Abstract
SummaryIn this paper, we propose a time‐to‐digital converter (TDC) with first‐order noise‐shaping. The proposed gated ring oscillator (GRO)‐TDC overcomes the limitation associated with GRO's intrinsic resolution by adopting two GROs, whose delay difference is equal to half the delay of a delay cell. The GRO is composed of 17 stages of a newly proposed delay cell, which utilizes a gate‐switched configuration to solve the charge redistribution problem. The proposed GRO‐TDC is designed using a 65‐nm process technology, with an area of 0.015 mm2 and a supply voltage of 1 V. The sampling rate and the effective resolution of the proposed GRO‐TDC are 50 MS/s and 1.22 ps, respectively. Finally, the proposed GRO‐TDC consumes a power of 9.08 and 2.41 mW in the calibration and conversion modes, respectively. Copyright © 2017 John Wiley & Sons, Ltd.
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