Electrical and Electronics Engineering (English)

Lesson plan / CIRCUIT LABORATORY-I

Lesson Information

Course Credit 1.0
Course ECTS Credit 3.0
Teaching Language of Instruction İngilizce
Level of Course Bachelor's Degree, TYYÇ: Level 6, EQF-LLL: Level 6, QF-EHEA: First Cycle
Type of Course Compulsory
Mode of Delivery Face-to-face
Does the course require compulsory or optional work experience? Z
Course Coordinator
Instructor (s) Assist. Prof. Dr. MOHAMMED ALKRUNZ
Course Assistant

Purpose and Content

The aim of the course To learn how to use laboratory instruments, and to apply electrical circuits concepts in the laboratory.
Course Content Introduction of multimeter, oscillator and oscilloscope and realization of the Kirchhoff's laws. Modelling of multiple terminal circuit elements. Investigation of transient response in RC, RL and RLC circuits. Investigation of steady state response in AC and DC circuits. Finding Thevenin and Norton equivalents of circuits. Investigation of scaling, superposition and reciprocity theorems.

Weekly Course Subjects

1Introduction. Overview of the course.
2Forming of laboratory groups. Laboratory orientation.
3Introduction of multimeter, oscillator and oscilloscope, realization of the Kirchhoff's Laws - I.
4Introduction of multimeter, oscillator and oscilloscope, realization of the Kirchhoff's Laws - II.
5Modelling of multiple terminal circuit elements - I.
6Modelling of multiple terminal circuit elements - II.
7Investigation of transient response in RC circuits.
8Midterm Exam
9Investigation of transient response in RL circuits.
10Investigation of transient response in RLC circuits.
11Investigation of steady state response in AC and DC circuits.
12Finding Thevenin equivalents of circuits.
13Finding Norton equivalent of circuits.
14Investigation of scaling, superposition and reciprocity theorems.

Resources

1 - Circuit Analysis I with MATLAB Applications, 4th Edition (Steven T. Karris)