CMOS with active well bias for low-power and RF/analog applications

2000 Symposium on VLSI Technology. Digest of Technical Papers (Cat. No.00CH37104) Pub Date : 2000-06-13 DOI:10.1109/VLSIT.2000.852808

C. Wann, J. Harrington, R. Mih, S. Biesemans, K. Han, R. Dennard, O. Prigge, Chuan Lin, R. Mahnkopf, Bomy A. Chen

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引用次数: 53

Abstract

We show that with a forward body bias, CMOS performance can be improved for those applications which are primarily concerned with speed, and for those which have fixed performance targets but desire lower switching energy (higher MHz/mW). Thus V/sub t/ can be set according to standby power requirement or device design (well and halo engineering), forward body bias is then applied to improve speed or to reduce active power. No compromise in I/sub off/ results if the forward bias is applied when the circuits are active, during which time I/sub off/ and the leakage current are small compared to the switching current. Therefore a low-power CMOS strategy should use a MOSFET as a four-terminal device with a fast top gate and a slow bottom gate shared by a block. Deep-trench isolation with STI provides fine-grain isolation for body bias blocks without area penalty. Making the body available also improves the device analog properties and enables new applications. We present an active-well VCO/mixer as an example.

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具有有源偏置的CMOS，适用于低功耗和RF/模拟应用

我们表明，对于那些主要关注速度的应用，以及那些具有固定性能目标但需要更低开关能量(更高MHz/mW)的应用，使用正向体偏置可以改善CMOS性能。因此，可以根据待机功率要求或器件设计(井和光晕工程)设置V/sub /，然后应用正向体偏来提高速度或降低有功功率。如果在电路工作时施加正向偏置，则I/sub关断/结果不会妥协，在此期间，I/sub关断/和泄漏电流与开关电流相比较小。因此，低功耗CMOS策略应该使用MOSFET作为四端器件，具有快速顶栅极和由块共享的慢速底栅极。采用STI的深沟隔离为体偏置区块提供了细粒度隔离，而不会造成面积损失。使主体可用还可以改善设备的模拟特性并实现新的应用。我们以有源井VCO/混频器为例。

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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2000 Symposium on VLSI Technology. Digest of Technical Papers (Cat. No.00CH37104)

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