Thermostat housing with pc board locating apertures

What is claimed is: 1. A thermostat configured to couple to a wall mountable connector, the thermostat comprising: a housing including a rear facing surface; a printed circuit board disposed within the housing; a first row of terminal pins disposed in a first pin header and secured to the printed circuit board; a second row of terminal pins disposed in a second pin header and secured to the printed circuit board substantially parallel to the first pin header; a recess formed within the rear facing surface, the recess configured to fit over at least part of the wall mountable connector, the recess including a rear facing recess surface; a first row of apertures formed in the rear facing recess surface configured to accommodate the first row of terminal pins; a second row of apertures formed in the rear facing recess surface configured to accommodate the second row of terminal pins; the first row of apertures including a lateral alignment aperture that is configured to provide a tighter fit with one of the first row of terminal pins in order to provide a lateral alignment of the printed circuit board relative to the rear facing recess surface of the housing; and the first row of apertures further including a rotational alignment aperture having a narrowed dimension in a first direction and a wider dimension in an orthogonal second direction, the rotational alignment aperture configured to provide a tighter fit with another of the first row of terminal pins in the first direction in order to provide a rotational alignment of the printed circuit board relative to the rear facing recess surface of the housing. 2. The thermostat of claim 1 , wherein the rotational alignment aperture has a narrower dimension in a first direction that is orthogonal to the first row of apertures. 3. The thermostat of claim 1 , wherein a remainder of the first row of apertures, apart from the lateral alignment aperture and the rotational alignment aperture, are dimensioned looser to reduce stress applied to the first row of terminal pins during assembly and/or use. 4. The thermostat of claim 3 , wherein the remainder of the first row of apertures have a diameter that is larger than that of the terminal pins within the first row of terminal pins. 5. The thermostat of claim 1 , wherein each of the apertures within the second row of apertures are dimensioned looser to reduce stress applied to the second row of terminal pins during assembly and/or use. 6. The thermostat of claim 5 , wherein each of the apertures within the second row of apertures have a diameter that is larger than that of the terminal pins within the second row of terminal pins. 7. The thermostat of claim 1 , wherein the lateral alignment aperture is located at a first end of the first row of apertures. 8. The thermostat of claim 7 , wherein the rotational alignment aperture is spaced apart from the lateral alignment aperture by one or more intervening apertures within the first row of apertures. 9. The thermostat of claim 7 , wherein the rotational alignment aperture is located at a second end of the first row of apertures. 10. A thermostat configured to couple to a wall mountable connector, the thermostat comprising: a housing including a rear facing surface; a printed circuit board disposed within the housing; a first row of terminal pins disposed in a first pin header and secured to the printed circuit board; a first row of apertures formed in the rear facing surface configured to accommodate the first row of terminal pins; the first row of apertures including a lateral alignment aperture that is configured to provide a tighter fit with one of the first row of terminal pins in order to provide a lateral alignment of the printed circuit board relative to the rear facing surface of the housing; and the first row of apertures further including a rotational alignment aperture having a narrowed dimension in a first direction and a wider dimension in an orthogonal second direction, the rotational alignment aperture configured to provide a tighter fit with another of the first row of terminal pins in the first direction in order to provide a rotational alignment of the printed circuit board relative to the rear facing surface of the housing. 11. The thermostat of claim 10 , wherein the rotational alignment aperture has a narrower dimension in a first direction that is orthogonal to the first row of apertures. 12. The thermostat of claim 10 , wherein a remainder of the first row of apertures, apart from the lateral alignment aperture and the rotational alignment aperture, are dimensioned looser to reduce stress applied to the first row of terminal pins during assembly and/or use. 13. The thermostat of claim 12 , wherein the remainder of the first row of apertures have a diameter that is larger than that of the terminal pins within the first row of terminal pins. 14. The thermostat of claim 10 , further comprising: a second row of terminal pins disposed in a second pin header and secured to the printed circuit board; a second row of apertures formed in the rear facing surface configured to accommodate the second row of terminal pins. 15. The thermostat of claim 14 , wherein each of the apertures within the second row of apertures are dimensioned looser to reduce stress applied to the second row of terminal pins during assembly and/or use. 16. The thermostat of claim 15 , wherein each of the apertures within the second row of apertures have a diameter that is larger than that of the terminal pins within the second row of terminal pins. 17. A thermostat configured to couple to a wall mountable connector, the thermostat comprising: a housing including a rear facing surface; a printed circuit board disposed within the housing; a first row of terminal pins disposed in a first pin header and secured to the printed circuit board; a second row of terminal pins disposed in a second pin header and secured to the printed circuit board; a first row of apertures formed in the rear facing surface configured to accommodate the first row of terminal pins; a second row of apertures formed in the rear facing surface configured to accommodate the second row of terminal pins; one of the first row of apertures and the second row of apertures including a lateral alignment aperture that is configured to provide a tighter fit with a corresponding terminal pin in order to provide a lateral alignment of the printed circuit board relative to the rear facing surface; and one of the first row of apertures and the second row of apertures including a rotational alignment aperture configured to provide a tighter fit with another terminal pin in order to provide a rotational alignment of the printed circuit board relative to the rear facing surface. 18. The thermostat of claim 17 , wherein the lateral alignment aperture is located in the first row of apertures and the rotational alignment aperture is located in the second row of apertures. 19. The thermostat of claim 17 , wherein the lateral alignment aperture is located in the first row of apertures and the rotational alignment aperture is located in the first row of apertures. 20. The thermostat of claim 17 , wherein the rotational alignment aperture has a narrowed dimension in a first direction and a wider dimension in an orthogonal second direction, and wherein the rotational alignment aperture is configured to provide a tighter fit with the another terminal pin in the first direction in order to provide a rotational alignment of the prin