection of the loss of power of the AC supply than the time required for the port to change states from high to low upon a discharge of the second capacitor from the loss of power of the AC supply.