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Note: Due to the very high number of downloads for the Crucc 2.4 Cracked, we are temporarily putting it on.It is not always easy to attain the best position for observing remote astronomical events, such as satellites, Earth occultations, planets and comets. One class of devices for performing this observation is known as “video telescopes”. A typical video telescope incorporates an electronically controlled optical assembly comprising primary, secondary and tertiary reflectors. Image formation is achieved by imaging the scene on a device known as a television (TV) camera. The shape of the primary reflector reflects and focusses the optical energy from the scene onto an aperture which reimages the scene on the primary reflector’s focal plane. This re-imaged image is then focussed by the secondary reflector onto the TV camera. In traditional instruments, the optical assembly is controlled by gimbals mounted on the primary reflector and each pointing to a different part of the sky. In video telescope instruments the optical assembly is typically mounted on the primary reflector and the gimbals are eliminated.
Systems incorporating apertures and mirrors are known in several different configurations.
For example, U.S. Pat. No. 7,048,779 (Contursi) discloses a system comprising a telescope with a primary and secondary reflector, a flat-disc aperture placed between the primary and secondary reflectors and a means for light-phase conjugating the image of the primary reflector onto the flat-disc aperture.
A video camera can be placed at the focal plane of the primary reflector and the TV image can be displayed on a monitor.
An alternative system known as the “Diamond” system comprises a telescope with a primary and secondary reflector, a cylindrical aperture placed between the primary and secondary reflectors, and an iris aperture mounted at the focal plane of the primary reflector.
In the “Diamond” system, the image of the primary reflector is focussed onto the iris aperture and the image of the iris aperture is focussed onto the cylindrical aperture. The image of the cylindrical aperture is focussed on a TV camera. The image-forming optics in this system comprise a cylindrical aperture and an iris aperture mounted on the primary reflector.
A patent issued to Suzuki et al. (U.S. Pat. No. 4,872,726) discloses a system in which a