Temperature control device with automatically adjustable backlighting

What is claimed is: 1. A method for controlling an HVAC system by a control circuit of a temperature control device, the method comprising: receiving a temperature control signal indicating a temperature in a space around the temperature control device; receiving a set point temperature; controlling, in an idle state, an internal electrical load to a first state; sampling, in the idle state, the temperature control signal; determining, in the idle state, a sampled temperature based on the temperature control signal; storing, in the idle state, the sampled temperature in memory; controlling, in an awake state, the internal electrical load to a second state, wherein the internal electrical load consumes more power in the second state than in the first state; ceasing sampling of the temperature control signal, in the awake state; retrieving, in the awake state, the sampled temperature stored in the memory during the idle state; comparing the retrieved sampled temperature to the set point temperature; and based on comparing the retrieved sampled temperature to the set point temperature, controlling the HVAC system. 2. The method of claim 1 , further comprising: entering the awake state in response to an actuation of a button. 3. The method of claim 2 , wherein controlling the internal electrical load comprises controlling a button backlight circuit configured to illuminate the button with a first duty cycle during the awake state and with a second duty cycle during the idle state, the second duty cycle having a decreased on time percentage compared to the first duty cycle, the decreased on time percentage of the second duty cycle being greater than zero percent. 4. The method of claim 3 , further comprising: controlling the button backlight circuit in response to an ambient light level around the temperature control device measured by a light detector circuit. 5. The method of claim 4 , further comprising adjusting the second duty cycle of the button backlight circuit during the idle state in response to the ambient light level. 6. The method of claim 4 , further comprising turning off the button backlight circuit when the ambient light level exceeds an ambient light threshold during the idle state. 7. The method of claim 3 , further comprising waiting for a period of time after the actuation of the button before returning to the idle state. 8. The method of claim 7 , wherein the period of time is a predetermined value stored in the memory. 9. The method of claim 7 , wherein the period of time is a function of the first duty cycle during the awake state. 10. The method of claim 1 , further comprising displaying a present temperature on a visual display. 11. The method of claim 1 , wherein the internal electrical load comprises a visual display for displaying information for a user, further wherein controlling the internal electrical load to the first state comprises turning the visual display off during the idle state; and wherein controlling the internal electrical load to the second state comprises turning the visual display on during the awake state. 12. The method of claim 1 , wherein the internal electrical load comprises a display backlight circuit for a visual display, further wherein controlling the internal electrical load to the first state comprises turning the display backlight circuit off during the idle state; and wherein controlling the internal electrical load to the second state comprises turning the display backlight circuit on during the awake state. 13. A method comprising: sampling a temperature signal, the temperature signal indicating a temperature in a space around a temperature control device; determining, in an idle state, a sampled temperature based on the temperature signal; storing, in the idle state, the sampled temperature in memory; controlling, in the idle state, an internal electrical load to a first state; and controlling, in an awake state, the internal electrical load to a second state, wherein the internal electrical load consumes more power in the second state than in the first state; ceasing sampling of the temperature signal, in the awake state; retrieving, in the awake state, the sampled temperature stored in the memory during the idle state; comparing the retrieved sampled temperature to a set point temperature; and based on comparing the retrieved sampled temperature to the set point temperature, controlling an HVAC system. 14. The method of claim 13 , further comprising transitioning from the idle state to the awake state in response to an actuation of a button; and waiting for a period of time after the actuation of the button before returning to the idle state, the period of time being a predetermined value stored in the memory or a function of an intensity during the awake state. 15. The method of claim 13 , further comprising: measuring, via a light detector circuit, an ambient light level; and controlling a button backlight circuit in response to the measured ambient light level. 16. The method of claim 15 , further comprising adjusting an intensity of the button backlight circuit during the idle state in response to the measured ambient light level. 17. A method comprising: sampling a temperature signal, the temperature signal indicating a temperature in a space around a temperature control device; determining, in an idle state, a sampled temperature based on the temperature signal; storing, in the idle state, the sampled temperature in memory; controlling, in the idle state, an internal electrical load to a first state; receiving an actuation of a button; in response to receiving the actuation, transitioning from the idle state to an awake state; controlling, in the awake state, the internal electrical load to a second state, wherein the internal electrical load consumes more power in the second state than in the first state; ceasing sampling of the temperature signal, in the awake state; retrieving, in the awake state, the sampled temperature stored in the memory during the idle state; comparing the retrieved sampled temperature to a set point temperature; and based on comparing the retrieved sampled temperature to the set point temperature, controlling an HVAC system. 18. The method of claim 17 , wherein controlling, in the idle state, the internal electrical load to the first state comprises decreasing a duty cycle of a button backlight circuit in response to a measured ambient light level. 19. The method of claim 17 , wherein retrieving, in the awake state, the sampled temperature stored in the memory during the idle state comprises retrieving a most recent sampled temperature stored in the memory.