A. Chatterjee, D. Mosher, S. Sridhar, Y. Kim, M. Nandakumar, S. Aur, Z. Chen, P. Madhani, S. Tang, R. Aggarwal, S. Ashburn, H. Shichijo
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引用次数: 12
摘要
本文介绍了一种用于低待机功率集成电路的先进数字CMOS技术,该技术将有源和无源元件集成在一起,使嵌入模拟电路成为可能。器件设计问题,器件特性和技术缩放在此背景下进行了讨论。组件包括1.5 V数字核心CMOS, 1.5 V模拟和3.3 V I/O mosfet。除了这些自对准mosfet外,我们还描述了漏极扩展晶体管,DEnMOS和DEpMOS,其中漏极扩展是使用井植入物形成的。提出了一种改进衬底集电极的新型结构——垂直pnp双极晶体管。这里描述的无源元件是n-poly on n-well电容器和具有低温电阻系数的多晶硅电阻,通常称为零tcr电阻。模拟集成增加了一个额外的掩模,用于阻止零tcr多晶硅电阻的硅化。
Analog integration in a 0.35 /spl mu/m Cu metal pitch, 0.1 /spl mu/m gate length, low-power digital CMOS technology
This paper describes the integration of active and passive components to enable embedding analog circuits in an advanced digital CMOS technology developed for low standby power integrated circuits. Device design issues, device characteristics, and technology scaling are discussed in this context. The components include 1.5 V digital core CMOS, 1.5 V analog and 3.3 V I/O MOSFETs. In addition to these self-aligned MOSFETs we describe drain-extended transistors, DEnMOS and DEpMOS, where the drain extensions are formed using the well implants. A novel structure to improve the substrate collector, vertical pnp bipolar transistor is presented. The passive components described here are the n-poly on n-well capacitors and a polysilicon resistor with a low temperature coefficient of resistance, usually referred to as the zero-TCR resistor. The analog integration adds one extra mask used to block silicidation of the zero-TCR polysilicon resistor.
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