Lighting relay panel features for improved safety and reliability

What is claimed is: 1. A light control device having: an optocoupler, a comparator, and an NPN transistor, wherein: the optocoupler is capable of receiving a voltage signal; the optocoupler is further capable of providing an isolated signal based on the received voltage signal; the comparator is capable of receiving the isolated signal by a negative terminal of the comparator; the comparator is further capable of providing an output signal, the output signal based on the isolated signal and a feedback input from the NPN transistor to a positive terminal of the comparator; the NPN transistor is capable of receiving, at a base of the NPN transistor, the output signal provided by the comparator, such that the comparator controls the base of the NPN transistor while the isolated signal has a value between 0.05V and 0.2V; and the NPN transistor is further capable of providing an output voltage having a value between 0V and 0.5V, wherein the output voltage is provided to a light fixture having an adjustable intensity. 2. The light control device of claim 1 , wherein: the comparator is an operational amplifier (“op-amp”); and the output signal provided by the comparator is based on a difference between the isolated signal and the feedback input. 3. The light control device of claim 1 , wherein the optocoupler is a push-pull optocoupler. 4. The light control device of claim 3 , wherein the isolated signal is provided from an isolated side of the push-pull optocoupler. 5. The light control device of claim 1 , wherein the voltage signal received by the optocoupler includes a pulse width modulated signal. 6. The light control device of claim 5 , wherein the isolated signal provided by the optocoupler has a duty cycle based on an additional duty cycle of the pulse width modulated signal, wherein the duty cycle of the isolated signal has a charge rate and a discharge rate of approximately equal duration. 7. The light control device of claim 1 , wherein the voltage signal received by the optocoupler is received from a lighting control interface. 8. The light control device of claim 1 , further having a low-pass filter, wherein: the optocoupler is further capable of providing the isolated signal to the low-pass filter, and the isolated signal received by the comparator is a filtered isolated signal. 9. The light control device of claim 1 , wherein the NPN transistor is further capable of modifying the output voltage, wherein the modified output voltage has an additional value between 0.5V and 10V. 10. A lighting relay panel having: a plurality of relays; and a plurality of isolation components, each of the isolation components including an optocoupler, a comparator, and an NPN transistor, wherein each of the relays is configured to provide a respective voltage signal to a respective one of the plurality of isolation components, wherein, for each of the isolation components: the optocoupler is capable of receiving the respective voltage signal, the optocoupler is further capable of providing an isolated signal based on the received respective voltage signal, the comparator is capable of receiving the isolated signal by a negative terminal of the comparator, the comparator is further capable of providing an output signal, the output signal based on the isolated signal and a feedback input from the NPN transistor to a positive terminal of the comparator, the NPN transistor is capable of receiving, at a base of the NPN transistor, the output signal provided by the comparator, such that the comparator controls the base of the NPN transistor while the isolated signal has a value between 0.05V and 0.2V, and the NPN transistor is further capable of providing a respective output voltage having a value between 0V and 0.5V, and wherein each of the isolation components is capable of providing the respective output voltage to a respective light fixture having an adjustable intensity. 11. The lighting relay panel of claim 10 , wherein: the comparator is an operational amplifier (“op-amp”); and the output signal provided by the comparator is based on a difference between the isolated signal and the feedback input. 12. The lighting relay panel of claim 10 , wherein the optocoupler is a push-pull optocoupler. 13. The lighting relay panel of claim 12 , wherein the isolated signal is provided from an isolated side of the push-pull optocoupler. 14. The lighting relay panel of claim 10 , wherein the respective voltage signal received by the optocoupler includes a pulse width modulated signal. 15. The lighting relay panel of claim 14 , wherein the isolated signal provided by the optocoupler has a duty cycle based on an additional duty cycle of the pulse width modulated signal, wherein the duty cycle of the isolated signal has a charge rate and a discharge rate of approximately equal duration. 16. The lighting relay panel of claim 10 , wherein the respective voltage signal received by the optocoupler is received from a lighting control interface. 17. The lighting relay panel of claim 10 , further having a low-pass filter, wherein: the optocoupler is further capable of providing the isolated signal to the low-pass filter, and the isolated signal received by the comparator is a filtered isolated signal. 18. The lighting relay panel of claim 10 , wherein the NPN transistor is further capable of modifying the respective output voltage, wherein the respective modified output voltage has an additional value between 0.5V and 10V.