This revision continues to present the fundamentals of transient circuit and system analysis with an emphasis on the Laplace transform and pole-zero approach for analyzing and interpreting problems. An application-oriented treatment of transform circuit analysis is carefully aimed at engineering technology or applied engineering programmes, and a full development of transient phenomena in both time domain and frequency domain is presented. There is also an introduction to discrete-time systems and digital signal processing.Kirchhoffs current law, 6, 91, 139-40 Kirchhoff s voltage law, 6, 91, 139-40 Laplace, Pierre-Simon, 166 Laplace ... of a time function, 171 deviations, 485-87 first-order poles and, 187-93 general problems in, 201-3 integral of a function, 172 introduction ... parallel circuits, 236-39 RLC series circuits, 230-36 solutions of complete circuits, 211-17 steady-state responses, 5, ... 218 Nyquist frequency, 443 Nyquist rate, 443 Ohma#39;s law, 6 in the steady-state domain, 327 in the transform domain, anbsp;...
|Title||:||Transform Circuit Analysis for Engineering and Technology|
|Author||:||William D. Stanley|
|Publisher||:||Pearson College Division - 1997|