Abstract
It is shown that the lumped-circuit model of a nonlinear transmission line can be simulated using WD (wave digital) filter principles. Solitons which are eigenfunctions of the nonlinear transmission line are observed. The WD circuit simulation confirms that: the velocity of a soliton impulse depends on its amplitudes; the magnetic energy is always greater than the electric energy for a single traveling soliton impulse; the magnetic energy vanishes and is converted to the electric energy at the point of head-on collision; there is no energy exchange for the overtaking collision; and the impulses which pass through one another do not lose their identities. >
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