Abstract-Constant evolution in integrated circuit technology has led to an increase in the switching speed of the digital chip. As a result, there is a growing interest in the inductance associated with signal lines. Inductive coupling effects on interconnects is an emerging concern in high performance digital integrated circuits. Based on an RLC transmission line model, associated to each propagation mode, a new crosstalk noise model is proposed to evaluate both the capacitive and the inductive coupling. The additivity of the coupling is shown and validated with several simulations.
The constant evolution in integrated circuit In this paper, a new crosstalk RLC noise expression is technology has led to an increase in the digital chip switching proposed. It can predict the noise amplitude and the noise speed. There is thus growing interest in the inductance waveform of an RLC interconnect. The paper is organized as associated with signal lines. Inductive coupling effects on follows. The second section presents our approach to model interconnects is an emerging concern in high performance RLC coupling noise waveforms. Based on an RLC digital integrated circuits. In this paper, a new crosstalk RLC transmission line model, associated with each propagation noise expression is proposed and based on an RLC m issiobtainea crosstalktedltaghexpress ion transmission line model associated with each propagation mode, we obtain a crosstalk voltage expression, in the mode, which is capable of predicting the noise amplitude and Laplace domain, in the case of a lumped model. Section 3 the noise waveform of an RLC interconnect. The interconnect develops the methodology used to modify the lumped model distribution is condensed in an equivalent lumped model to to approach the output waveform of the distributed model. In simplify the analytical expression. Several simulations revealed section 4 we validate the new model by comparing it with that the proposed expression predicts the waveform quite SPICE simulation results. accurately. This simplified analytical expression of crosstalk noise is sufficiently accurate to be effectively incorporated in state-of-the-art noise calculators. II. COUPLING MODELING
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