A 90-nm 640 MHz 2 × VDD Output Buffer With 41.5% Slew Rate Improvement Using PVT Compensation

Wang Jian-An; Zhao Yuan-Yao; Zhang Zheng-Ping

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A 90-nm 640 MHz 2 × VDD Output Buffer With 41.5% Slew Rate Improvement Using PVT Compensation

机译：使用PVT补偿，90-NM 640 MHz 2×VDD输出缓冲器，使用PVT补偿改善了41.5％

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摘要

This brief presents a 2 x VDD output buffer using the encoded compensation technique to minimize slew rate (SR) deviation caused by PVT (process, voltage, temperature) variations. The process detectors can both detect all five process corners and ensure the compensation code unchanged in VT variations. Besides, the charging paths of the proposed voltage level converter (VLC) are independent and directly driven by logic gate, which applied in output stage to speed output buffer data rate up. The proposed design is implemented using a typical 90 nm 1.2 V 1P9M CMOS process, where the core area of a single output buffer is 400 mu mx56 mu m. The measured maximum data rate is 640/480 MHz given 1.2/2.5 V supply voltage, and the power consumption is 32.2 mW at 640 MHz data rate. the slew rate variation improvement is 41.5%/41.9% by PVT detection and SR compensation for VDDIO=1.2/2.5 V, respectively.

机译：此简述使用编码补偿技术介绍了2 x VDD输出缓冲器，以最大限度地减少由PVT（工艺，电压，温度）变化引起的转换速率（SR）偏差。过程探测器都可以检测所有五个过程角，并确保在VT变化中不变的补偿代码。此外，所提出的电压电平转换器（VLC）的充电路径由逻辑门的独立和直接驱动，该逻辑门在输出级中施加到速度输出缓冲器数据速率。所提出的设计是使用典型的90nm 1.2v 1p9m cmos工艺来实现的，其中单个输出缓冲器的核心区域为400μmx56μm。测量的最大数据速率为1.2 / 2.5 V电源电压为640/480 MHz，功耗为32.2 MW，数据速率为640 MHz。通过PVT检测和VDDIO = 1.2 / 2.5V的SR补偿，SLW速率变化改善为41.5％/ 41.9％。

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来源
《Circuits and Systems II: Express Briefs, IEEE Transactions on》 |2020年第9期|1524-1528|共5页
作者
Wang Jian-An; Zhao Yuan-Yao; Zhang Zheng-Ping;
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作者单位

Sci & Technol Analog Integrated Circuit Lab Chongqing 400060 Peoples R China;

Chongqing Univ Posts & Telecommun Chongqing Int Semicond Coll Coll Elect Engn Chongqing 400065 Peoples R China;

Sci & Technol Analog Integrated Circuit Lab Chongqing 400060 Peoples R China;

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原文格式 PDF
正文语种 eng
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关键词
Output buffer; PVT variation; slew rate compensation; process detection; voltage level converter;

机译：输出缓冲器;PVT变化;转换速率补偿;过程检测;电压电平转换器;

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1. A 2×VDD output buffer with PVT detector for slew rate compensation [J] . Chua-Chin Wang, Wen-Je Lu, Chin-Lin Chen, Microelectronics journal . 2013,第5期

机译：具有PVT检测器的2×VDD输出缓冲器，用于压摆率补偿
2. 2 × VDD output buffer with 36.4% slew rate improvement using leakage current compensation [J] . C.-C. Wang, T.-Y. Tsai, T.-J. Lee, Electronics Letters . 2017,第2期

机译：2×VDD输出缓冲器，使用漏电流补偿可将压摆率提高36.4％
3. 2 × VDD 500 MHz Digital Output Buffer with Optimal Driver Transistor Sizing for Slew Rate Self-adjustment and Leakage Reduction Using 28-nm CMOS Process [J] . Wang Chua-Chin, Lou Pang-Yen, Tsai Tsung-Yi, Circuits, systems and signal processing . 2021,第6期

机译：2×VDD 500 MHz数字输出缓冲器，具有最佳驱动器晶体管，用于使用28-NM CMOS工艺进行压摆率自调节和泄漏减少
4. 32 Slew rate and 27 data rate improved 2#x00D7;VDD output buffer using PVTL compensation [C] . Lee Tzung-Je, Ruan Kai-Wei, Wang Chua-Chin 2014 IEEE International Conference on IC Design amp; Technology . 2014

机译：使用PVTL补偿，转换率提高了32％，数据速率提高了27％，2×VDD输出缓冲器
5. Multi-MHZ output stage design for integrated DC-DC converters [D] . Chang, Marian Chi-yu. 2008

机译：集成DC-DC转换器的多MHz输出级设计
6. CLAVATA1 controls distinct signaling outputs that buffer shoot stem cell proliferation through a two-step transcriptional compensation loop [O] . Zachary L. Nimchuk 2017

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7. ESD protection for slew-rate-controlled output buffer in a 0.5μm CMOS SRAM technology [O] . Ming-Dou Ker, Chau-Neng Wu 1998

机译：0.5μmCMOSSRAM技术的弹簧速率控制输出缓冲器的ESD保护

A 90-nm 640 MHz 2 × VDD Output Buffer With 41.5% Slew Rate Improvement Using PVT Compensation

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