Use the Tab and Up, Down arrow keys to select menu items.
Circuit laws and theorems. Transients and steady state behaviours of resistive, capacitive and inductive circuits. Laplace transforms. Fourier transforms and series. Linear system behaviour.
Topics covered include:• Fundamentals of charge, voltage, current and power; • ideal sources; • current-voltage relationships for basic components; • modelling of real components; • Kirchhoff’s voltage and current laws; • series and parallel combinations;• nodal and mesh analysis;• properties of linear networks;• Thévenin’s theorem, Norton’s theorem, maximum power transfer theorem;• superposition;• capacitor and inductor modeling;• source-free response of RLC circuits; • 1st and 2nd order RLC circuits, initial conditions, forced response, complete response;• transients and the Laplace transform;• frequency response; • high pass, low pass, bandpass, and bandstop filters; • complex frequency, pole-zero and Bode plots, resonance;• trigonometric form of Fourier series, complex form of Fourier series, circuit analysis using Fourier series expansion, Fourier transform techniques.
Subject to the approval of the Dean of Engineering and Forestry
ENEL202
Karla Smith
Domestic fee $975.00
International fee $5,500.00
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see Electrical and Computer Engineering .