A high precision time-to-digital converter based on multi-phase clock implemented within Field-Programmable-Gate-Array

In this paper, the design of a coarse-fine interpolation Time-to-Digital Converter （TDC） is implemented in an ALTERA＇s Cyclone FPGA. The carry-select chain performs as the tapped delay line. The Logic Array Block （LAB） having a propagation delay of 165 ps in the chain is synthesized as delay cell. C...

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Veröffentlicht in:	Nuclear science and techniques 2010-04, Vol.21 (2), p.123-128
1. Verfasser:	CHEN Kai LIU Shubin AN Qi
Format:	Artikel
Sprache:	eng
Schlagworte:	位时钟微分非线性抽头延迟线时间数字转换器现场可编程门阵列高精度
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container_title	Nuclear science and techniques
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creator	CHEN Kai LIU Shubin AN Qi
description	In this paper, the design of a coarse-fine interpolation Time-to-Digital Converter （TDC） is implemented in an ALTERA＇s Cyclone FPGA. The carry-select chain performs as the tapped delay line. The Logic Array Block （LAB） having a propagation delay of 165 ps in the chain is synthesized as delay cell. Coarse counters triggered by the global clock count the more significant bits of the time data. This clock is also fed through the delay line, and LABs create the copies. The replicas are latched by the tested event signal, and the less significant bits are encoded from the latched binary bits. Single-shot resolution of the TDC can be 60 ps. The worst Differential Nonlinearity （DNL） is about 0.2 Least Significant Bit （LSB, 165 ps in this TDC module）, and the Integral Nonlinearity （INL） is 0.6 LSB. In comparison with other architectures using the synchronous global clock to sample the taps, this architecture consumed less electric power and logic cells, and is more stable.
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subjects	位时钟微分非线性抽头延迟线时间数字转换器现场可编程门阵列高精度
title	A high precision time-to-digital converter based on multi-phase clock implemented within Field-Programmable-Gate-Array
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