An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation

An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation

Abstract This study presents an 8‐bit delay line digital‐to‐time converter (DTC) with pre‐skewing and digital time interpolation. Pre‐skewing that lowers the per‐stage‐delay of delay lines beyond that set by the chosen technology is investigated. A cascode tri‐state inverter is proposed to improve t...

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Main Authors: Daniel Junehee Lee, Fei Yuan, Gul N. Khan, Yushi Zhou
Format: Article
Language:English
Published: Wiley 2021-10-01
Series:IET Circuits, Devices and Systems
Online Access:https://doi.org/10.1049/cds2.12063
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spelling doaj-e5ebf6343a484468a91a92af5c3e5d6b2021-09-20T16:29:55ZengWileyIET Circuits, Devices and Systems1751-858X1751-85982021-10-0115767068510.1049/cds2.12063An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolationDaniel Junehee Lee0Fei Yuan1Gul N. Khan2Yushi Zhou3Department of Electrical Computer, and Biomedical Engineering Ryerson University Toronto ON CanadaDepartment of Electrical Computer, and Biomedical Engineering Ryerson University Toronto ON CanadaDepartment of Electrical Computer, and Biomedical Engineering Ryerson University Toronto ON CanadaDepartment of Electrical and Computer Engineering Lakehead University Thunder Bay ON CanadaAbstract This study presents an 8‐bit delay line digital‐to‐time converter (DTC) with pre‐skewing and digital time interpolation. Pre‐skewing that lowers the per‐stage‐delay of delay lines beyond that set by the chosen technology is investigated. A cascode tri‐state inverter is proposed to improve the isolation between the input and output of interpolation cells so as to improve the linearity of the time interpolator. Design considerations that critically affect the linearity of the DTC are examined in detail. The impact of the slope of the inputs of the time interpolator on the latency and linearity of the interpolator is analysed and the maximum slope of the input of interpolators yielding the minimum latency without sacrificing linearity, is obtained. The timing errors of DTC are investigated and the considerations of the layout of the DTC are examined. The DTC is designed in a TSMC 65 nm 1.0 V CMOS technology and analysed using Spectre with BSIM3V3 device models. Post‐layout simulation results show the DTC offers 3.6 ps resolution, 580 MS/s conversion rate, and consumes 383 μW.https://doi.org/10.1049/cds2.12063
collection DOAJ
language English
format Article
sources DOAJ
author Daniel Junehee Lee
Fei Yuan
Gul N. Khan
Yushi Zhou
spellingShingle Daniel Junehee Lee
Fei Yuan
Gul N. Khan
Yushi Zhou
An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation
IET Circuits, Devices and Systems
author_facet Daniel Junehee Lee
Fei Yuan
Gul N. Khan
Yushi Zhou
author_sort Daniel Junehee Lee
title An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation
title_short An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation
title_full An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation
title_fullStr An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation
title_full_unstemmed An 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation
title_sort 8‐bit digital‐to‐time converter with pre‐skewing and time interpolation
publisher Wiley
series IET Circuits, Devices and Systems
issn 1751-858X
1751-8598
publishDate 2021-10-01
description Abstract This study presents an 8‐bit delay line digital‐to‐time converter (DTC) with pre‐skewing and digital time interpolation. Pre‐skewing that lowers the per‐stage‐delay of delay lines beyond that set by the chosen technology is investigated. A cascode tri‐state inverter is proposed to improve the isolation between the input and output of interpolation cells so as to improve the linearity of the time interpolator. Design considerations that critically affect the linearity of the DTC are examined in detail. The impact of the slope of the inputs of the time interpolator on the latency and linearity of the interpolator is analysed and the maximum slope of the input of interpolators yielding the minimum latency without sacrificing linearity, is obtained. The timing errors of DTC are investigated and the considerations of the layout of the DTC are examined. The DTC is designed in a TSMC 65 nm 1.0 V CMOS technology and analysed using Spectre with BSIM3V3 device models. Post‐layout simulation results show the DTC offers 3.6 ps resolution, 580 MS/s conversion rate, and consumes 383 μW.
url https://doi.org/10.1049/cds2.12063
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