Infrared target simulator can simulate the real target and background infrared imaging in the laboratory, offer the exactly controlled and repeated condition for the testing and evaluation to the performance of the infrared detection equipment, testing each performance index during the development phase. The characteristics of the infrared optical systems were analyzed. The system parameters which worked at long wave with 1024 ×768 DMD were given. An optical system of medium-frequency wave dynamic infrared scene projector based on the digital micromirror device (DMD) was given by using secondary imaging. The optical system was designed with a long distance of exit pupil, large working distance and short focal length .The exit pupil distance of the system could reach 740 mm, the entrance pupil aperture is 26.5 mm, and the field angle is 12°x9°. In order to get better resolution and image quality, an optimization result and the system aberration were obtained by the ZEMAX software. The whole optical system using the materials of Ge and Si consisted of 6 elements. It was designed with a refractive hybrid system to reduce color aberration and thermal aberration in the temperature range of 10-40¬°. The projector optical system takes advantage of high quality image with MTF better than 0.6 at a spatial frequency of 16 lp/mm in the full field of view, and the distortion is better than 0.5% which is operational within the working temperature.
The Optical capability of visible light transmittance is studied on this paper. The system is based on the
principle of cross-correlation detection, and measure the transmittance of visible light Optical system
though the way of dual-channels, compare to the previous way, eliminate the error of measuring many
times, and restrain the noise signal more effectively. Moreover, the whole system can work on the
conditions of light field. And monitoring and dealing with the result in real-time. The testing accuracy