Battery compartment for an HVAC controller

What is claimed is: 1. An HVAC controller, comprising: a first sub-assembly comprising: a housing comprising a back cover and a front cover; a printed circuit board at least substantially enclosed by the housing; a hole formed in the back cover of the housing to accommodate at least part of one or more batteries, wherein the hole is defined at least in part by an upper side wall and a lower side wall that both extend inward toward the printed circuit board with at least part of the lower side wall curving up toward the upper side wall; and a second sub-assembly configured to be releasably secured to the first sub-assembly adjacent to the back of the housing of the first sub-assembly. 2. The HVAC controller of claim 1 , wherein at least part of the upper side wall curves down toward the lower side wall. 3. The HVAC controller of claim 1 , wherein the second sub-assembly, when secured to the first sub-assembly, covers the hole formed in the back cover of the housing. 4. The HVAC controller of claim 1 , wherein the second sub-assembly defines a battery relief feature in registration with the hole of the first sub-assembly when the second sub-assembly is secured to the first sub-assembly, wherein the battery relief feature of the second sub-assembly is sized and shaped to accept at least part of one or more batteries when the second sub-assembly is secured to the first sub-assembly. 5. The HVAC controller of claim 4 , wherein the battery relief feature is formed in a plate of the second sub-assembly, and wherein the battery relief feature extends into the plate and reduces the thickness of the plate. 6. The HVAC controller of claim 1 , wherein the printed circuit board includes two or more battery terminals that extend from the printed circuit board through the back cover of the housing and into the hole of the first sub-assembly. 7. The HVAC controller of claim 1 , wherein the first sub-assembly further includes a display mounted adjacent the printed circuit board and facing toward the front cover, wherein the front cover includes an aperture that exposes at least part of the display for viewing the display by a user. 8. The HVAC controller of claim 1 , further comprising a wireless interface for wirelessly receiving control signals from a remote location. 9. The HVAC controller of claim 1 configured to be powered by one or more batteries if present. 10. The HVAC controller of claim 1 configured to be powered by a power wire in combination with a common wire. 11. The HVAC controller of claim 1 , wherein at least part of the hole formed in the back cover of the housing extends all the way through the back cover and exposes at least part of the printed circuit board. 12. An HVAC controller, comprising: a first sub-assembly comprising: a housing comprising a back cover and a front cover; a printed circuit board situated between the back cover and front cover of the housing; the back cover forming at least part of a battery compartment, wherein the battery compartment is configured to receive at least part of one or more batteries via a battery compartment opening in a back side of the back cover, the battery compartment is defined at least in part by an upper side wall and a lower side wall that both extend inward from the back side of the back cover toward the printed circuit board, with at least part of the lower side wall curving up toward the upper side wall adjacent the printed circuit board; one or more battery terminals that extend from the printed circuit board through the back cover and into the battery compartment; and a second sub-assembly configured to be releasably secured to the first sub-assembly adjacent to the back of the housing of the first sub-assembly. 13. The HVAC controller of claim 12 , wherein at least part of the upper side wall curves down toward the lower side wall adjacent the printed circuit board. 14. The HVAC controller of claim 12 , wherein the second sub-assembly, when secured to the first sub-assembly, covers the battery compartment of the first sub-assembly. 15. The HVAC controller of claim 12 , wherein the second sub-assembly defines a battery relief feature in registration with the battery compartment of the first sub-assembly when the second sub-assembly is secured to the first sub-assembly, wherein the battery relief feature of the second sub-assembly is sized and shaped to accept at least part of one or more batteries when the second sub-assembly is secured to the first sub-assembly. 16. The HVAC controller of claim 15 , wherein the battery relief feature is formed in a plate of the second sub-assembly, and wherein the battery relief feature extends into the plate and reduces the thickness of the plate. 17. The HVAC controller of claim 12 , wherein the first sub-assembly further includes a display mounted adjacent the printed circuit board and facing toward the front cover, wherein the front cover includes an aperture that exposes at least part of the display for viewing the display by a user. 18. The HVAC controller of claim 12 , further comprising a wireless interface for wirelessly receiving control signals from a remote location. 19. A thermostat for controlling an HVAC system, comprising: a first sub-assembly having a front side and a back side, the first sub-assembly comprising: a housing including a back cover facing toward the back side of the first sub-assembly and a front cover facing toward the front side of the first sub-assembly, wherein the back cover is secured relative to the front cover; a printed circuit board housed by the housing, the printed circuit board having a front side facing toward the front cover and a back side facing toward the back cover; a display positioned adjacent the front side of the printed circuit board and operatively connected to the printed circuit board via a display connector, the front cover comprising a viewing aperture that exposes at least part of the display for viewing the display from the front side of the first sub-assembly; the back cover having a front side facing toward the front cover and a back side facing toward the back side of the first sub-assembly, the back cover forming at least part of a battery compartment, wherein the battery compartment is configured to receive at least part of one or more batteries via a battery compartment opening in the back side of the back cover, the battery compartment defined at least in part by an upper side wall and a lower side wall that both extend inward from the back side of the back cover toward the printed circuit board, with at least part of the lower side wall curving up toward the upper side wall adjacent the printed circuit board; a first sub-assembly electrical connector extending from the back side of the printed circuit board and accessible through the back cover; a second sub-assembly having a front side and a back side, wherein the second sub-assembly and the first sub-assembly are configured to be releasably secured together with the front side of the second sub-assembly facing toward the back side of the first sub-assembly, the second sub-assembly comprising: a plate that has a front side facing toward the front side of the second sub-assembly and a back side facing toward the back side of the second sub-assembly; the plate defining a hole in the front side of the plate that extends inward toward the back side of the second sub-assembly, the hole defined by the plate is positioned to be in registration with the battery compartment of the first sub-assembly when the second sub-as