This course builds on Basic Circuit Theory and introduces advanced methods for modern electrical engineering applications. Topics begin with steady-state AC power analysis and single-phase/three-phase circuits, including power factor and real/reactive power. Students then examine magnetically coupled circuits, transformer models, and two-port network representations for subsystem and cascaded-network analysis. The course covers Laplace-domain techniques for higher-order transient response, poles and zeros, and transfer functions, followed by convolution, impulse response, and frequency-response methods. It concludes with Fourier series and transforms, Bode plots, and the design and analysis of passive and active filters, resonant circuits, and frequency-selective networks.
Prerequisite: ENGE 240 Basic Circuit Theory
ENEE 342 Circuit Theory and Analysis
