Methods and apparatus providing calibration of background illumination for sample and/or sample container characterization

What is claimed is: 1. A calibration method, comprising: identifying an imaging area on each of a plurality of light panels with respect to each of a respective plurality of imaging devices included in an imaging apparatus; determining a center position of the imaging area of each light panel for each imaging device; determining an optimal optical center of the imaging apparatus using the center position of each light panel for each imaging device; installing a tube calibration tool in a carrier on a track; moving the carrier on the track so that a center of the tube calibration tool is located at a closest location to the optimal optical center of the imaging apparatus; and using the center of the tube calibration tool to determine a center of a region of interest for backlight calibration. 2. The calibration method of claim 1 , where the center position is determined laterally by an image center and vertically by half the height of the illuminated area of the light panel. 3. The calibration method of claim 1 , where the center position is determined by a center of a mask layer on each light panel. 4. The calibration method of claim 1 , further comprising performing a background calibration of the region of interest. 5. The calibration method of claim 4 , wherein one of the plurality of light panels has a plurality of light elements on a first side and a plurality of light elements on a second side, the method further comprising: turning on a first drive current to the plurality of light elements on the first side of the one light panel, the first side adjacent to the region of interest; adjusting the first drive current to the plurality of light elements of the one light panel on the first side until a representative intensity at the region of interest reaches a preset value; and with the drive current still being driven to the plurality of light elements of the one light panel on the first side, adjusting the drive current to the plurality of light elements of the light panel on the second side until a representative intensity of the region of interest reaches a second preset intensity value. 6. The calibration method of claim 5 , further comprising first turning on the first drive current to the plurality of light elements of the light panel on the first side that is closest to the region of interest. 7. The calibration method of claim 1 , further comprising comparing an average intensity of at least one other region of the light panel to an average intensity of the second preset intensity value of the region of interest. 8. The calibration method of claim 7 , wherein the comparing the average intensity comprises displaying a percentage of the average intensity value for each of the at least one other region to the average intensity of the second preset intensity value. 9. The calibration method of claim 1 , further comprising comparing an average intensity value of another region of the light panel to an average intensity value of a comparable region from a reference sample quality check system. 10. The calibration method of claim 1 , wherein the calibration method is undertaken prior to pre-screening of sample tubes for an interferent. 11. The calibration method of claim 1 , wherein the calibration method is undertaken after a number of sample tubes are pre-screened or after a specific period of time after initiating prescreening. 12. The calibration method of claim 1 , wherein the center position of each light panel is optically located by locating boundaries of central segments within respective search windows wherein the central segments are based on the intersection of the search windows with an unmasked region. 13. The calibration method of claim 1 , wherein the plurality of light elements comprises red light elements, green light elements, and blue light elements. 14. The light panel calibration method of claim 13 , wherein the plurality of light elements comprises white light elements. 15. A light panel calibration method, comprising: turning on a first drive current to a plurality of light elements of a light panel on a first side of the light panel, the first side adjacent to a region of interest; adjusting the first drive current to the plurality of light elements of the light panel on the first side until a representative intensity at the region of interest reaches a preset value; and with the drive current still being driven to the plurality of light elements of the light panel on the first side, adjusting the drive current to a plurality of light elements of the light panel on a second side of the light panel until a representative intensity of the region of interest reaches a second preset Intensity value. 16. The light panel calibration method of claim 15 , wherein the first side is a side closest to a region of interest. 17. The light panel calibration method of claim 15 , wherein the plurality of light elements comprises red light elements. 18. The light panel calibration method of claim 15 , wherein the plurality of light elements comprises green light elements. 19. The light panel calibration method of claim 15 , wherein the plurality of light elements comprises blue light elements. 20. The light panel calibration method of claim 15 , wherein the plurality of light elements comprises white light elements.