Time-to-digital conversion techniques: a survey of recent developments.

• This article reports recent developments in time-to-digital conversion (TDC) techniques. • A comprehensive picture of major trends and advancements of the TDC design is presented. • The architectures, implementations and performance of TDCs including time resolution, conversion range, conversion time, power consumption, and converter nonlinearities are discussed in details. Time-to-digital converters (TDCs) are key components of time-mode circuits and enablers for digital processing of analog signals encoded in time. Since design of time-mode circuits facilitates replacing analog blocks with digital circuitry, TDCs pave the way to hardware-efficient and purely digital architectures in deep-submicron semiconductor technology. The design and implementation of modern TDCs is heterogeneous, shaped in multiple directions, and driven by CMOS process downscaling along with application demands. The substantial research effort is made in more intensive digital implementations, optimization of techniques for high resolution, increasing input range and linearity, reduced conversion time, power consumption and silicon area. The calibration and mismatch-tolerant, as well as anti-PVT-variation and anti-metastability design techniques are of growing importance in order to alleviate imperfections of nanoscale CMOS technologies. The paper surveys recent developments of time-to-digital conversion techniques to give a possibly comprehensive picture of major trends and design advancements. Finally, we highlight TDC design challenges for cutting-edge applications such as All-Digital Phase Locked Loops for high data rate wirelesss communication systems operating in the millimeter-wave band. [ABSTRACT FROM AUTHOR]