Suresh Koyada, Abhilash Karnatakam Nagabhushana, Stefan Leitner, Haibo Wang
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引用次数: 2
摘要
本文将先前在基于电压时间(VTC)的ADC电路中实现的加速sar (a - sar)技术扩展到基于电压比较的主流ADC电路中。在基于vtc的A-SAR ADC电路设计中,可以方便地生成辅助比较的电平。然而,在基于电压比较的电路中产生这种辅助电平是比较复杂的。本文讨论了应对这一设计挑战的技术。此外,通过引入自适应辅助电平选择,进一步提高了A-SAR技术的效率。系统级仿真表明,所提出的自适应辅助电平选择方法明显优于先前使用固定辅助电平的方法。本文还介绍了实现自适应方法的电路技术。所提出的方法和所开发的电路技术在10位ADC电路中实现。将a -SAR ADC的性能与传统的SAR ADC进行了比较,结果表明了所提出技术的优点。
An A-SAR ADC circuit with adaptive auxiliary comparison scheme
This paper extends the accelerated-SAR (A-SAR) technique, which was previously implemented in a Voltage-to-Time (VTC) based ADC circuit, to the mainstream voltage comparison based ADC circuits. In the design of VTC-based A-SAR ADC circuits, the levels for auxiliary comparison can be easily generated. However, it is more complicated to produce such auxiliary levels in the voltage comparison based circuits. Techniques to cope with this design challenge are discussed in the paper. In addition, this work further enhances the efficiency of the A-SAR technique by introducing adaptive auxiliary level selection. System-level simulations show that the proposed adaptive auxiliary level selection method significantly outperforms the previous approach that uses fixed auxiliary levels. Circuit techniques to implement the adaptive methods are also presented in the paper. The proposed method and developed circuit techniques are implemented in 10-bit ADC circuits. The performance of the A-SAR ADC is compared with a conventional SAR ADC and the comparison demonstrates the benefits of the proposed techniques.
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