具有硅圆角自对准触点的超高速ecl双极CMOS技术

1992 Symposium on VLSI Technology Digest of Technical Papers Pub Date : 1992-06-02 DOI:10.1109/VLSIT.1992.200631

T.M. Liu, G. Chin, M. Morris, D. Jeon, V. Archer, H.H. Kim, M. Cerullo, K.F. Lee, J. Sung, K. Lau, T. Chiu, A. Voshchenkov, R. Swartz

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引用次数: 3

摘要

讨论了一种采用硅圆角自对准接触技术(SIFT)的超高速半微米非重叠超自对准BiCMOS双极和MOS晶体管技术。SIFT工艺通过最小化扩散区域面积和多晶硅电极面积来减小器件电容和串联电阻。双极晶体管的深沟槽隔离可以大大减少VLSI应用的器件面积。对于发射极多晶硅宽度为0.6 μ m的器件，ECL栅极延迟为31 ps。对于0.5 μ m栅极长度的CMOS环振荡器栅极延迟为58 ps，对于0.6 μ m栅极长度的CMOS环振荡器栅极延迟为67 ps

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An ultra high speed ECL-bipolar CMOS technology with silicon fillet self-aligned contacts

An ultra-high-speed half-micron non-overlapped super self-aligned BiCMOS technology that uses a silicon fillet self-aligned contact technology (SIFT) for both bipolar and MOS transistors is discussed. The SIFT process reduces the device capacitances and series resistances by minimizing the diffusion region area as well as the polysilicon electrode area. Deep trench isolation for bipolar transistors allows the device area to be much reduced for VLSI applications. The ECL gate delay is demonstrated to be 31 ps for devices with emitter polysilicon widths of 0.6 mu m. The CMOS ring oscillator gate delays are 58 ps for 0.5- mu m gate length and 67 ps for 0.6- mu m gate length at 5 V.<>

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1992 Symposium on VLSI Technology Digest of Technical Papers

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