带有RAM的209k晶体管ECL门阵列

IEEE International Solid-State Circuits Conference, 1989 ISSCC. Digest of Technical Papers Pub Date : 1989-02-15 DOI:10.1109/ISSCC.1989.48252

H. Satoh, T. Nishimura, M. Tatsuki, A. Ohba, S. Hine, K. Sakaue, Y. Kuramitsu

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引用次数: 8

摘要

作者描述了一种具有ECL(发射器耦合逻辑)单元结构的栅极阵列，用于实现高密度可配置RAM。基于可变大小单元的单元被修改以实现这样的RAM。每个单元都有一个额外的晶体管埋在电源总线下，以消除面积损失。一个存储位是由一个埋置晶体管加上三个晶体管组成的。采用n-p-n晶体管和抽头电阻负载传感器与逻辑门进行结构匹配。由于读电流直接来自V/sub CC/总线而不是字线，因此字线驱动器的晶体管尺寸被最小化。备用电流为120亩A，读电流为800亩A。解码器、感测放大器和字行驱动由逻辑门实现。RAM大小可以根据每个单元行而变化;位增量为144。该工艺采用双多晶硅自对准技术，硅基电极为TiSi/ sub2 /，三层金属化。列举了门阵列的特点。

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A 209 k-transistor ECL gate array with RAM

The authors describe a gate array with an ECL (emitter-coupled-logic) cell structure for implementing a high-density configurable RAM. A unit based on a variable size cell is modified to achieve such a RAM. Every unit has an extra transistor buried under the power bus to eliminate area penalty. One memory bit is constructed using one buried transistor plus three transistors in a unit. An n-p-n transistor and a tap resistor load cell are employed for structural matching with the logic gates. Since the read current is supplied directly from the V/sub CC/ bus instead of the word line, the transistor size of the word-line driver is minimized. The standby and read currents are 120 mu A and 800 mu A, respectively. The decoder, sense amplifiers, and word-line drivers are implemented by logic gates. RAM size can be varied by each unit row; the bit increment is 144. The process employs double-polysilicon self-aligned technology with a silicide-base electrode of TiSi/sub 2/ and triple-layer metallization. The features of the gate array are listed.<>

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来源期刊

IEEE International Solid-State Circuits Conference, 1989 ISSCC. Digest of Technical Papers

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