Illumination device for an optical viewing apparatus

What is claimed is: 1. An illumination device for an optical viewing apparatus, the illumination device defining an illumination beam path and comprising: an illumination light source having mutually independently controllable individual light sources arranged in a two-dimensional array in a first plane; illumination optics defining an optical axis; said illumination optics forming a second plane conjugated with respect to said first plane; a diaphragm unit arranged in said second plane; said diaphragm unit having a plurality of apertures; and, said apertures being assigned to corresponding ones of said individual light sources; said apertures have a size and shape adapted to respective images of said individual light sources in said second plane; said illumination optics define a first main plane (H) and a second main plane (H′); said first main plane (H) and said first plane define a first distance (s) therebetween; said second main plane (H′) and said second plane define a second distance (s′) therebetween; wherein the following relationship is satisfied for a magnification scale: 1≦|s'/s|≦4. 2. The illumination device of claim 1 , wherein said relationship for said magnification scale is 1.3 ≤  s ′ s  ≤ 3. 3. The illumination device of claim 1 , wherein said relationship for said magnification scale is 1.6 ≤  s ′ s  ≤ 2.3 . 4. The illumination device of claim 1 , wherein said illumination light source has at least four of said individual light sources. 5. The illumination device of claim 1 , wherein said two-dimensional array defines a plurality of positions with said individual light sources occupying selected ones of said positions. 6. The illumination device of claim 1 , wherein said individual light sources are configured in the shape of squares, in the shape of rectangles or round. 7. The illumination device of claim 1 , wherein said individual light sources are arranged in the shape of a cross in said two-dimensional array. 8. The illumination device of claim 1 , wherein said individual light sources are arranged in at least two rows and in at least two columns in said two-dimensional array. 9. The illumination device of claim 1 further comprising: a control unit configured to control the brightness of each of said individual light sources via control of at least one of voltage, current and pulsewidth modulation with freely settable pulse ratios. 10. The illumination device of claim 9 , wherein: said control unit is configured such that one or several of said individual light sources is driveable with lesser or greater intensity or with a frequency pattern different than the other ones of said individual light sources so that one or several of said individual light sources form a fixation light. 11. The illumination device of claim 9 , wherein at least one of said individual light sources is configured to emit light having a wavelength different than the other ones of said individual light sources. 12. The surgical microscope of claim 1 further comprising: a control unit; a camera arranged in said viewing beam path and connected to said control unit; and, said control unit being configured to detect a red reflex of an eye and to drive said individual light sources arranged in said two-dimensional array in dependence on a dimension figure for said red reflex. 13. A surgical microscope defining a viewing beam path and comprising: an illumination device defining an illumination beam path and including: an illumination light source having mutually independently controllable individual light sources arranged in a two-dimensional array in a first plane; illumination optics defining an optical axis; said illumination optics forming a second plane conjugated with respect to said first plane; a diaphragm unit arranged in said second plane; said diaphragm unit having a plurality of apertures; and, said apertures being assigned to corresponding ones of said individual light source assigned thereto; said apertures have a size and shape adapted to respective images of said individual light sources in said second plane; said illumination optics define a first main plane (H) and a second main plane (H′); said first main plane (H) and said first plane define a first distance (s) therebetween; said second main plane (H′) and said second plane define a second distance (s′) therebetween; wherein the following relationship is satisfied for a magnification scale: 1≦|s'/s|≦4. 14. A method for automatically switching an illumination variant of a surgical microscope defining a viewing beam path and including an illumination device defining an illumination beam path and including: an illumination light source having mutually independently controllable individual light sources arranged in a two-dimensional array in a first plane; illumination optics defining an optical axis; said illumination optics forming a second plane conjugated with respect to said first plane; a diaphragm unit arranged in said second plane; said diaphragm unit having a plurality of apertures; said apertures being assigned to corresponding ones of said individual light source assigned thereto; a control unit; a camera arranged in said viewing beam path and connected to said control unit; and, said control unit being configured to detect a red reflex of an eye and to drive said individual light sources arranged in said two-dimensional array in dependence on a dimension figure for said red reflex, the method comprising the steps of: recording an image of an eye via the camera arranged in the viewing beam path; evaluating the image recorded by the camera via the control unit; detecting red reflex of the eye via the control device; determining a dimension figure for the red reflex; and, driving the individual light sources arranged in the two-dimensional array in dependence on the dimension figure for the red reflex.