(3 units). Ideal operational amplifiers - analysis and applications. Forced and natural responses of RLC circuits using the differential equation approach. Transient circuit analysis using unilateral Laplace transforms. Two-port networks and parameters. Mutual inductance and the ideal transformer. Transfer functions. Frequency response of simple filters. Fundamentals of computer-aided circuit simulation. The measurement of sinusoidal and non-sinusoidal electrical quantities in analogue and digital circuits. Introduction to sensors and instrumentation amplifiers. The measurement of non-electrical quantities. Course Component: Laboratory, Lecture, Tutorial Prerequisites: ELG 2138, MAT 2384.
(3 units). Ideal operational amplifiers - analysis and applications. Forced and natural responses of RLC circuits using the differential equation approach. Transient circuit analysis using unilateral Laplace transforms. Two-port networks and parameters. Mutual inductance and the ideal transformer. Transfer functions. Frequency response of simple filters. Fundamentals of computer-aided circuit simulation. The measurement of sinusoidal and non-sinusoidal electrical quantities in analogue and digital circuits. Introduction to sensors and instrumentation amplifiers. The measurement of non-electrical quantities. Course Component: Laboratory, Lecture, Tutorial Prerequisites: ELG 2138, MAT 2384.
