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Fundamentals of Network and System Analysis
Elementary Network Topology
Matrix Formulation of Network Equations
13 other sections not shown
applied branch capacitor Chapter circuit coefficients columns connected Consider constant corresponding current source cutset data cards defined denoted depicted in Fig derivative described determine differential equation discrete-time system discussed driving-point ecap edges eigenvalues eigenvectors equivalent network expressed following example FORTRAN Fourier series function f given network graph G impedance indicates inductor initial conditions integral inverse Jordan canonical form KVL-equations Laplace transform linear network linear time-invariant linearly independent loop equations matrix form method nasap network analysis network function network of Fig network shown node equations Norton's theorem obtain one-port open-circuit parameters phasor planar plot poles polynomial port referred Repeat Problem resistor respectively s-domain scattering parameters shown in Fig signal flow graph sinusoidal solution solving specified state-transition steady-state response step subnetworks subprogram subroutine Substituting terminal theorem topology transfer function tree two-port variables VCR-equations vector voltage source waveform yields zero