A 32GS/s 8-bit time-interleaved ADC system with 16GHz wideband RF front-end and embedded fully-blind digital calibration

2017 10th Global Symposium on Millimeter-Waves Pub Date : 2017-05-24 DOI:10.1109/GSMM.2017.7970295

Youjiang Liu, Dahai Chen, Guifu Zhang, Niantong Du, Yongtao Qiu

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引用次数: 8

Abstract

This paper implements a time-interleaved ADC (TI-ADC) system with embedded 16GHz wideband track-hold (T/H) front-end. The TI-ADC is characterized with 32GS/s total sampling rate, by time-interleaving 16-channel sub-ADCs with 2GS/s individual sampling rate and 8-bit resolution. A digital blind post-calibration technique based on frequency domain analysis of the TI-ADC output is proposed, which is characterized using a comprehensive TI-ADC behavioral model. The model takes into account the timing, gain and offset mismatch errors. All the three mismatch errors are characterized using the specific basis functions. Without the need of training sequence, a blind calibration model is developed during an iterative loop to extract the mismatch errors, which are subtracted from the measured TI-ADC output successively. A maximum of 3-bit improvement for the effective number of bit (ENOB) has been achieved, resulting in a 6.5 bit ENOB at low-end frequency and 4.5 bit ENOB at high-end frequency. Further, the proposed technique is also effective to wideband signal's sampling.

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32GS/s 8位时间交错ADC系统，16GHz宽带射频前端和嵌入式全盲数字校准

本文实现了一种嵌入式16GHz宽带T/H前端的时间交错ADC (TI-ADC)系统。TI-ADC的特点是总采样率为32GS/s，时间交错16通道子adc，单个采样率为2GS/s，分辨率为8位。提出了一种基于TI-ADC输出频域分析的数字盲后校正技术，并利用TI-ADC综合行为模型对其进行表征。该模型考虑了时序、增益和偏置失配误差。利用特定的基函数对三种失配误差进行了表征。在不需要训练序列的情况下，在迭代循环中建立盲校正模型来提取失配误差，并依次从测量的TI-ADC输出中减去失配误差。有效比特数(ENOB)的最大3位改进已经实现，导致低端频率的ENOB为6.5位，高端频率的ENOB为4.5位。此外，该方法对宽带信号的采样也很有效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 10th Global Symposium on Millimeter-Waves

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