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引用次数: 5
摘要
本文提出了CMOS结构内部(短路和超调)功耗估计的一种替代方法。使用一阶宏观模型,我们考虑了亚微米附加效应,如:短路电流的输入慢依赖和输入输出耦合。考虑到等效电容的概念,我们直接比较了不同的功率元件。通过将模拟值(HSPICE level 6, foundry model 0.7 /spl mu/m)与计算值进行比较,提出了验证。在缓冲器设计中的应用启发了内部功率元件的重要性,并清楚地表明可以考虑最小化功率和延迟的通用尺寸选择。
Internal power modelling and minimization in CMOS inverters
We present in this paper an alternative for the internal (short-circuit and overshoot) power dissipation estimation of CMOS structures. Using a first order macro-modelling, we consider submicronic additional effects such as: input slow dependency of short-circuit currents and input-to-output coupling. Considering an equivalent capacitance concept we directly compare the different power components. Validations are presented by comparing simulated values (HSPICE level 6, foundry model 0.7 /spl mu/m) to calculated ones. Application to buffer design enlightens the importance of the internal power component and clearly shows that common sizing alternatives for power and delay minimization can be considered.
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