LMS-Based Noise Leakage Calibration of Cascaded Continuous-Time [Formula Omitted] Modulators

In cascaded [Formula Omitted] modulators (DSMs), the quantization noise of the earlier stage leaks to the output unless completely cancelled by the digital noise cancellation filter (NCF). The noise leakage is worse in the continuous-time (CT) implementation due to the poorly controlled time constan...

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Bibliographic Details
Published in:IEEE journal of solid-state circuits 2010-02, Vol.45 (2), p.368
Main Authors: Shu, Yun-Shiang, Kamiishi, Junpei, Tomioka, Koji, Hamashita, Koichi, Song, Bang-Sup
Format: Article
Language:English
Subjects:
Noise
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Summary:In cascaded [Formula Omitted] modulators (DSMs), the quantization noise of the earlier stage leaks to the output unless completely cancelled by the digital noise cancellation filter (NCF). The noise leakage is worse in the continuous-time (CT) implementation due to the poorly controlled time constant of the analog loop filter. A parameter-based continuous-time to discrete-time transform is developed to get an exact digital NCF, and the analog filter time constant is calibrated to match with the digital NCF. A binary pulse tone is injected into the quantizer to detect the filter time-constant error, and eliminated by zero-forcing its residual power based on the adaptive least-mean-square (LMS) algorithm. A 2-1-1 cascaded CT-DSM prototype in 0.18-[Formula Omitted] CMOS demonstrates that the spectral density of the leaked noise is lower than 10 [Formula Omitted] after the capacitors in the Gm-C loop filters are trimmed with 1.1% step. With a 1-[Formula Omitted] full-scale input, it achieves a dynamic range of 68[Formula Omitted]dB within 18-MHz bandwidth at an over-sampling ratio of 10. The analog core and the digital logic occupy 1.27 [Formula Omitted], and consume 230 mW at 1.8 V.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2009.2036759