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A new signal transient and crosstalk noise determination method of frequency-variant RLC transmission lines is presented. In order to investigate the realistic transmission line characteristics, two coupled lines are experimentally characterized by using s-parameters up to 20 GHz. Then the signal transients and crosstalk noises are directly determined with the measured s-parameters and compared with...
Analytical compact form models for the signal transient and crosstalk noise of two-coupled RLC lines are developed. Capacitive and inductive coupling effects are investigated and formulated in terms with eigen modes (i.e., even mode and odd mode). The signal transients and crosstalk noise expressions of two coupled lines are derived by using a wave-form approximation technique for the modal signals...
Coupled transmission lines are experimentally characterised by using 4-port s-parameter measurements in the broad frequency band (up to more than the 20 GHz). The test patterns are designed and fabricated by using a BGA package process. Symmetrical coupled transmission lines are decoupled into two eigen modes that can be readily determined from the measured s-parameters. Then signal transient and...
Analytical compact-form models for the signal transients and crosstalk noise of inductive-effect-prominent multicoupled lines are developed. Capacitive and inductive coupling effects are investigated and formulated in terms of the effective single-transmission-line model and effective transmission line parameters for fundamental switching modes. Arbitrary switching multicoupled lines are readily decomposed...
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