INSTRUCTORS
EENG223 Circuit Theory I
Instructor
Mustafa Kemal UYGUROĞLU Prof. Dr. |
e-mail:mustafa.uyguroglu@emu.edu.tr |
Office Tel: 1433 |
Office No: EE 135 |
LAB INSTRUCTORS
Atefeh A. Khajekini
Ahmad Rasheed
Instructor
Mustafa Kemal UYGUROĞLU Prof. Dr. |
e-mail:mustafa.uyguroglu@emu.edu.tr |
Office Tel: 1433 |
Office No: EE 135 |
LAB INSTRUCTORS
Goals: To develop the fundamental tools of linear circuit analysis which will be useful to all engineers. To learn the "alphabet" of circuits, including wires, resistors, capacitors, inductors, voltage and current sources, and operational amplifiers. To prepare students for more advanced courses in circuit analysis.
Learning Objectives: At the end of this course, students will be able to:
The homework assignments:
· The first page must be the title page. The title page must contain the name, surname and the number of the student. It should also contain the due date.
· Please also include a table of points for each problem.
· The solution must contain all the necessary steps.
· Remember that you must turn in the homework on the assigned days. Late submissions will not be accepted and graded.
Here is a sample title page. (You may download the .doc file and change the necessary information)
Important Note: You may discuss the homework problems with your friends for exchanging general ideas, but you may not copy from one another. You may also not give any parts of your homework to other students to look at. Any students violating these rules or committing any other acts of academic dishonesty WILL be turned over to the disciplinary committee for disciplinary action.
Due: 21 October 2019, Monday
at 10:30.
Due: Monday, December 9, 2019 at 10:30
Introduction, Systems of Units , Charge and Current , Voltage , Power and Energy, Circuit Elements
Introduction , Ohm’s Laws, Nodes, Branches, and Loops, Kirchhoff’s Laws, Series Resistors and Voltage Division, Parallel Resistors and Current Division, Wye-Delta Transformations
Introduction, Nodal Analysis, Nodal Analysis with Voltage Sources, Mesh Analysis, Mesh Analysis with Current Sources, Nodal and Mesh Analyses by Inspection , Nodal Versus Mesh Analysis
Introduction, Linearity Property, Superposition, Source Transformation, Thevenin’s Theorem, Norton’s Theorem, Derivations of Thevenin’s and Norton’s Theorems, Maximum Power Transfer
Introduction, Operational Amplifiers, Ideal Op Amp, Inverting Amplifier, Noninverting Amplifier, Summing Amplifier, Difference Amplifier, Cascaded Op Amp Circuits, Op Amp Circuit Analysis
Introduction, Capacitors , Series and Parallel Capacitors, Inductors, Series and Parallel Inductors
Introduction, The Source-free RC Circuit, The Source-free RL Circuit, Singularity Functions, Step Response of an RC Circuit, Step Response of an RL Circuit , First-order Op Amp Circuits
Introduction, Finding Initial and Final Values, The Source-Free Series RLC Circuit , The Source-Free Parallel RLC Circuit, Step Response of a Series RLC Circuit, Step Response of a Parallel Circuit, General Second-Order Circuits, Second-Order Op Amp Circuits