光学 精密工程, 2010, 18 (9): 2053, 网络出版: 2010-12-07
大面阵CCD图像实时显示系统的设计
D esign of large-array CCD real-time display system
CCD图像 实时显示 CameraLink接口 现场可编程门阵列(FPGA) Bin操作 SDRAM控制器 CCD image real time display CameraLink interface Field Programming Gate Array(FPGA) Bin operation SDRAM controller
摘要
为解决基于CameraLink接口的相机必须使用专用采集卡和系统机才能显示的问题,设计了一种结构简单、携带方便的图像实时显示系统。该系统采用2片SDRAM对图像进行交替缓存,并在Xilinx公司的Spatan3系列现场可编程门阵列(FPGA)中完成了较为复杂的主要控制逻辑。将CameraLink输入的图像经过拼接、BIN等预处理后缓存到1片SDRAM,同时按照一定格式以25 frame(50 field)/s的速度读出另1片SDRAM中的图像,经ADV7300转换成模拟电视信号后送到模拟显示器显示。结果表明,在相机帧频为3.6 frame/s时,该系统可以实时显示大面阵CCD数字航测相机拍摄的图像,能观察不同分辨率的图像以及原图像任何部位的细节,并能根据天气条件调整显示亮度以更好地观察图像。该系统只包含1块电路板和1个模拟显示器,已成功应用于4 008×5 344面阵的CCD数字航测相机中。
Abstract
As the CCD camera based on CameraLink interface can not display images without a dedicated data acquisition card and system computer, a kind of simple and real-time image display system was designed for a 4 008×5 344 array CCD camera based on CameraLink interface. Two SDRAMs were used in the system to storage images alternately, and the main logical function was accomplished in a Spatan3 family Field Programming Gate Array(FPGA) from Xilinx Company. The image data from CameraLink were storaged in a SDRAM by stitching and BIN processing,meanwhile,the image data read from another SDRAM at a speed of 25 frame/s(50 field /s) were convert to standard TV analog signals by a digital-to-analog encoder chip ADV7300 to display in an analog monitor. The verification results show that the system can real-time display the images of the large-array digital aerial camera with different resolutions and their details at a speed of 3.6 frame /s,and also can adjust the brightness of the images to get a good observation according to the weather conditions. The designed system only contains one PCB board and one alanog monitor and has been used in a CCD digital aerial camera with the 4 008×5 344 array successfully.
王明富, 杨世洪, 吴钦章. 大面阵CCD图像实时显示系统的设计[J]. 光学 精密工程, 2010, 18(9): 2053. WANG Ming-fu, YANG Shi-hong, WU Qin-zhang. D esign of large-array CCD real-time display system[J]. Optics and Precision Engineering, 2010, 18(9): 2053.