BİLECİK ŞEYH EDEBALİ UNIVERSITY FACULTY OF ENGINEERING DEPARTMENT OF COMPUTER ENGINEERING PROGRAM OF UNDERGRADUATE Academic Unit COURSE CONTENT : Faculty of Engineering Department / Program : Computer Engineering Turkish Course Title : Devre Teorisi English Course Title : Circuit Theory L+U Hour : 3+0 Semester : 2 Credits / ECTS : 3/4 Language of Instruction : Turkish Course Type (Compulsory/Elective) : Compulsory Week 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Goals Turkish Content English Content 1) 2) 3) 4) WEEKLY COURSE CURRICULUM Subjects Variables of circuit: current, voltage, power and energy; Circuit elements: Sources of Dependent / Independent; Resistance and Ohm's law Kirchhoff's laws, Basic resistive circuits Basic resistive circuits Circuit Analysis Methods: Terms, a systematic approach to circuit analysis, nodal analysis Circuit Analysis Methods: Mesh analysis Circuit Analysis Methods: Determining the most appropriate method, Source transformations, Thevenin's and Norton's theorems Circuit Analysis Methods: Maximum power transfer, Superposition Inductance and capacitance Inductance and capacitance due to a series-parallel, mutual inductance First-Order Circuits RL and RC circuits' natural and step responses A general solution for the natural and step response, Behavior of RL and RC in sequential switching Sinusoidal steady state analysis Sinusoidal steady state analysis To teach students fundamentals of basic electric circuits and their analysis methods with special emphasis on time domain. Elektik yükü, akım, gerilim, güç, akım/gerilim kaynakları, Ohm kanunu, Kirchhoff kanunları, direnç ve kaynak bağlantı şekilleri, yıldız-üçgen/üçgen-yıldız dönüşümü, basit dirençsel devrelerin analizi, düğüm gerilimleri analizi, çevre akımları analizi, doğrusallık ve toplamsallık, Thevenin's ve Norton's kuramları, en büyük güç aktarımı, endüktans ve karşılıklı endüktans, capasitans, RL ve RC devrelerinin doğal ve basamak yanıtları, sinüsoidal kalıcı durum analizi. Charge, current, voltage, power, current/voltage sources, Ohm's law, Kirchhoff's laws, resistance and source combination, wye-delta/delta-wye transformations, analysis of basic resistive circuits, nodal analysis, mesh analysis, linearity and superposition, Thevenin's and Norton's theorems, maximum power transfer, inductance and mutual inductance, capacitance, RL and RC circuits' natural and step responses, sinusoidal steady state analysis References Basic Engineering Circuits Analysis, J. David Irwin and R. Mark Nelms, John Wiley Press, 2008. D.A. ve A.A. Devreleri, Teori ve Çözümlü Problemler, F.Y.ERALP, Alfa Press Introduction to Electric Circuits, Richard C. Dorf and James A. Svoboda, John Wiley Press, 2006 Electric Circuits, James W. Nilsson and Susan A. Riedel, Prentice Hall Press, 2005.