Emergency lighting systems and methods for solid state lighting apparatus

What is claimed is: 1. An emergency lighting module for providing emergency power to a solid state luminaire, the emergency lighting module comprising: a first output configured to supply a DC output voltage to the solid state luminaire responsive to a reduction of an AC line voltage; a first input configured to receive a DC input voltage from the solid state luminaire, the solid state luminaire comprising a lighting board, which comprises lighting elements, and a lighting control module that is configured to drive the lighting elements responsive to a logical OR of the DC output voltage and the DC input voltage; and a second input configured to receive a status signal indicative of the status of the AC line voltage. 2. The emergency lighting module of claim 1 , wherein the status signal indicative of the status of the AC line voltage comprises an AC line signal and/or a rectified AC line signal. 3. The emergency lighting module of claim 1 , wherein the emergency lighting module is configured to monitor the DC input voltage to detect a brownout condition of the AC line voltage. 4. The emergency lighting module of claim 1 , wherein the emergency lighting module comprises a second output configured to supply an AC signal to the luminaire. 5. The emergency lighting module of claim 1 , wherein the emergency lighting module is configured to supply a control signal to the luminaire that disables an AC/DC converter of the luminaire in response to reduction of the AC line voltage. 6. The emergency lighting module of claim 1 , wherein the emergency lighting module is configured to supply a dimming control signal to the luminaire in response to reduction of the AC line voltage. 7. The emergency lighting module of claim 6 , wherein the dimming control signal comprises a pulse width modulation (PWM) control signal. 8. The emergency lighting module of claim 7 , further comprising a microcontroller configured to monitor the status signal and to generate the PWM control signal in response to reduction of the AC line voltage. 9. The emergency lighting module of claim 8 , wherein the microcontroller is configured to generate the PWM control signal, to have a target duty cycle; and wherein the microcontroller is configured to initially generate the PWM control signal to have a first duty cycle that is lower than the target duty cycle and to increase the duty cycle of the PWM control signal from the first duty cycle to the target duty cycle. 10. The emergency lighting module of claim 9 , wherein the microcontroller is configured to decrease the duty cycle of the PWM control signal from the target duty cycle to a final duty cycle that is lower than the target duty cycle. 11. The emergency lighting module of claim 10 , wherein the microcontroller is configured to maintain the duty cycle of the PWM control signal at the final duty cycle until the AC line voltage is restored or until battery capacity is exceeded. 12. The emergency lighting module of claim 8 , further comprising an analog to digital converter configured to receive the DC input voltage and provide a digital signal indicative of a voltage level of the DC input voltage to the microcontroller. 13. The emergency lighting module of claim 1 , wherein the emergency lighting module is configured to ramp the DC output voltage up from an initial voltage level to a target voltage level in response to detecting reduction of the AC line signal. 14. The emergency lighting module of claim 1 , further comprising: a charging circuit configured to receive the DC input voltage from the solid state luminaire and responsively generate a charging signal for charging a rechargeable battery coupled to the emergency lighting module. 15. A method of operating an emergency lighting module for providing emergency power to a solid state luminaire, comprising: receiving a status signal indicative of a status of an AC line voltage; monitoring the AC line voltage, the solid state luminaire comprising a lighting board, which comprises lighting elements, and a lighting control module that is configured to drive the lighting elements responsive to a logical OR of a DC output voltage and a DC input voltage, the DC input voltage being generated in the solid state luminaire responsive to the AC line voltage; and generating the DC output voltage in response to reduction of the AC line voltage. 16. The method of claim 15 , further comprising: generating a dimming control signal and supplying the dimming control signal to the solid state luminaire in response to reduction of the AC line voltage. 17. The method of claim 16 , wherein the dimming control signal comprises a pulse width modulation (PWM) signal. 18. The method of claim 17 further comprising initially generating the PWM control signal to have a first duty cycle that is lower than a target duty cycle and increasing the duty cycle of the PWM control signal from the first duty cycle to the target duty cycle. 19. The method of claim 18 , further comprising decreasing the duty cycle of the PWM control signal from the target duty cycle to a final duty cycle that is lower than the target duty cycle. 20. The method of claim 19 , further comprising maintaining the duty cycle of the PWM control signal at the final duty cycle until the AC line voltage is restored. 21. The method of claim 15 , further comprising: receiving a DC input voltage from the solid state luminaire at a charging circuit; and generating a charging signal for charging a rechargeable battery coupled to the emergency lighting module using the charging circuit. 22. An emergency lighting module for providing emergency power to a solid state luminaire, the emergency lighting module comprising: a first output configured to supply a DC output voltage to the solid state luminaire responsive to a reduction of an AC line voltage; a first input configured to receive a DC input voltage from the solid state luminaire, the solid state luminaire comprising a lighting board, which comprises lighting elements, and a lighting control module that is configured to drive the lighting elements responsive to a logical OR of the DC output voltage and the DC input voltage; a second input configured to receive a status signal indicative of the status of the AC line voltage; and a microcontroller configured to monitor the status signal and to generate a dimming control signal in response to a reduction of the AC line voltage; wherein the emergency lighting module is configured to supply the dimming control signal to the lighting control module. 23. The emergency lighting module of claim 22 , wherein the dimming control signal comprises a pulse width modulation (PWM) control signal. 24. The emergency lighting module of claim 22 , wherein the status signal indicative of the status of the AC line voltage comprises an AC line signal and/or a rectified AC line signal. 25. The emergency lighting module of claim 22 , wherein the emergency lighting module is configured to monitor the DC input voltage to detect a brownout condition of the AC line voltage. 26. The emergency lighting module of claim 22 , wherein the emergency lighting module comprises a second output configured to supply an AC signal to the luminaire. 27. The emergency lighting module of claim 22 , wherein the emergency lighting module is configured to supply a control signal to the luminaire that disables an AC/D