A 0.001-mm², 1.15–11-GHz Background Quadrature Phase and Duty-Cycle Error Corrector Using a NAND- Based Phase Detector in 28-nm CMOS

IF 2.2 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Solid-State Circuits Letters Pub Date : 2024-08-30 DOI:10.1109/LSSC.2024.3452280
Jaewon Oh;Seonghwan Cho
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Abstract

This letter introduces a background quadrature phase and duty-cycle error corrector featuring a shared NAND-based phase detector and a differential voltage-controlled delay line, which are used to determine and compensate for the phase and duty-cycle errors of the quadrature signals. In contrast to prior quadrature phase error correctors that require 50% duty-cycle inputs, the proposed corrector can minimize errors in both quadrature phase and duty-cycle with a wide operating frequency, low jitter, and low power consumption. Implemented in 28-nm CMOS, the prototype operates over a frequency range of 1.15–11 GHz and achieves a quadrature phase error of less than 2.3° and a duty-cycle error of less than 0.8% for input phase error up to 80°. It consumes 2.1 mW and achieves a low RMS jitter of 21.6 fs at 5 GHz while occupying only 0.001 mm2.
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使用基于 NAND 的 28 纳米 CMOS 相位检测器的 0.001-mm²、1.15-11-GHz 背景正交相位和占空比误差校正器
这封信介绍了一种背景正交相位和占空比误差校正器,其特点是共享基于 NAND 的相位检测器和差分压控延迟线,用于确定和补偿正交信号的相位和占空比误差。与之前需要 50% 占空比输入的正交相位误差校正器相比,所提出的校正器可以最大限度地减少正交相位和占空比误差,同时具有宽工作频率、低抖动和低功耗的特点。原型采用 28-nm CMOS 实现,工作频率范围为 1.15-11 GHz,正交相位误差小于 2.3°,输入相位误差达 80°时,占空比误差小于 0.8%。它的功耗为 2.1 mW,在 5 GHz 频率下实现了 21.6 fs 的低有效值抖动,占地面积仅为 0.001 mm2。
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来源期刊
IEEE Solid-State Circuits Letters
IEEE Solid-State Circuits Letters Engineering-Electrical and Electronic Engineering
CiteScore
4.30
自引率
3.70%
发文量
52
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