Abstract
A new Vernier-type time-to-digital converter (TDC) with low resource consumption and medium performance is designed and evaluated in a Xilinx Kintex-7 field programmable gate array (FPGA). The converter requires only one ring oscillator, and its resolution is the period difference between two signals of the oscillation pulse and system clock. The conversion is finished by judging the alignment between the oscillation pulse with either the rising edge or the falling edge of the system clock. The difficulty of this new method is the design of the ring oscillator, which is required to oscillate with a frequency closing to the system clock frequency in any position of FPGA to keep TDC performance less position-dependent. The design of such a ring oscillator is proposed and 28 identical TDCs are implemented in 14 clock regions of the FPGA for performance evaluation. Through the TDC bin width measurement, the average resolution of 28 TDCs is 61.1 ps and the variation of resolution over location is 31.5 ps. Through time-interval measurement, the average time-interval RMS precision in 14 clock regions is 28.9 ps and the corresponding precision variation over location is 8.7 ps. The test results show that the proposed TDC is applicable, in particular to cases that multi-channel capability with medium performance is highly required.
Published Version
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