Control device having buttons with automatically adjustable backlighting

What is claimed is: 1. An electrical load control device, comprising: a first button; a second button; a sensor to provide data representative of a measured ambient light level; memory circuitry to store: data representative of a first relationship between an ambient light level and active button illumination level; and data representative of a second relationship between the ambient light level and inactive button illumination level; and illumination control circuitry to: receive data indicative of an actuation of the first button; and responsive to receipt of the data indicative of the actuation of the first button: retrieve, from memory, an active button illumination level using the first relationship based on the measured ambient light level; retrieve, from memory, an inactive button illumination level using the second relationship based on the measured ambient light level; cause a first light source to illuminate only the first button at the retrieved active button illumination level; and cause a second light source to illuminate the second button at the retrieved inactive button illumination level. 2. The electrical load control device of claim 1 , further comprising: a third button; wherein the control circuitry to further: responsive to receipt of the data indicative of the actuation of the first button: cause a third light source to illuminate the third button at the retrieved inactive button illumination level. 3. The electrical load control device of claim 1 : wherein the first button comprises a translucent indicium; and wherein to cause the first light source to illuminate only the first button at the retrieved active button illumination level, the control circuitry to further: cause the first light source to backlight only the first button to illuminate the translucent indicium at the retrieved active button illumination level. 4. The electrical load control device of claim 1 , further comprising: communication circuitry communicatively coupled to the control circuitry; wherein the control circuitry to further: receive via the communication circuitry data representative of at least one of: the data representative of the first relationship between the ambient light level and the active button illumination level; or the data representative of the second relationship between the ambient light level and the inactive button illumination level. 5. The electrical load control device of claim 1 wherein to retrieve, from memory, the inactive button illumination level using the second relationship between the ambient light level and the inactive button illumination level, the control circuitry to further: retrieve, from memory, the inactive button illumination level using a second relationship that is non-linearly related to the first relationship. 6. An electrical load control device illumination method, comprising: receiving, by illumination control circuitry, data indicative of an actuation of a first button; and responsive to receipt of the data indicative of the actuation of the first button: retrieving, from memory by the illumination control circuitry, an active button illumination level using a first relationship based on a measured ambient light level; wherein the first relationship includes the active button illumination level as a function of an ambient light level; retrieving, from memory by the illumination control circuitry, an inactive button illumination level using a second relationship based on the measured ambient light level; wherein the second relationship includes the inactive button illumination level as a function of the ambient light level; causing, by the illumination control circuitry, a first light source to illuminate only the first button at the retrieved active button illumination level; and causing, by the illumination control circuitry, a second light source to illuminate a second button at the retrieved inactive button illumination level. 7. The electrical load control device illumination method of claim 6 , further comprising: causing, by the illumination control circuitry, a third light source to illuminate a third button at the retrieved inactive button illumination level responsive to receipt of the data indicative of the actuation of the first button. 8. The electrical load control device illumination method of claim 6 wherein causing the first light source to illuminate only the first button at the retrieved active button illumination level further comprises: causing, by the illumination control circuitry, the first light source to backlight only the first button to illuminate, at the retrieved active button illumination level, a translucent indicium formed in the first button. 9. The electrical load control device illumination method of claim 6 , further comprising: receiving, by the illumination control circuitry via communication circuitry, data representative of at least one of: the data representative of the first relationship between the ambient light level and the active button illumination level; or the data representative of the second relationship between the ambient light level and the inactive button illumination level. 10. The electrical load control device illumination method of claim 6 wherein retrieving the inactive button illumination level using the second relationship based on the measured ambient light level further comprises: retrieving, by the illumination control circuitry, the inactive button illumination level using a second relationship that is non-linearly related to the first relationship. 11. A non-transitory, machine-readable, storage device that includes instructions that when executed by electrical load control device illumination control circuitry, causes the illumination control circuitry to: receive data indicative of an actuation of a first button; and responsive to receipt of the data indicative of the actuation of the first button: retrieve, from memory, an active button illumination level using a first relationship based on a measured ambient light level; wherein the first relationship includes the active button illumination level as a function of an ambient light level; retrieve, from memory, an inactive button illumination level using a second relationship based on the measured ambient light level; wherein the second relationship includes the inactive button illumination level as a function of the ambient light level; cause a first light source to illuminate only the first button at the retrieved active button illumination level; and cause a second light source to illuminate a second button at the retrieved inactive button illumination level. 12. The non-transitory, machine-readable, storage device of claim 11 , wherein the instructions, when executed by the illumination control circuitry, cause the illumination control circuitry to: cause a third light source to illuminate a third button at the retrieved inactive button illumination level responsive to receipt of the data indicative of the actuation of the first button. 13. The non-transitory, machine-readable, storage device of claim 11 wherein the instructions that cause the first light source to illuminate only the first button at the retrieved active button illumination level further cause the illumination control circuitry to: cause the first light source to backlight only the first button at the retrieved active button illumination level to illuminate a translucent indicium formed in the first button. 14. The non-transitory, machine-readable, storage device of claim 11 wherein the instructions, whe