A Quadrature Clock Corrector for DRAM Interfaces, With a Duty-Cycle and Quadrature Phase Detector Based on a Relaxation Oscillator

Chae Joo-Hyung; Ko Hyeongjun; Park Jihwan; Kim Suhwan

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A Quadrature Clock Corrector for DRAM Interfaces, With a Duty-Cycle and Quadrature Phase Detector Based on a Relaxation Oscillator

机译：用于DRAM接口的正交时钟校正器，基于宽松振荡器的占空比和正交相位检测器

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A quadrature clock corrector uses relaxation oscillators to detect duty-cycle and quadrature phase errors by transforming them into pairs of frequencies, which are then digitized and compared. It achieves good detection accuracy and can detect a wide range of duty-cycle and quadrature phase errors. The prototype is implemented in a 55-nm CMOS process with a supply voltage of 1.2 V and occupies an area of 0.003 mm(2). The experimental results show that the operation range is from 1 to 3 GHz, the power efficiency is 0.79 mW/GHz, the maximum duty-cycle error is 0.8% at 3 GHz, and the maximum quadrature phase error is 1.1 degrees at 3 GHz.

机译：正交时钟校正器使用弛豫振荡器来检测占空比和正交相位误差，转换成对频率对，然后将其数字化并比较。它达到了良好的检测精度，可以检测到各种占空比和正交相位误差。原型在55nm CMOS工艺中实现，电源电压为1.2V，占地面积为0.003mm（2）。实验结果表明，操作范围为1至3GHz，功率效率为0.79mW / GHz，最大占空比误差为0.8％，在3GHz下为0.8％，最大正交相位误差为1.1GHz。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2019年第4期|978-982|共5页
作者
Chae Joo-Hyung; Ko Hyeongjun; Park Jihwan; Kim Suhwan;
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作者单位

Seoul Natl Univ Dept Elect & Comp Engn Seoul 08826 South Korea;

Seoul Natl Univ Dept Elect & Comp Engn Seoul 08826 South Korea;

SK Hynix Icheon 17336 South Korea;

Seoul Natl Univ Dept Elect & Comp Engn Seoul 08826 South Korea;

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正文语种 eng
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Dynamic random access memory (DRAM) interface; duty cycle; quadrature clock corrector; quadrature phase; relaxation oscillator;

机译：动态随机存取存储器（DRAM）界面;占空比;正交时钟校正器;正交相;放松振荡器;

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1. A Quadrature Clock Corrector for DRAM Interfaces, With a Duty-Cycle and Quadrature Phase Detector Based on a Relaxation Oscillator [J] . Chae Joo-Hyung, Ko Hyeongjun, Park Jihwan, IEEE transactions on very large scale integration (VLSI) systems . 2019,第4期

机译：用于DRAM接口的正交时钟校正器，具有基于弛豫振荡器的占空比和正交相位检测器
2. A DLL-Based Quadrature Clock Generator With a 3-Stage Quad Delay Unit Using the Sub-Range Phase Interpolator for Low-Jitter and High-Phase Accuracy DRAM Applications [J] . Youngbog Yoon, Hyunsu Park, Chulwoo Kim Circuits and Systems II: Express Briefs, IEEE Transactions on . 2020,第11期

机译：一种基于DLL的正交时钟发生器，具有3级四延迟单元，用于低抖动和高阶段精度DRAM应用的子距离相位插值
3. A 2.3-mW 0.01-mm 2 1.25-GHz Quadrature Signal Corrector With 1.1-ps Error for Mobile DRAM Interface in 65-nm CMOS [J] . YongJo Kim, Keunsoo Song, Dongkyun Kim, IEEE transactions on circuits and systems. II, Express briefs . 2017,第4期

机译：用于65nm CMOS的移动DRAM接口的，具有1.1ps误差的2.3mW 0.01mm 2 1.25GHz正交信号校正器
4. A Low EMI Transmitter for DRAM Interface with Quadrature Clock Corrector [C] . Dong-Wan Ko, Won-Young Lee IEEE International Symposium on Circuits and Systems . 2021

机译：具有正交时钟校正器的DRAM接口的低EMI发射器
5. Clock programmable IF circuits for CMOS software defined radio receiver and precise quadrature oscillators. [D] . Mirzaei, Ahmad. 2006

机译：时钟可编程IF电路，用于CMOS软件定义的无线电接收器和精确的正交振荡器。
6. Current/Voltage Controlled Quadrature Sinusoidal Oscillators for Phase Sensitive Detection Using Commercially Available IC [O] . Winai Jaikla, Suchin Adhan, Peerawut Suwanjan, 2020

机译：使用市售IC进行电流/电压控制的正交正弦波振荡器进行相位敏感检测
7. Inverse Sine Phase Detector Phase Locked Loop Associated with Modified Multi Band LC Quadrature Voltage Controlled Oscillator for Wireless Communication Systems at 0.9, 1.8, 2.4, 3.5 GHz [O] . Mahmoud Abdellaoui 2009

机译：适用于0.9、1.8、2.4、3.5 GHz无线通信系统的反向正弦相位检测器锁相环与改进的多频带LC正交压控振荡器相关联
8. Quadrature Clock Modulation Versus Binary and Quadrature Phase Shift Keying in the Presence of Intersymbol Interference. [R] . White, G. A. 1977

机译：在符号间干扰的情况下，正交时钟调制与二进制和正交相移键控。

A Quadrature Clock Corrector for DRAM Interfaces, With a Duty-Cycle and Quadrature Phase Detector Based on a Relaxation Oscillator

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