S.Z. Mohamedi, V. Chan, J. Park, F. Nouri, B. Scharf, J. E. Chung
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引用次数: 21
摘要
高精度/高性能电路应用的一个关键指标是输入失调电压,它被定义为产生零差分输出电压所需的差分输入电压。研究了热电子衰减对CMOS差分放大器输入偏置电压的影响。所测试的NMOS和PMOS晶体管采用1.5 μ m locos隔离双金属BiCMOS工艺制造,用于混合信号应用。使用虚拟源耦合对的概念,V/sub偏置/衰减的许多方面直接由单个设备测量确定。通过加速应力测量,开发了在工作条件下估计V/sub偏置/器件寿命的技术。还建立了V/sub偏移/退化的分析模型。分析了不同CMOS差分放大器设计的性能和可靠性权衡。
Hot-electron-induced input offset voltage degradation in CMOS differential amplifiers
A key figure of merit for high-precision/performance circuit applications is the input offset voltage, which is defined as the differential input voltage necessary to produce a zero differential output voltage. The impact of hot-electron degradation on the input offset voltage of a CMOS differential amplifier is characterized. The NMOS and PMOS transistors examined were fabricated using a 1.5- mu m LOCOS-isolated, double-metal, BiCMOS process for mixed signal applications. Using the concept of a virtual source-coupled pair, may aspects of V/sub Offset/ degradation are determined directly from individual device measurements. Techniques are developed for estimating V/sub Offset/ device lifetime under operational conditions from accelerated stress measurements. Analytical models for V/sub Offset/ degradation are also developed. Performance and reliability tradeoffs for different CMOS differential amplifier designs are analyzed.<>
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