一种0.5 μ m的BiCMOS无通道门阵列

1989 Proceedings of the IEEE Custom Integrated Circuits Conference Pub Date : 1989-05-15 DOI:10.1109/CICC.1989.56718

F. Murabayashi, Y. Nishio, H. Maejima, A. Watanabe, S. Shukuri, T. Nishida, K. Shimohigashi

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引用次数: 4

摘要

介绍了一种采用0.5 μm BiCMOS技术的BiCMOS无通道门阵列。为了提高门阵列的速度和密度，采用了一种新型反馈型BiCMOS电路和无信道结构。平面型门阵列具有54个K单元，并且可以使用其中一个单元构建三输入NAND或NOR门。该阵列采用四金属层布线技术，实现了基本单元的高利用率。如果使用宏单元，芯片的密度将是平面型栅极阵列的两倍以上。采用反馈型BiCMOS双输入NAND电路和0.5 μm BiCMOS器件，采用4v电源，模拟了220 ps的栅极延迟时间。这种高性能的BiCMOS无通道门阵列可以应用于高速计算机

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 0.5 μm BiCMOS channelless gate array

A BiCMOS channelless gate array using 0.5-μm BiCMOS technology is described. To improve the speed and density of the gate array, a novel feedback-type BiCMOS circuit and the channelless architecture were adopted. The plane-type gate array has 54 K cells and can construct a three-input NAND or NOR gate using one of them. The array realizes the high utilization ratio of basic cells using a four-metal-layer wiring technique. If macrocells are used, the density of the chip becomes more than twice that of a plane-type gate array. The gate delay time of 220 ps was simulated using a feedback-type BiCMOS two-input NAND circuit and 0.5-μm BiCMOS devices with a 4-V power supply. This high-performance BiCMOS channelless gate array can be applied to high-speed computers

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1989 Proceedings of the IEEE Custom Integrated Circuits Conference

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