Temperature adjusted dimming controller

The invention claimed is: 1. A method for adjusting CCT values of a plurality of non-tungsten based lighting devices using a lighting control device, comprising: receiving, at a user interface of the lighting control device, a first input specifying a desired intensity level and a second input specifying a maximum CCT value for the plurality of non-tungsten based lighting devices, wherein the maximum CCT value indicates a normalized maximum CCT limit at full intensity for the plurality of non-tungsten based lighting devices; determining a white component color temperature value for the plurality of non-tungsten based lighting devices based on the first input and the second input, wherein the white component color temperature value is directly proportional to the first input specifying the desired intensity level; determining, based on the white component color temperature value, driver levels to control characteristics of emitted light of the plurality of non-tungsten based lighting devices, wherein the driver levels include fixture-dependent values specific to each of the plurality of non-tungsten based lighting devices and wherein the characteristics of the emitted light include an emitted CCT value reflecting warmth of the emitted light; outputting, via a common interface, the driver levels to the plurality of non-tungsten based lighting devices; and responsive to changes to the first input, modifying the white component color temperature value to reflect variations of the warmth of the emitted light of the plurality of non-tungsten based lighting devices as the first input is changed. 2. The method of claim 1 , wherein at least one of the plurality of non-tungsten based lighting devices is a solid state lighting device, and wherein the driver levels to control the emitted CCT value of the emitted light include electrical inputs for activating or deactivating red, green, blue, amber, or other light emitting diodes in the solid state lighting device. 3. The method of claim 1 , wherein at least one of the plurality of non-tungsten based devices is a gas discharge lighting device, and wherein the driver levels to control the emitted CCT value of the emitted light include commands to motors connected to the gas discharge lighting device to introduce or remove a cyan filter, a magenta filter, a yellow filter, or other filters to the gas discharge lighting device. 4. The method of claim 1 , wherein the second input further specifies a minimum CCT value, and wherein the white component color temperature value is equal to the maximum CCT value minus the product of the desired intensity level and the difference of the maximum CCT value and the minimum CCT value. 5. The method of claim 1 , wherein the plurality of non-tungsten based lighting devices includes a first lighting device and a second lighting device, wherein the first lighting device has a different control interface than the second lighting device, and wherein the fixture-dependent values comprise a first set of fixture-dependent values for the first lighting device and a second set of fixture-dependent values for the second lighting device. 6. The method of claim 1 , wherein the common interface is a standardized interface following an ANSI E1.11 DMX512 protocol. 7. The method of claim 1 , wherein the emitted CCT value that is adjusted responsive to adjustments of the white component color temperature value substantially mimics a warmth characteristic of a tungsten-based light source. 8. The method of claim 1 , further comprising: receiving, at the user interface, a third input specifying a color setting for the plurality of non-tungsten based lighting devices, wherein the driver levels to control characteristics of the emitted light are also based on the third input. 9. The method of claim 1 , wherein the white component color temperature value is equal to the maximum CCT value in response to the first input being set to full intensity, wherein the white component color temperature value scales down linearly as a function of a pre-determined CCT shift value as the desired intensity level specified by the first input is reduced, and wherein the white component color temperature is equal to the maximum CCT value less the pre-determined CCT shift value in response to the intensity level specified by the first input being set to minimum intensity. 10. The method of claim 1 , wherein the second input further specifies a CCT shift value indicating a number of Kelvin units the component color temperature shifts in response to the desired intensity level specified by the first input being reduced from full intensity to minimum intensity, and wherein the white component color temperature value scales down linearly as a function of the CCT shift value as the desired intensity level is reduced, the white component color temperature value equal to the maximum CCT value less the CCT shift value in response to the intensity level specified by the first input being set to minimum intensity. 11. A lighting control device for adjusting CCT values of one or more non-tungsten based lighting devices, comprising: a user interface module configured to receive a first input specifying a desired intensity level and a second input specifying a maximum CCT value for the plurality of non-tungsten based lighting devices, wherein the maximum CCT value indicates a normalized maximum CCT limit at full intensity for the plurality of non-tungsten based lighting devices; and a lighting controller engine coupled to the user interface module, the lighting controller engine including: a dim-to-warm module configured to determine a white component color temperature value for the plurality of non-tungsten based lighting devices based on the first input and the second input, wherein the white component color temperature value is directly proportional to the first input specifying the desired intensity level, wherein the white component color temperature value is adjusted responsive to changes to the first input, and a translator control module configured to determine, based on the white component color temperature value, driver levels to control characteristics of emitted light of the plurality of non-tungsten based lighting devices, wherein the driver levels include fixture-dependent values specific to each of the plurality of non-tungsten based lighting devices and wherein the characteristics of the emitted light include an emitted CCT value that is adjusted responsive to adjustments of the white component color temperature value, the emitted CCT level reflecting variations of warmth of the emitted light. 12. The lighting control device of claim 11 , wherein at least one of the plurality of non-tungsten based lighting devices is a solid state lighting device, and wherein the driver levels to control the emitted CCT value of the emitted light include electrical inputs for activating or deactivating red, green, blue, amber, or other light emitting diodes in the solid state lighting device. 13. The lighting control device of claim 11 , wherein at least one of the plurality of non-tungsten based devices is a gas discharge lighting device, and wherein the driver levels to control the emitted CCT value of the emitted light include commands to motors connected to the gas discharge lighting device to introduce or remove a cyan filter, a magenta filter, a yellow filter, or other filters to the gas discharge lighting device. 14. The lighting control device of claim 11 , wherein the second input further specifies a minimum CCT value, and wherein the white component color temperature value is equal to the maximum CCT value minus the pro