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引用次数: 10
摘要
描述了一种可能适用于高分辨率视频应用的自校准流水线A/D(模数)转换器技术。这种方法可能比多步闪存方法需要更少的面积,比误差平均技术需要更少的时钟周期。由于自校准可以在帧间间隔期间执行,因此这种方法对视频应用特别有吸引力。使用该架构制作的用于可行性评估的3 μ m CMOS原型在2.5 Msample/s下实现了13-b的分辨率,功耗为100 mW,占用40 K mil2,采用单个5 v电源和两相不重叠时钟。从这些结果中可以推算出15 MHz的采样率和大约10 K mil2的面积,在1- m的实现中
A 13 bit 2.5 MHz self-calibrated pipelined A/D converter in 3 μm CMOS
A self-calibrated pipelined A/D (analog-to-digital) converter technique potentially applicable in high-resolution video applications is described. This approach potentially requires much less area than multistep flash approaches and requires fewer clock cycles than error averaging techniques. Since self-calibration can be performed during interframe intervals, this approach is particularly attractive for video applications. A 3-μm CMOS prototype fabricated for feasibility evaluation using this architecture achieves 13-b resolution at 2.5 Msample/s, consumes 100 mW, and occupies 40 K mil2, with a single 5-V supply and a two-phase nonoverlapping clock. A sampling rate of 15 MHz and an area of about 10 K mil2 can be projected from these results in a 1-μm implementation
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