S. Sun, P. Tsui, B.M. Somero, J. Klein, F. Pintchovski, J.R. Yeargain, B. Pappert
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引用次数: 19
摘要
采用模块化工艺架构,开发了一种多功能且可制造的、单聚的、四级金属的、完全互补的BiCMOS技术,用于0.5 μ m以下的逻辑和微处理器产品。多极发射极垂直n-p-n和p-n-p双极晶体管都集成到双聚(n/sup +//p/sup +/)栅极CMOS工艺流程中。在发射极窗口中使用基座植入,将n-p-n性能提高到26 GHz。横向p-n-p和TiSi/sub 2/肖特基势垒二极管器件在钛自对准硅化过程中形成,可用于各种电路应用。在多级金属化模块中允许钨塞触点和过孔的堆叠。还进行了过程窗口分析,以得出最佳的器件设计目标。与CMOS相比,在68030关键路径上,使用这种逻辑BiCMOS技术可以证明大约40%的速度提高(3.3 V V/sub cc/)。
A 0.4 micron fully complementary BiCMOS technology for advanced logic and microprocessor applications
A modular process architecture has been adopted to develop a versatile yet manufacturable, single-poly, four-level metal, fully complementary BiCMOS technology for sub-0.5 mu m logic and microprocessor products. Both the poly-emitter vertical n-p-n and p-n-p bipolar transistors are integrated into a dual-poly (n/sup +//p/sup +/) gate CMOS process flow. Using a pedestal implant in the emitter window, the n-p-n performance has been enhanced to 26 GHz. Lateral p-n-p and TiSi/sub 2/ Schottky barrier diode devices formed during the titanium self-aligned silicide process are available for various circuit applications. Stacking of the tungsten-plug contacts and vias is allowed in the multilevel metallization module. A process window analysis has also been performed to derive the optimal device design targets. Compared with the CMOS counterpart, approximately 40% speed improvement (at 3.3 V V/sub cc/) in a 68030 critical path has been demonstrated using this logic BiCMOS technology.<>
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