A high resolution FPGA TDC converter with 2.5 ps bin size and −3.79∼6.53 LSB integral nonlinearity

2016 2nd International Conference on Intelligent Green Building and Smart Grid (IGBSG) Pub Date : 2016-06-27 DOI:10.1109/IGBSG.2016.7539437

Poki Chen, Ya-Yun Hsiao, Y. Chung

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引用次数: 7

Abstract

As a traditional digital platform, Field Programmable Gate Array (FPGA) is seldom used for analog applications. Since there is no way to fine tune the gate property or circuit structure, the performance of FPGA analog application is usually inferior to its counterparts based on full-custom or even cell-based design. Nevertheless, a high performance FPGA time-to-digital Converter (TDC) is proposed in this paper to expand the FPGA territory into high-end analog applications. The test time signal is sampled by a serious timing references generated by feeding the original clock into a tapped delay line. According to periodicity, the delays among those timing references are wrapped into a single reference period and the effective TDC resolution can be made much smaller than the clock period to compete even with the state-of the art full-custom TDCs in performance. After measurement, the effective resolution is as fine as 2.5 ps. The corresponding differential nonlinearity (DNL) is -1.90~1.66 LSB and the integral nonlinearity (INL) is -3.79~6.53 LSB only.

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一种高分辨率FPGA TDC转换器，具有2.5 ps的码仓尺寸和−3.79 ~ 6.53 LSB积分非线性

作为传统的数字平台，现场可编程门阵列(FPGA)很少用于模拟应用。由于无法对栅极特性或电路结构进行微调，因此FPGA模拟应用的性能通常不如基于全定制甚至基于单元设计的同类应用。然而，本文提出了一种高性能的FPGA时间-数字转换器(TDC)，将FPGA的领域扩展到高端模拟应用。测试时间信号通过将原始时钟馈送到抽头延迟线中产生的严重时序参考进行采样。根据周期性，这些时间参考之间的延迟被包裹在一个单一的参考周期中，有效的TDC分辨率可以比时钟周期小得多，甚至可以与最先进的全定制TDC在性能上竞争。经测量，有效分辨率可达2.5 ps，相应的微分非线性(DNL)为-1.90~1.66 LSB，积分非线性(INL)仅为-3.79~6.53 LSB。

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2016 2nd International Conference on Intelligent Green Building and Smart Grid (IGBSG)

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