Precision optical height gauge

The invention claimed is: 1. An optical height gauge comprising: a housing; a mounting bar coupled to, and maintained partially in, the housing; a mounting bracket connected to the mounting bar via a pivoting knob shaft, the mounting bracket including at least one light source holder; a camera mount connected to the mounting bracket; and a tilt bar connected to said mounting bracket and contacting said mounting bar, the tilt bar having a first orientation and a second orientation, and the mounting bracket being angled relative to the length of the mounting bar while the tilt bar is in the second orientation. 2. The optical height gauge of claim 1 , wherein the mounting bracket is angled approximately seven degrees relative to the length of the mounting bar while said tilt bar is in the second orientation. 3. The optical height gauge of claim 1 , wherein the housing comprises two components joined via at least one press fit connector. 4. The optical height gauge of claim 1 , wherein the mounting bracket includes two light source holders. 5. The optical height gauge of claim 4 , wherein the camera mount is disposed between the light source holders. 6. The optical height gauge of claim 1 , further comprising a video camera mounted in said camera mount, the video camera being connected to a remote display. 7. An optical height gauge comprising: a housing; a mounting bar coupled to, and maintained partially in, the housing; a mounting bracket connected to the mounting bar, the mounting bracket including at least one light source holder; a camera mount connected to the mounting bracket; a tilt bar connected to said mounting bracket and contacting said mounting bar; and a video camera mounted in said camera mount, the video camera being connected to a remote display wherein the remote display includes a computer and a monitor, the computer including a memory storing instructions for operating an auxiliary data acquisition system and for operating a user interface control for said video camera. 8. The optical height gauge of claim 1 , wherein the mounting bar is connected to a precision height stand. 9. An optical height gauge comprising: a housing; a mounting bar coupled to, and maintained partially in, the housing, the mounting bar being connected to a precision height stand, the precision height stand being precise to at least within 0.0005 inch (0.0127 mm) in an inches setting or 0.01 mm (0.00039 inches) in a millimeters setting; a mounting bracket connected to the mounting bar, the mounting bracket including at least one light source holder; a camera mount connected to the mounting bracket; a tilt bar connected to said mounting bracket and contacting said mounting bar. 10. A measurement system comprising: an optical height gauge having a housing, a mounting bar coupled to, and maintained partially in, the housing, a mounting bracket connected to the mounting bar, the mounting bracket including at least one light source holder including at least one LED array, a camera mount connected to the mounting bracket, and a tilt bar connected to said mounting bracket and contacting said mounting bar; a precision height stand, wherein the optical height gauge is mounted to the precision height stand; a video camera disposed in said camera mount, and communicatively coupled to a computer system; and wherein the LED array is configured to illuminate a focal point of the video camera. 11. The measurement system of claim 10 , wherein said computer system includes a control module configured to control camera functions of said camera. 12. The measurement system of claim 10 , wherein said camera functions include digital enhancement tools. 13. The measurement system of claim 10 , wherein said computer system includes a display and a user interface configured to allow a user to operate said camera. 14. A measurement system comprising: an optical height gauge having a housing, a mounting bar coupled to, and maintained partially in, the housing, a mounting bracket connected to the mounting bar, the mounting bracket including at least one light source holder, a camera mount connected to the mounting bracket, and a tilt bar connected to said mounting bracket and contacting said mounting bar; a precision height stand, wherein the optical height gauge is mounted to the precision height stand; and a video camera disposed in said camera mount, and communicatively coupled to a computer system including a display and a user interface configured to allow a user to operate said camera, wherein the user interface includes a digital image window and a crosshair overlay is positioned in said digital image window. 15. A method for determining a height measurement comprising: magnifying a digital image provided by an optical height gauge using a user interface; identifying a precise height on a surface in said magnified digital image using the optical height gauge; and capturing the measurement using a computer system communicatively coupled to the optical height gauge. 16. The method of claim 15 , wherein the optical height gauge includes a housing, a mounting bar coupled to, and maintained partially in, the housing, a mounting bracket connected to the mounting bar, the mounting bracket including at least one LED array holder, a camera mount connected to the mounting bracket, and a tilt bar connected to said mounting bracket and contacting said mounting bar. 17. The method of claim 15 , further comprising angling the optical height gauge relative to a mounting bar using a tilt bar interfaced with a mounting bracket and the mounting bar.