This work extends the General Waveguide chain-oryofRef. [1] several ways of propagation. The resulting equivalent-circuit theory places-LF theory while strictly accounting for a loss. Unlike earlier treatments of the standard theory is constructed voltages and currents of modal REF. [1], which are normalized so that the product of voltage and current modal gives powers, carried out by a single mode in the absence of other species in the Guide [2]and so that they carry conventional units of volts and Amperes. This approach easily and consistently General-izes the symmetry relations of reciprocal curves. This form for p, which is also that of the opposite. [13], [16] and [17], is useful because it puts a low fre-quencynodal equivalent-circuit theory. If we now assign anodes for each pair of conductor voltages and currents and make nk substitutions v = v in k and I n k I = c k, you will find that p power flowing into corre spondsexactlyto each circuit elementin equivalent-circuit analogy; circuit simulators and computer assisted tools for design, which determine the power in a conventional manner (i.e., p I = n t v n) may be used without change. We will show later, when this is done on all ports, it leads to some other conventional results, many of which are summarized in table 1. Displays the reference [15].
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