Peng Chen, Xiongchuan Huang, Yao-Hong Liu, M. Ding, Cui Zhou, A. Ba, K. Philips, H. D. Groot, R. Staszewski
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Design and built-in characterization of digital-to-time converters for ultra-low power ADPLLs
The newly proposed phase-prediction counter-based ADPLL has achieved a wireless standard-compliant performance at ultra-low power consumption. The digital-to-time converter (DTC) is the key enabler but is nonlinearity can easily create fractional spurs. This paper analyzes the effect of the DTC nonlinearity on in-band fractional spurs and proposes a method to characterize it in a built-in fashion by means of a fine-resolution ΔΣ TDC that forms an outer loop with the DTC. The TDC is realized in 40nm CMOS and exhibits only 1.8ps rms of random jitter.
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