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26.2 A 5.5fJ/conv-step 6.4MS/S 13b SAR ADC utilizing a redundancy-facilitated background error-detection-and-correction scheme

机译：26.2一个5.5fJ /转换步长6.4MS / S 13b SAR ADC，利用冗余促进的背景误差检测和校正方案

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Wireless standards, e.g., 802.15.4g, need high-resolution ADCs (>10b) with very low power and MS/s sampling rates. The SAR ADC is well known for its excellent power efficiency. However, its intrinsic accuracy (DAC matching) is limited up to 10 to 12b in modern CMOS technologies [1]. Scaling up the device dimensions can improve matching but it deteriorates power-efficiency and speed. Alternatively, calibrations [2-5] are introduced to correct errors (e.g., comparator offset and capacitor mismatch) and push the SNDR beyond 62dB. However, most of the calibrations [2-4] are implemented off-chip and the power for the calibration circuit is relatively high when implemented on-chip. Foreground calibration [4-5] is an alternative but is sensitive to environmental changes. We report a low-power fully automated on-chip background calibration that uses a redundancy-facilitated error-detection-and-correction scheme. Thanks to the low-power calibration, this ADC achieves an ENOB of 10.4b and a power efficiency of 5.5fJ/conv-step at 6.4MS/S.

机译：无线标准（例如802.15.4g）需要具有非常低的功率和MS / s采样率的高分辨率ADC（> 10b）。 SAR ADC以其出色的功率效率而闻名。但是，在现代CMOS技术中，其固有精度（DAC匹配）被限制为10至12b [1]。扩大设备尺寸可以改善匹配度，但会降低电源效率和速度。可替代地，引入校准[2-5]以校正误差（例如，比较器偏移和电容器失配）并将SNDR推到62dB以上。但是，大多数校准[2-4]是在片外实现的，并且在片上实现时，校准电路的功率相对较高。前景校准[4-5]是替代方法，但对环境变化敏感。我们报告了一种低功耗，完全自动化的片上背景校准，该校准使用了冗余促进的错误检测和纠正方案。由于具有低功耗校准功能，因此该ADC的ENOB为10.4b，在6.4MS / S时的功率效率为5.5fJ / conv-step。

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《IEEE International Solid- State Circuits Conference 》|2015年|1-3|共3页
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Ming Ding; Harpe Pieter; Yao-Hong Liu; Busze Benjamin; Philips Kathleen; de Groot Harmke;
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1. IRD Digital Background Calibration of SAR ADC With Coarse Reference ADC Acceleration [J] . Guanhua Wang, Kacani F., Yun Chiu Circuits and Systems II: Express Briefs, IEEE Transactions on . 2014 ,第1期

机译：具有粗略基准ADC加速度的SAR ADC的IRD数字本底校准
2. Background Self-Calibration Algorithm for Pipelined ADC Using Split ADC Scheme [J] . Takuya Yagi, Kunihiko Usui, Tatsuji Matsuura, IEICE Transactions on Electronics . 2011 ,第7期

机译：使用拆分ADC方案的流水线ADC的背景自校准算法
3. Correlation-Based Background Calibration of Bit Weight in SAR ADCs Using DAS Algorithm [J] . Zhang Lizhen, Wang Peng, Sun Jie, Circuits and Systems II: Express Briefs, IEEE Transactions on . 2021 ,第4期

机译：DAS算法SAR ADC中位重量的相关性基于背景校准
4. 26.2 A 5.5fJ/conv-step 6.4MS/S 13b SAR ADC utilizing a redundancy-facilitated background error-detection-and-correction scheme [C] . Ming Ding, Harpe Pieter, Yao-Hong Liu, IEEE International Solid- State Circuits Conference . 2015

机译：26.2 a 5.5fj / conv-step 6.4ms / s 13b SAR ADC利用冗余便利的背景错误检测和校正方案
5. Background digital calibration of SAR ADC with fast FPGA emulation. [D] . Wang, Guanhua. 2013

机译：具有快速FPGA仿真功能的SAR ADC的后台数字校准。
6. Time-Interleaved SAR ADC with Background Timing-Skew Calibration for UWB Wireless Communication in IoT Systems [O] . Kiho Seong, Dong-Kyu Jung, Dong-Hyun Yoon, 2020

机译：物联网系统中用于UWB无线通信的具有时间时序校正的时间交错SAR ADC
7. Time-Interleaved SAR ADC with Background Timing-Skew Calibration for UWB Wireless Communication in IoT Systems [O] . Kiho Seong, Dong-Kyu Jung, Dong-Hyun Yoon, 2020

机译：具有用于UWB系统中的UWB无线通信的后台时序校准的时间交织SAR ADC

26.2 A 5.5fJ/conv-step 6.4MS/S 13b SAR ADC utilizing a redundancy-facilitated background error-detection-and-correction scheme

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