Techniques for providing environmental lighting using network infrastructure

Therefore, the following is claimed: 1. A network switch, comprising: a processor; a network interface; emergency circuitry having an emergency control input; a memory configured by a management application executed by the processor of the network switch, the management application causing the network switch to: operate in a communication mode comprising: communicating, via the network interface, data with a luminaire over a network, wherein the network uses a network protocol that provides power to the luminaire using a network cable, the luminaire illuminating a lighting element; and in response to a signal received on the emergency control input, the emergency circuitry switches the network switch from said communication mode to an emergency lighting mode, causing the network switch to: operate in the emergency lighting mode comprising: bypassing the processor used for communicating data via the network interface; and providing, via the network cable attached to the network interface, only a preset amount of power to the luminaire for illuminating an emergency lighting element. 2. The network switch of claim 1 , wherein the signal received on the emergency control input is generated by a Fire Alarm Control Panel (FACP). 3. The network switch of claim 1 , wherein bypassing the processor terminates the network protocol used for the network. 4. The network switch of claim 1 , wherein communicating data with the luminaire further comprises: transmitting, to the luminaire, lighting control information received from a control device, wherein the control device is a programmable lighting controller, a lighting console, a dimmer, a switch, a sensor, or other luminaire; negotiating an amount of power needed by the luminaire; and storing a value for the amount of power as the preset amount of power used during the emergency lighting mode. 5. The network switch of claim 4 , wherein negotiating the amount of power is conducted using the network protocol that is defined by the IEEE 802.3 family of standards. 6. The network switch of claim 4 , wherein the preset amount of power is selected from a plurality of possible presets comprising a maximum of: 15.4 Watts (W) and 30 W. 7. The network switch of claim 1 , wherein the network cable conforms at least to the Category 5 (Cat 5) specification defined by ANSI/TIA-568. 8. A method for a network switch to provide electrical power to a luminaire via network infrastructure, comprising: operating the network switch in a communication mode comprising: communicating, via a network interface, data with the luminaire over a network, wherein the network uses a network protocol that provides power to the luminaire using a network cable, the luminaire illuminating a lighting element; and in response to a signal received by an emergency control input on the network switch, emergency circuitry switches the network switch from said communication mode to an emergency lighting mode, causing the network switch to: operate in the emergency lighting mode comprising: bypassing a processor used for communicating data via the network interface; and providing, via the network cable attached to the network interface, only a preset amount of power to the luminaire for illuminating an emergency lighting element. 9. The method of claim 8 , wherein the signal received on the emergency control input is generated by a Fire Alarm Control Panel (FACP). 10. The method of claim 8 , wherein bypassing the processor terminates the network protocol used for the network. 11. The method of claim 8 , wherein communicating data with the luminaire further comprises: negotiating an amount of power needed by the luminaire; and storing a value for the amount of power as the preset amount of power used during the emergency lighting mode. 12. The method of claim 11 , wherein negotiating the amount of power is conducted using the network protocol that is defined by the IEEE 802.3 family of standards. 13. The method of claim 11 , wherein the preset amount of power is selected from a plurality of possible presets comprising a maximum of: 15.4 Watts (W) and 30 W. 14. The method of claim 8 , wherein the network cable conforms at least to the Category 5 (Cat 5) specification defined by ANSI/TIA-568. 15. A network switch, comprising: a processor; a network interface; emergency circuitry having an emergency control input for the network switch; a manual electric switch that determines a preset amount of power to be supplied to the network interface during an emergency lighting mode; a memory configured by a management application executed by the processor of the network switch, the management application causing the network switch to: operate in a communication mode comprising: communicating, via the network interface, data with a luminaire over a network, wherein the network uses a network protocol that provides power to the luminaire using a network cable, the luminaire illuminating a lighting element; and in response to a signal received on the emergency control input, the emergency circuitry switches the network switch from said communication mode to the emergency lighting mode, causing the network switch to: operate in the emergency lighting mode comprising: bypassing the processor used for communicating data via the network interface, wherein said bypassing the processor disables the network; and providing, via the network cable attached to the network interface, the preset amount of power as determined by the manual electric switch to the luminaire for illuminating an emergency lighting element while the network is disabled. 16. The network switch of claim 15 , wherein the signal received on the emergency control input is produced by a dry contact, Applied Transistor-Transistor Logic (TTL), a test switch, or a User Datagram Protocol (UDP) broadcast message. 17. The network switch of claim 15 , wherein bypassing the processor terminates the network protocol used for the network. 18. The network switch of claim 15 , wherein communicating data with the luminaire further comprises: negotiating an amount of power needed by the luminaire during communication mode. 19. The network switch of claim 15 , further comprising analog power limiting circuitry that limits the amount of power that may be consumed by the network interface. 20. The network switch of claim 15 , wherein the preset amount of power is preconfigured, using the manual electric switch, in the network switch from a plurality of possible presets comprising a maximum of: 15.4 Watts (W) and 30 W.