Illumination optical system for laser line generator

What is claimed is: 1. An illumination optical system configured to illuminate a Digital Micromirror Device (DMD) array, comprising: an illumination module including: a light source configured to generate a light beam, a light guide adjacent the light source to transport the light beam from the light source, the DMD array having an array of micromirrors in 2D configuration tilted around a diagonal axis, the DMD array of micromirrors being planar with a row direction and a column direction orthogonal to the row direction, both the row direction and the column direction being within the plane of the DMD array, the light beam being transported by the light guide and out of an exit face of the light guide at a compound angle relative to the row and column directions, and a Refractive Total Internal Reflection (RTIR) prism that receives the light beam from the light guide and redirects the light beam to the DMD array along a compound incident angle, the RTIR prism including a 45-45-90 degree prism and a compound angle prism, the compound angle prism having a 45 degree bottom face above a top face of the 45-45-90 degree prism with an airspace gap therebetween, the 45-45-90 degree prism having an bottom face mounted parallel to the plane of the DMD array, the DMD array configured to modulate the light beam and generate an image as reflected image output beams, the 45-45-90 degree prism configured to direct the image output beams to the imaging member; and a DMD housing containing the DMD array, the DMD housing having a width, the illumination module being confined within the width of the DMD housing. 2. The illumination optical system of claim 1 , the illumination module being a first illumination module, and further comprising a second illumination module, the second illumination module including a second light source, a second light guide, a second DMD array, a second RTIR prism and a second DMD housing containing the second DMD array, the second RTIR configured to direct second image output beams from the second DMD array to the imaging member, the second DMD housing having a second width with the second illumination module being confined within the width of the second DMD housing, the second illumination module stacked against the first illumination module in a side-by-side configuration for stitching of the image output beams and the second image output beams into an image line parallel to the row direction of the DMD array. 3. The illumination optical system of claim 1 , wherein the light guide is a wedge light guide having a longitudinal direction, the wedge light guide configured to transport the light beam out of the light guide in a direction different than the longitudinal direction towards the RTIR prism, the compound angle prism being a wedge prism. 4. The illumination optical system of claim 1 , wherein the DMD array micromirrors are tilted plus or minus 12 degrees around a 45 degree tilted diagonal axis. 5. The illumination optical system of claim 1 , further comprising a DMD window mounted parallel to and between the bottom face of the 45-45-90 degree prism and the DMD array. 6. The illumination optical system of claim 1 , wherein the DMD array is configured to reflect incident light of off state beams different that the image output beams, the 45-45-90 degree prism having a width greater than the width of the compound angle prism to direct the incident light of off state beams away from the image output beams. 7. The illumination optical system of claim 1 , wherein both the compound angle prism and the 45-45-90 degree prism have the same refractive index. 8. The illumination optical system of claim 1 , wherein the light source is a plurality of laser diode bars, and further comprising a collimator lens between the laser diode bars and the light guide. 9. The illumination optical system of claim 1 , wherein the light guide is tilted at an angle towards the compound angle prism based on the refractive index of the RTIR prism and the central ray direction of the redirected light beam incident on the DMD. 10. The illumination optical system of claim 1 , further comprising relay lenses between the light guide and the RTIR prism, the relay lenses configured to image the exit face of the light guide onto the DMD array via the RTIR prism. 11. An illumination optical system configured to illuminate a Digital Micromirror Device (DMD) array, comprising: a plurality of illumination modules stacked against each other in a side-by-side configuration, each illumination module including: a light source configured to generate a light beam, a light guide adjacent the light source to transport the light beam from the light source, the DMD array having an array of micromirrors in 2D configuration tilted around a diagonal axis, the DMD array of micromirrors being planar with a row direction and a column direction orthogonal to the row direction, both the row direction and the column direction being within the plane of the DMD array, the light beam being transported by the light guide and out of an exit face of the light guide at a compound angle relative to the row and column directions, and a Refractive Total Internal Reflection (RTIR) prism that receives the light beam from the light guide and redirects the light beam to the DMD array along a compound incident angle, the RTIR prism including a 45-45-90 degree prism and a compound angle prism, the compound angle prism having a 45 degree bottom face above a top face of the 45-45-90 degree prism with an airspace gap therebetween, the 45-45-90 degree prism having a bottom face mounted parallel to the plane of the DMD array, the DMD array configured to modulate the light beam and generate an image as reflected image output beams, the 45-45-90 degree prism configured to direct the image output beams to the projection optics that images the DMD array onto the imaging member; and a DMD housing containing the DMD array, the DMD housing having a width, the illumination module being confined within the width of the DMD housing, wherein the plurality of illumination modules are stacked against each other in a side-by-side configuration with parallel DMD row directions for stitching of the image output beams of each illumination module into an image line parallel to the row direction of the DMD arrays. 12. The illumination optical system of claim 11 , wherein the light guide is a wedge light guide having a longitudinal direction, the wedge light guide configured to transport the light beam out of the light guide in a direction different than the longitudinal direction towards the RTIR prism, the compound angle prism being a wedge prism. 13. The illumination optical system of claim 11 , wherein the DMD array micromirrors are tilted plus or minus 12 degrees around a 45 degree tilted diagonal axis. 14. The illumination optical system of claim 11 , further comprising a DMD window mounted parallel to and between the bottom face of the 45-45-90 degree prism and the DMD array. 15. The illumination optical system of claim 11 , wherein the DMD array is configured to reflect incident light of off state beams different that the image output beams, the 45-45-90 degree prism having a width greater than the width of the compound angle prism to direct the incident light of off state beams away from the image output beams. 16. The illumination optical system of claim 11 , wherein the light source is a plurality of laser diode bars, and further comprising a collimator lens between the laser diode bars and the light guide. 17. The illumination optical system of clai