Course Information Semester Course Code Course Title T+P+L Credit ECTS 4 05140407 Electronic Circuits 3+0+2 4 6 Course Details Language : Turkish Level : Bachelor's Degree Department / Program : Electrical and Electronics Engineering Mode of Delivery : Face to Face Type : Compulsory Objectives : To teach the basic principles and applicatons of analog part of electronic circuits. Content : BJT, FET, JFET, MOSFET and their AC Models, Amplifiers (small signal and power), Frequency Rresponses of Amplifiers, OP-AMPs. Methods & Techniques : Prerequisites and co-requisities : None Course Coordinator : Associate Prof.Dr. Hulusi AÇIKGÖZ Name of Lecturers : Asist Prof.Dr. Abdülkadir Özcan Assistants : None Work Placement(s) : No Recommended or Required Reading Resources : R.L.Boylestad, L.Nashelsky, “Electronic Devices and Circuit Theory”, Prentice Hall, 9th Ed., (2007 Course Category Engineering 50% Engineering Design 50% In-Term Study Informations In-Term Studies Quantity Percentage Mid-terms 1 40% Final examination 1 60% Total 2 100% Activity Informations Activities Quantity Duration Total Work Load Course Duration 14 3 42 Hours for off-the-c.r.stud 14 4 56 Assignments 1 10 10 Mid-terms 1 20 20 Laboratory 14 2 28 Final examination 1 20 20 Total Work Load ECTS: 6 176 Course Learning Outcomes Upon the successful completion of this course, students will be able to: No Learning Outcomes 1 Know the fundamentals of electronics and design electronics circuits 2 Know the characteristics of signals in electronics systems 3 Know the fundamentals of biomedical devices 4 Know the characteristics of electronic components 5 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 Basic electrical-electronics (computer simulation, bread board design, selection of circuit element, soldering, etc.) Know the production process and gain experience in applications. 2 Basic electrical-electronics (computer simulation, bread board design, selection of circuit element, soldering, etc.) Know the production process and gain experience in applications. 3 Know the manufacturing process of basic electrical-electronics (computer simulation, bread-board design, choosing circuit component, soldering, etc…) and gain the experience in applications. 4 FET, JFET, MOSFET Transistor Structures&Circuits: Construction characteristics, D and E-type MOSFETs, device electronics. 5 FET, JFET, MOSFET Transistor Structures&Circuits: Construction characteristics, D and E-type MOSFETs, device electronics. 6 FET, JFET, MOSFET Biasing Techniques: Fixed, self, voltage divider biasings. 7 FET, JFET, MOSFET Biasing Techniques: Fixed, self, voltage divider biasings. 8 FET, JFET, MOSFET Amplifiers: Small signal model, designing of FET amplifiers, practical circuits & applications. 9 FET, JFET, MOSFET Amplifiers: Small signal model, designing of FET amplifiers, practical circuits & applications. 10 BJT and FET Frequency Response: Log, dB, Miller effect, low and high frequency responses of amps. 11 Power Amplifiers: Series-fed cclass-A, B amplifiers, distortion. 12 OP-AMPs: Diff-amp, OP-AMP basics, OP-AMP circuits including constant gain, voltage summing, controlled sources, differentiator, integrator amps. 13 OP-AMPs: Diff-amp, OP-AMP basics, OP-AMP circuits including constant gain, voltage summing, controlled sources, differentiator, integrator amps. 14 OP-AMPs: Diff-amp, OP-AMP basics, OP-AMP circuits including constant gain, voltage summing, controlled sources, differentiator, integrator amps. Contribution of Learning Outcomes to Programme Outcomes P1P2P3P4P5P6P7P8P9P10P11 All 1 C1 5 C2 3 C3 5 C4 5 bbb
