用于高密度BiCMOS SRAM的自动增益控制电路

Symposium 1989 on VLSI Circuits Pub Date : 1989-05-25 DOI:10.1109/VLSIC.1989.1037494

H. Tran, P. Fung, D. Scott

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引用次数: 2

摘要

BiCMOS技术被认为是提高sram性能最有效的技术。在IMeg比特密度的j1 BiCMOS SRAM中，除了具有性能优势外，还报道了低于10 ' s的访问时间。birk晶体管在cmos技术中的可用性引发了BiCMOS技术的发展，以提高超大规模集成电路的余量和最小化工艺灵敏度。本文讨论了一种自动增益控制(AGC)电路。该AGC电路应用于高速RiCMOS SRAM位线方案，以控制位线电压波动，使其不受温度、操作和功率变化的影响。利用生物极晶体管差分感应L~DB优越的小信号放大能力直接耦合器件

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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Automatic gain control (AGC) circuit for high density BiCMOS SRAM

BiCMOS technolory has been ~ioven to be most effective for improving the performance of SRAMs. A sub 10"s access time has been reported in jl BiCMOS SRAM of IMeg bit density I] In addition to performance advantaaes. the availability of birk transistors in &CMOS technology has triggered an evolutibn of BiCMOS de"!" techniques for improving margin and minimining process sensitivity of Ultra Large Scale IC's. In this paper an Automatic Gain Control (AGC) circuit is discussed. This AGC circuit is applied to a high speed RiCMOS SRAM bitline scheme to control the bitline voltage swings BO that they are independent or temperature, operation and pmcess variations. Utilization of the superior small signal amplification eapabilitu of bioolar tranristor differential sense L~DB to directly coude

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Symposium 1989 on VLSI Circuits

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