基于AD9920A的超高分辨率CCD模拟前端设计

Li Zhiyong, Yuan Weihua, Dai Xiance
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引用次数: 1

摘要

提出了一种超高分辨率CCD的模拟前端设计方法。根据CCD KAF-39000静态采集的特点,设计了CCD驱动状态流。采用两个AD9920A芯片对模拟图像的左右半帧进行同步数字化。一个AD9920A作为主定时控制器,为KAF-39000生成可编程的水平和垂直驱动时钟。这些驱动时钟由基于AD9920A的四种时序模式组成。FPGA将AD9920A输出时钟转换为标准数字图像接口时钟,用于数字图像采集。实验表明,该AFE电路系统可以输出良好的原始图像,其帧时间为1100ms,输出噪声为2.12@12bit,动态范围为65.7dB。利用基于色差空间的颜色插值算法和边缘检测技术,在FPGA中重构拜耳彩色图像。该设计方法具有较好的灵活性和可扩展性,可广泛应用于遥感探测、光学测量等超高分辨率成像领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Analog Front End of Ultra-High Resolution CCD Design Based on AD9920A
A kind of the analog front end design method for the ultra-high resolution CCD was put forward. According to characteristics of CCD KAF-39000 in the still capture, the CCD driver state flow was designed. Two AD9920A chips were used to digitize right and left half frames of the analog image synchronously. One AD9920A which was as the master timing controller generated programmable horizontal and vertical driver clocks for KAF-39000. These driver clocks were made up of four class timing patterns based on AD9920A. FPGA converted AD9920A output clocks to standard digital image interface clocks for digital image acquisition. Experiments show that the AFE circuit system can output good raw image, its frame time, output noise and the dynamic range are 1100ms, 2.12@12bit and 65.7dB, respectively. The Bayer Color image is reconstructed in the FPGA by the color interpolation algorithm based on color difference space and edge detection technique. With better flexibility and extendibility, this design method can be widely used in more ultra-high resolution imaging fields like remote sensing detection and optical measuring.
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