A Calibration-Free 13b 625MS/s Tri-State Pipelined-SAR ADC with PVT-Insensitive Inverter-Based Residue Amplifier
2022 IEEE Custom Integrated Circuits Conference (CICC)(2022)
摘要
With the increased demand for high data throughput of next-generation wireless communication, pipelined-SAR ADC has become a popular architecture for data conversion due to its superior power efficiency. For 5G/6G wireless communication, near-GHz signal bandwidth requires the residue amplifier (RA) to settle as fast as possible with precise amplification. Previous works [1], [2], [3] have exploited open-loop RAs for high-speed data conversion. However, significant gain error and PVT-related gain variation limit its dynamic range and require gain calibration. Closed-loop RA has been proposed for accurate gain control [4], but its limited bandwidth is not suitable for high-speed applications. In [5], the comparator metastability has been explored to increase the conversion speed in a binary searching SAR topology.
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关键词
closed-loop RA,accurate gain control,high-speed applications,conversion speed,binary searching SAR topology,calibration-free 13b 625MS,tri-state pipelined-SAR ADC,PVT-insensitive inverter-based residue amplifier,next-generation wireless communication,popular architecture,superior power efficiency,near-GHz signal bandwidth,precise amplification,open-loop RAs,high-speed data conversion,significant gain error,PVT-related gain variation,gain calibration
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