DC Circuit Course
Fundamentals of DC Circuits
2.5 Months Duration
25 Classes
Bangla Language
Course Overview
Apply diverse analytical methods to solve and create fundamental electrical systems
Design and evaluate circuits utilizing node analysis, superposition, and Thevenin's theorem
Determine the natural, forced, and total responses of basic electrical networks
Develop proficiency in analyzing single-phase circuits
Course Content
1
Circuit variables: voltage, current, power and energy2
Voltage and current independent and depended sources3
Circuit elements resistance, inductance and capacitance4
Modeling of practical circuits5
Ohm's law and Kirchhoff's laws6
Solution of simple circuits with both dependent and independent sources7
Series-parallel resistance circuits and their equivalents8
Voltage and current divider circuits9
Delta-Wye equivalent circuits10
Techniques of general DC circuit analysis11
Node-voltage method, Mesh-current method12
Source transformations13
Thevenin and Norton equivalents14
Maximum power transfer15
Superposition technique16
Properties of Inductances and capacitances17
Series-parallel combinations of inductances and capacitances18
Concepts of transient and steady state response with dc sourceFaculty
Hemel
BUET EEE'17
Course Materials
Class Notes
Class Videos
Text Books
Fundamentals of Electric Circuits (5th Edition)
Charles K. Alexander and Matthew N. O. Sadiku
Introduction to Electric Circuits
Richard C. Dorf and James A. Svoboda
Electric Circuits
James W. Nilsson
Basic Electric Circuit Analysis
David E. Johnson, John L. Hilburn
Basic Engineering Circuit Analysis
J. David Irwin, R. Mark Nelms
Introductory Circuit Analysis (8th Edition)
Robert L. Boylestad