A 13-Bit 1-MS/s SAR ADC With Completion-Aware Background Capacitor Mismatch Calibration

This paper introduces a completion-aware background sequential capacitor mismatch calibration technique for SAR ADC. The proposed method sequentially corrects capacitor mismatch from the lower to the upper bits in the CDAC. This calibration method can automatically detect when calibration is complet...

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Bibliographic Details
Published in:IEEE access 2023, Vol.11, p.104323-104332
Main Authors: Bae, Sunghyun, Lee, Sewon, Seong, Siheon, Kong, Sunwoo, Park, Bonghyuk, Lee, Minjae
Format: Article
Language:English
Subjects:
Adaptation
Analog-to-digital converter (ADC)
background calibration
Calibration
capacitor mismatch
Capacitors
Codes
Control systems
Converters
Optimized production technology
Power efficiency
Redundancy
Registers
successive approximation register (SAR)
Switches
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Summary:This paper introduces a completion-aware background sequential capacitor mismatch calibration technique for SAR ADC. The proposed method sequentially corrects capacitor mismatch from the lower to the upper bits in the CDAC. This calibration method can automatically detect when calibration is complete, thereby improving power efficiency by terminating calibration activities. This approach mitigates the trade-off between adaptation speed and calibration code variation, enhancing correction speed. Moreover, the sequential calibration demonstrates stable adaptation in unpredictable input environments. The ADC developed in this study utilizes 55-nm ultra-low power (ULP) CMOS technology, operates at a speed of 1 MS/s, and consumes 43~\mu W of power. It achieves peak DNL of +0.83/−0.62 LSB and INL of +1.89/−1.13 LSB. Furthermore, it achieves a mean SNDR of 68.5 dB and SFDR of 83.8 dB, resulting in a FoM of 19.59 fJ/conv.-step.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2023.3317888