DC Circuit Analysis using MATLAB SIMULINK (Models Included)

Learn three ways to open the Simulink library in MATLAB: click the library button, type Simulink in the command window, or create a new model to access the library browser.

Explore key Simulink libraries and blocks essential for electrical power engineering, enabling effective circuit modeling and simulations in MATLAB Simulink for power systems.

Discover how the power graphical user interface block from the Sim Power Systems library enables storing an equivalent link circuit for a model and preventing missing block errors in simulations.

Review the basics of dc circuit analysis, including resistance, ohm's law, short circuits, open circuits, and conductance, with power relations such as p = vi.

Design and analyze a dc circuit in MATLAB Simulink by modeling a 50-volt dc source and a resistive element with conductance, computing current and power with v and i relationships.

Design the second circuit in MATLAB Simulink with a fixed-value current source and conductance. Calculate voltage, current, power distribution, and display measurements using current, voltage, and divide blocks.

Design and analyze a two-source dc circuit in MATLAB Simulink, configuring two dc voltage sources, measuring voltage across the load, and observing how changes in source values affect current direction.

Design a dc circuit for the bratz problem in Matlab Simulink, featuring two current sources, 2 ohm and 8 ohm resistors, and voltage measurements.

Design and simulate a DC circuit in MATLAB Simulink, displaying voltages and currents for V1, V2, and V3 across nodes, and verify resistor drops.

Review basics of series resistance and voltage division with a dc source, showing v1 = i r1, v2 = i r2, and r_eq = r1 + r2.

Design a Simulink dc circuit model with a dc voltage source and two resistive systems. Measure i1, i2, v1, and v2, then compute the power distribution and save the model.

Explore a MATLAB SIMULINK design to analyze a dc circuit with two voltage sources (14 v and 6 v reversed), four resistors, and multimeter measurements of branch voltage and current.

Builds second model with six solar sources, computes the impedance between nodes A and B using an impedance measurement block, and introduces a 120 V DC source to measure current.

Master DC circuit analysis using MATLAB Simulink with included models, and review the course basics. Access all models to download and earn your certificate of completion.