A 0.05–1.5-GHz PVT-Insensitive Digital-to-Time Converter for QKD Applications

IF 2.8 2区工程技术 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Transactions on Very Large Scale Integration (VLSI) Systems Pub Date : 2024-08-30 DOI:10.1109/TVLSI.2024.3447111

Haiyue Yan;Yan Ye;Wenjia Li;Xuefei Bai

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Abstract

This work introduces a dual-channel digital-to-time converter (DTC) featuring a broad tuning range, which utilizes a dual delay-locked loop (DLL) architecture to achieve clock or data deskewing and precise timing adjustment effectively. The coarse- and fine-tuning mechanisms are operated in precise closed-loop schemes to lessen the effects of the ambient variations. The replica fine voltage-controlled delay line can provide subgate resolution and instantaneous switching capability. Then, the replica coarse voltage-controlled delay line can provide a wide dynamic delay range. The proposed DTC can generate variable delays for an arbitrary pseudorandom data rate of up to 3 Gb/s and is insensitive to process and temperature variation. The test chip, fabricated in a 55-nm CMOS process, operates from 0.05 to 1.5 GHz and achieves a timing resolution of 9.77 ps, a power consumption of 12 mW, and an area of 0.76 mm2. The measured maximum integral nonlinearity (INL) is 2.20 LSB in an extended delay mode. In the dual delay mode, the maximum INL of channels 0 and 1 is 1.60 and −1.08 LSB, respectively.

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用于 QKD 应用的 0.05-1.5 GHz PVT 不敏感数时转换器

本工作介绍了一种具有宽调谐范围的双通道数字时间转换器（DTC），它利用双延迟锁定环（DLL）架构有效地实现时钟或数据去偏和精确定时调整。粗调和微调机构在精确的闭环方案中运行，以减少环境变化的影响。该复刻微细压控延迟线具有分门分辨率和瞬时切换能力。因此，复制粗压控延迟线可以提供较宽的动态延迟范围。所提出的DTC可以为高达3gb /s的任意伪随机数据速率产生可变延迟，并且对工艺和温度变化不敏感。该测试芯片采用55纳米CMOS工艺制造，工作频率为0.05至1.5 GHz，时序分辨率为9.77 ps，功耗为12 mW，面积为0.76 mm2。在扩展延迟模式下测量到的最大积分非线性（INL）为2.20 LSB。在双延时模式下，通道0和通道1的最大INL分别为1.60和−1.08 LSB。

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来源期刊

IEEE Transactions on Very Large Scale Integration (VLSI) Systems 工程技术-工程：电子与电气

CiteScore

6.40

自引率

7.10%

发文量

187

审稿时长

3.6 months

期刊介绍： The IEEE Transactions on VLSI Systems is published as a monthly journal under the co-sponsorship of the IEEE Circuits and Systems Society, the IEEE Computer Society, and the IEEE Solid-State Circuits Society. Design and realization of microelectronic systems using VLSI/ULSI technologies require close collaboration among scientists and engineers in the fields of systems architecture, logic and circuit design, chips and wafer fabrication, packaging, testing and systems applications. Generation of specifications, design and verification must be performed at all abstraction levels, including the system, register-transfer, logic, circuit, transistor and process levels. To address this critical area through a common forum, the IEEE Transactions on VLSI Systems have been founded. The editorial board, consisting of international experts, invites original papers which emphasize and merit the novel systems integration aspects of microelectronic systems including interactions among systems design and partitioning, logic and memory design, digital and analog circuit design, layout synthesis, CAD tools, chips and wafer fabrication, testing and packaging, and systems level qualification. Thus, the coverage of these Transactions will focus on VLSI/ULSI microelectronic systems integration.

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