Course Information Semester Course Code Course Title T+P+L Credit ECTS 2 05120205 Circuit Theory I 4+0+2 5 5 Course Details Language : Turkish Level : Bachelor's Degree Department / Program : Electrical and Electronics Engineering Mode of Delivery : Face to Face Type : Compulsory Objectives : This course teaches the basic principles and design methods of simple electrical circuits by using basic techniques to prepare for further electrical and electronic systems. Content : Electrical Circuit Variables, circuit elements. Simple resistance circuits. Circuit analysis techniques. Circuit theories, circuit analysis topologies. Inductance and capacitance. State variables and state equations. First degree RL and RC circuits. Natural and cascade responses of second order RLC circuits. Introduction to OPAMPs. Methods & Techniques : Prerequisites and co-requisities : None Course Coordinator : Associate Prof.Dr. Hulusi AÇIKGÖZ Name of Lecturers : Asist Prof. Saim ERVURAL Assistants : None Work Placement(s) : No Recommended or Required Reading Resources : The Basics of Electric Circuits Author: Charles K. Alexander and Matthew N. O. Sadiku Semester : Elektrik Devrelerinin Temelleri Yazar: Charles K. Alexander ve Matthew N. O. Sadiku Course Category Mathematics and Basic Sciences 0% Engineering 50% Engineering Design 50% Social Sciences 0% Education 0% Science 0% Health 0% Field 0% In-Term Study Informations In-Term Studies Quantity Percentage Mid-terms 1 30% Practice 1 20% Final examination 1 50% Total 3 100% Activity Informations Activities Quantity Duration Total Work Load Course Duration 14 4 56 Hours for off-the-c.r.stud 9 2 18 Mid-terms 1 20 20 Laboratory 14 2 28 Final examination 1 20 20 Total Work Load ECTS: 5 142 Course Learning Outcomes Upon the successful completion of this course, students will be able to: No Learning Outcomes 1 Know the basic measurement methods, sensors, amplifiers, transducers and other measurement components 2 Know the characteristics and models of electronic relay 3 Know the state variables and state space model in Electrical-Electronics systems 4 Know the power calculations 5 Know the fundamentals of electronics and design electronics circuits 6 Know the fundamentals of digital electronics and analyze the digital circuits 7 Know the characteristics of electronic components 8 Know the basic electrical knowledge 9 Know the Kirchoff and ohm laws 10 Know the Norton-Thevenin circuit analysis 11 Know the manufacturing process of basic electrical-electronics (computer simulation, bread-board design, choosing circuit component, soldering, etc…) and gain the experience in applications. Weekly Detailed Course Contents Week Topics 1 Current, voltage, power, voltage and current sources 2 Current, voltage, power, voltage and current sources 3 Kirchhoff's law of current law and voltage law, the solution of simple resistance circuits 4 Node analysis, superposition, source transformations 5 Node analysis, superposition, source transformations 6 Thevenin and Norton theorems, maximum power transfer 7 Inductance and capacitance 8 Inductance and capacitance 9 State variables and state equations 10 First-degree RL and RC circuits 11 First-degree RL and RC circuits 12 Natural and stepwise responses of second order RLC circuits 13 Operational amplifiers and instruments Contribution of Learning Outcomes to Programme Outcomes P1P2P3P4P5P6P7P8P9P10P11 All 11 C1 C2 C3 33 C4 C5 1 C6 331 C7 C8 5 C9 443 C10 3 bbb
