Electrical load controller having a frame with an integrally formed backlightable indicator region

The invention claimed is: 1. An electrical load controller for use in controlling electrical power to a load from an electrical power source, said electrical load controller comprising: an electrical switching device for turning electrical power on and off to the load and for controlling a level of power to the load; an actuator assembly comprising: at least one user actuator actuatable by a user for use in turning on and off electrical power to the load and for use in adjustably controlling the level of power to the load; a frame operably attached to said at least one actuator, and said frame comprising an integrally formed backlightable indicator region comprising an outer continuous solid surface; and an illumination assembly for providing illumination related to the level of power to the load; wherein light from said illumination assembly related to the level of power to the load is directable onto a portion of an inner surface of said backlightable indicator region, transmittable through said backlightable indicator region from said inner surface to said outer surface, emittable from a portion of said outer surface, and observable by the user. 2. The electrical load controller of claim 1 wherein said indicator region in ambient light is not discernible as an indicator region by a user when electrical power is turned off to the load. 3. The electrical load controller of claim 1 wherein said frame and said indicator region comprise the same observable color when electrical power is off to the load. 4. The electrical load controller of claim 1 wherein light emittable from said outer surface of said indicator region related to the level of power to the load comprises a plurality of spaced-apart illuminatable outer surface portions. 5. The electrical load controller of claim 1 wherein said indicator region comprises a generally constant thickness. 6. The electrical load controller of claim 1 wherein said indicator region does not comprise an aperture opening onto the outer surface, extending from said outer surface to said inner surface, and opening onto said inner surface. 7. The electrical load controller of claim 1 wherein said outer surface of said indicator region comprises a plurality of spaced-apart recessed areas, and wherein light from said illumination assembly related to the level of power to the load is emittable from said plurality of spaced-apart recessed portions of said outer surface. 8. The electrical load controller of claim 1 wherein said inner surface of said indicator region comprises a plurality of spaced-apart recessed portions, and wherein light from said illumination assembly related to the level of power to the load is receivable in said spaced-apart recessed portions of said inner surface. 9. The electrical load controller of claim 1 wherein said outer surface of said indicator region comprises a plurality of spaced-apart raised portions, and wherein light from said illumination assembly related to the level of power to the load is emittable from said plurality of spaced-apart raised portions of said outer surface. 10. The electrical load controller of claim 1 wherein said outer surface of said indicator region comprises an elongated raised land relative to said frame. 11. The electrical load controller of claim 1 wherein at least one of said inner surface of said indicator region comprises a plurality of spaced-apart raised portions that act as lenses for receiving light, and said outer surface of said indicator region comprises a plurality of spaced-apart raised portions that act as lenses for emitting light. 12. The electrical load controller of claim 1 wherein the indicator assembly comprises an LED array, and a plurality of light guides that direct light from said LED array towards said indicator region. 13. The electrical load controller of claim 1 further comprising a housing, and wherein said actuator assembly is releasably attachable to said housing. 14. An electrical load controller for use in controlling electrical power to a load from an electrical power source, said electrical load controller comprising: an electrical switching device for turning electrical power on and off to the load and for controlling a level of power to the load; an actuator assembly comprising: a main actuator actuatable by a user for use in turning on and off electrical power to the load; a peripherally-extending frame disposed around said main actuator; an intensity level actuator extendable though an opening in said peripherally-extending frame, said intensity level actuator actuatable by a user for use in adjustably controlling the level of power to the load; and said peripherally-extending frame comprising an integrally formed indicator region comprising an outer continuous solid surface; an illumination assembly for providing illumination related to the level of power to the load, said an illumination assembly comprising a light source and a plurality of light guides; and wherein light from said illumination assembly related to the level of power to the load is directable onto a portion of an inner surface of said backlightable indicator region, transmittable through said backlightable indicator region from said inner surface to said outer surface, emittable from a portion of said outer surface, and observable by the user. 15. The electrical load controller of claim 14 wherein said indicator region is not discernible as an indicator region by a user when electrical power is turned off to the load. 16. The electrical load controller of claim 14 wherein said indicator region and said frame comprise a generally uniform observable surface color in ambient light when electrical power is off to the load. 17. The electrical load controller of claim 14 wherein light emitted from said outer surface of said indicator region related to the level of power to the load comprises a plurality of spaced-apart illuminated portions. 18. The electrical load controller of claim 14 wherein said integrally formed indicator region comprises a generally constant thickness. 19. The electrical load controller of claim 14 wherein said outer surface of said indicator region comprises an elongated raised land relative to said frame. 20. The electrical load controller of claim 14 wherein said outer surface of said indicator region comprises a plurality of spaced-apart recessed portions or a plurality of spaced-apart raised portions, and wherein light from said illumination assembly related to the level of power to the load is emittable from said plurality of spaced-apart recessed portions or said raised portions of said outer surface. 21. The electrical load controller of claim 14 wherein said indicator region does not comprise an aperture opening onto the outer surface, extending from said outer surface to said inner surface, and opening onto said inner surface. 22. The electrical load controller of claim 14 further comprising a housing, and wherein said actuator assembly is releasably attachable to said housing. 23. An actuator assembly attachable to an electrical switching device of an electrical load controller, said actuator assembly comprising: a main actuator actuatable by a user for use in turning on and off electrical power to the load; a peripherally-extending frame disposed around said main actuator; an intensity level actuator extendable though an opening in said peripherally-extending frame, said intensity level actuator actuat