一种90 nm FPGA I/O缓冲设计，源同步系统数据速率为1.6 Gbps，外部存储器接口时钟速率为300 MHz

Proceedings of the IEEE 2004 Custom Integrated Circuits Conference (IEEE Cat. No.04CH37571) Pub Date : 2004-11-22 DOI:10.1109/CICC.2004.1358843

Jeffrey Tyhach, Bonnie Wang, C. Sung, Joseph Huang, Khai Nguyen, Xiaobao Wang, Y. Chong, P. Pan, Henry Kim, Gopinath Rangan, T. Chang, Johnson Tan

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引用次数: 4

摘要

随着fpga越来越多地集成到高速系统中，具有优异信号完整性的高性能I/O变得更加重要。本文描述了如何在支持1.6 Gbps差分源同步标准和300 MHz外部存储器接口的FPGA上应对这些挑战。I/O缓冲器具有可编程驱动强度，输出阻抗匹配，热插接合规性和3.3v公差。高速性能的实现采用差分电平移位器的设计技术，包括电压和温度补偿电流源、片上去耦电容器和浮式井输出缓冲器。此外，采用dll和可编程相位失调电路实现了精确的定时控制。该芯片采用90纳米CMOS工艺制造。

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 90 nm FPGA I/O buffer design with 1.6 Gbps data rate for source-synchronous system and 300 MHz clock rate for external memory interface

As FPGAs become more integrated into high-speed systems, high performance I/O with excellent signal integrity becomes more important. This paper describes how these challenges were met on an FPGA developed to support 1.6 Gbps differential source-synchronous standards and 300 MHz external memory interfaces. The I/O buffer features programmable drive strength, output impedance matching, hot-socketing compliance, and 3.3v tolerance. High-speed performance was achieved using design techniques of differential level-shifters with voltage and temperature compensated current sources, on-chip decoupling capacitors, and floating-well output buffers. In addition, DLLs and programmable phase offset circuits were used to obtain precise timing control. The chip was manufactured on a 90 nm CMOS process.

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Proceedings of the IEEE 2004 Custom Integrated Circuits Conference (IEEE Cat. No.04CH37571)

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