内置s /H的高线性10ghz - erbw 3-to- 7gs /s电压-时间转换器

2023 IEEE 23rd Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems Pub Date : 2023-01-22 DOI:10.1109/SiRF56960.2023.10046225

Lachlan Cuskelly, Dhruv Bhaskar, L. Belostotski

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摘要

本文讨论了一种线性、高速电压-时间转换器(VTC)作为基于时间的模数转换器(TB-ADC)的前端。VTC架构基于恒斜率充电技术，具有固有的采样保持阶段和可调的输出延迟范围，能够达到7-GS/s的转换速率。该设计在65纳米TSMC CMOS工艺上实现，并给出了3、5和7GS/s的测量结果。在7GS/s, VTC有一个最大值。输出差分延迟范围为33ps, ENOB为5。(在低输入频率下)，VTC核心消耗9。0 mw。该VTC的输入有效分辨率带宽(ERBW)使其能够进行宽带转换，在3gs /s下测量的最大ERBW大于10 GHz。本文还讨论了VTC的时域测量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A High-Linearity 10-GHz-ERBW 3-to-7-GS/s Voltage-to-Time Converter with Built-In S/H

This paper discusses a linear, high-speed voltage-to-time converter (VTC) as the front end in a time-based analog to-digital converter (TB-ADC). The VTC architecture is based on a constant-slope charging technique with an inherent sampleand-hold stage and adjustable output delay range, capable of up to 7-GS/s conversion rate. The design in implemented in a 65-nm TSMC CMOS process and measured results at 3, 5, and 7GS/s are presented. At 7GS/s, the VTC has a max. output differential delay range of 33 ps, ENOB of 5. lbits (at low input frequencies), and the VTC core consumes 9. 0mW. The input effective resolution bandwidth (ERBW) of this VTC makes it capable of wideband conversion, with a maximum ERBW of greater than 10 GHz measured at 3 GS/s. Time-domain measurements of the VTC are also discussed.

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2023 IEEE 23rd Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems

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