A 4.32-ps precision Time-to-Digital Convertor using multisampling wave union method on a 28-nm FPGA

Abstract

Abstract In this paper, a fully implemented field programmable gate array (FPGA) based time-to-digital converter (TDC) using multisampling wave union method (MSWU) is proposed to get higher measurement precision with lower resource utilization. Different from the previously published works based on wave union methods, an inverter-chain-based wave launcher is introduced to generate more low-jitter edges in the same operation range. Meanwhile, a new de-bubble solution combining with offline bin alignment and online bin sorting is applied to eliminate severe bubbles in FPGAs of advanced manufacturing technologies. The proposed TDCs are verified on a Virtex-7 (28 nm) of FPGA development board VC707. According to test results, the average measurement precision and mean resolution reach 4.32 ps and 0.82 ps, respectively with [-0.98;3.43] LSB DNL and [-6.06;34.1] LSB INL. A complete TDC channel only uses 831 D-type flip-flops (DFFs), 1305 look-up tables (LUTs) and 6 block random access memories (BRAMs) of 36k bits.