LED battery backup lamp

We claim: 1. An LED lamp comprising: a housing having an endcap, an optical portion, and a plurality of components located within the housing, the plurality of components including: an LED light source having a plurality of LED segments and a reconfiguration circuit; the reconfiguration circuit configured to route electrical connections among the plurality of LED segments from between a serial mode to a parallel mode of connection; an LED driver circuit configured to provide power to the LED light source; a line sense circuit configured to detect at least one of a presence and an absence of an AC line voltage; a rechargeable battery connected to a boost driver circuit, the rechargeable battery and the boost driver circuit configured to provide electrical power to the LED light source in the absence of the AC line voltage; and a control processor in communication with one or more other of the plurality of components across a data/control bus, the control processor executing executable instructions that cause the control processor to at least one of monitor and control the one or more other of the plurality of components. 2. The LED lamp of claim 1 , including the housing having a form factor to fit into an existing lighting fixture. 3. The LED lamp of claim 1 , including the LED light source providing an about uniform illumination intensity in both the serial and the parallel connection modes. 4. The LED lamp of claim 1 , including the reconfiguration of the LED segment interconnections reducing an LED string voltage by a predetermined factor. 5. The LED lamp of claim 1 , the plurality of components including a battery protection circuit having a low power switch configured to disconnect at least a portion of the plurality of components from a voltage supply. 6. The LED lamp of claim 1 , the plurality of components including a linear regulator configured to provide an operating current to the control processor. 7. The LED lamp of claim 1 , including at least a portion of the plurality of components mounted on a printed circuit board, the printed circuit board including an aperture defined by walls. 8. The LED lamp of claim 7 , the plurality of components including a battery, the battery positioned at least partially within the aperture. 9. The LED lamp of claim 1 , the plurality of components including a battery monitor configured to provide a signal to the control processor, the signal causing the control processor to execute instructions that cause the control processor to implement one of an over voltage protection operation and an under voltage protection operation. 10. The LED lamp of claim 1 , the plurality of components including a temperature monitor configured to monitor battery thermal conditions, and provide a signal to the control processor in an out of tolerance condition. 11. The LED lamp of claim 1 , the plurality of components including a battery charge module configured to provide a charge current to the rechargeable battery. 12. The LED lamp of claim 1 , the plurality of components including a secondary power module configured to provide a charge current to the rechargeable battery and to provide operating power to the control processor during periods of AC line voltage absence. 13. The LED lamp of claim 1 , including a test button located on an external surface of the housing, the test button configured to initiate a status self-test of the rechargeable battery. 14. The LED lamp of claim 13 , including the self-test configured to cause the reconfiguration circuit to place the LED light source in a reduced illumination state and cycle the boost driver circuit a predetermined amount. 15. The LED lamp of claim 13 , including the test button configured to cause the LED lamp to enter a sleep/transport mode. 16. The LED lamp of claim 1 , including the line sense circuit having a two-wire operational mode configured to monitor an always-on AC line voltage at input terminals. 17. The LED lamp of claim 16 , including the line sense circuit configured to provide a trigger to the control processor based on an absence of power at the input terminals, the trigger causing the control processor to control the LED lamp entry into a battery backup mode. 18. The LED lamp of claim 1 , the line sense circuit including: a first sense channel configured to monitor a two-line voltage presence; a second sense channel configured to monitor an AC line voltage presence; and an isolator circuit configured to isolate the first and second sense channels from an output circuit; wherein the output circuit configured to provide a first sense output signal and a second sense output signal based on statuses of the respective first and second sense channel. 19. The LED lamp of claim 10 , including, in response to the out of tolerance condition signal from the temperature monitor, the control processor configured to control the reconfiguration circuit to switch the LED segment electrical connections to the parallel mode. 20. The LED lamp of claim 1 , including the LED light source having a parallel mode operating voltage that is in the range of about ½ to 1/12 of a series mode operating voltage.