Mingqiang Guo, Sai-Weng Sin, Liang Qi, Gang Xiao, R. Martins
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引用次数: 3
摘要
SAR ADC仅由T/H、比较器、SAR逻辑和电容式DAC组成,因此具有低复杂度、低功耗和友好的工艺技术。因此,它在高速应用(如时间交错sar)中有广泛的应用。先前的工作改进了1b/周期拓扑以加快SAR ADC转换,从而产生了多位/周期[1]和n位n比较器[2]结构。与上述架构相比,传统的1b/cycle拓扑结构在低复杂度、少寄生、少偏移等方面仍然具有明显的优势。因此,目前,1b/周期仍然是大多数高速TI SAR adc的首选[3]。具有冗余位结构的高速SAR ADC的普及可以使dac的建立时间非常短[4]。然而,SAR的速度仍然是一个瓶颈,特别是受到数字SAR逻辑的限制[2]。
A 10b 700MS/s single-channel 1b/cycle SAR ADC using a monotonic-specific feedback SAR logic with power-delay-optimized unbalanced N/P-MOS sizing
A SAR ADC comprises only a T/H, a comparator, SAR logics, and a capacitive DAC, thus exhibiting a power-efficient topology with low complexity, low power consumption, and friendly process technology scaling down. Consequently, it has a wide utilization in high-speed applications (like in time-interleaved SARs). Previous works improved the 1b/cycle topology to speed up SAR ADC conversions, leading to multi-bit/cycle [1] and N-bits N-comparators [2] structures. Compared with the above architectures, the conventional 1b/cycle topology still has apparent advantages related to low complexity, less parasitic, and less offset problems. Therefore, currently, the 1b/cycle is still the first choice for the majority of high-speed TI SAR ADCs [3]. The popularization of the high-speed SAR ADC with redundant bit structures can lead to a very short settling time required for the DACs [4]. However, the speed of the SAR is still a bottleneck, especially limited by the digital SAR logic [2].
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