改进了Sayiner水平交叉ADC

P. Jungwirth, A. Poularikas
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引用次数: 12

摘要

仿真结果表明,塞伊纳电平交叉变换器的主要畸变是奇谐波畸变,并研究了两种改善变换器性能的方法。提出了一种余弦抖动技术。讨论了混合δ σ电平交叉变换器的潜在优点。奈奎斯特模数转换器通过大量量化电平实现高动态范围。Delta - sigma过采样模数转换器通过对大量粗量化样本进行平均来实现高动态范围。过零转换器确定输入信号等于参考信号的时间。过零变换器需要精确的定时来实现高动态范围。通过将少量量化电平与过零次数相结合,Sayiner的过零变换器实现了高动态范围,其复杂性仅为奈奎斯特变换器的一小部分,并且需要比过零变换器更精确的定时。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improved Sayiner level crossing ADC
We present simulations showing the primary distortion in a Sayiner level crossing converter is odd harmonic distortion and examine two methods for improving the performance. A cosine-dither technique is presented. The potential benefits of a hybrid delta sigma level crossing converter are discussed. Nyquist analog-to-digital converters achieve high dynamic range with a large number of quantization levels. Delta sigma oversampling analog-to-digital converters achieve high dynamic range by averaging a large number of coarsely quantized samples together. A zero crossing converter determines the time when the input signal equals a reference signal. A zero crossing converter requires accurate timing to achieve high dynamic range. By combining a small number of quantization levels with zero crossing times, Sayiner's level crossing converter achieves high dynamic range with a fraction of the complexity of a Nyquist converter and requires less accurate timing than a zero crossing converter.
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