Nevşehir Hacı Bektaş Veli University Course Catalogue
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| Year/Semester of Study | 2 / Fall Semester | ||||
| Level of Course | 1st Cycle Degree Programme | ||||
| Type of Course | Compulsory | ||||
| Department | ELECTRICAL AND ELECTRONICS ENGINEERING | ||||
| Pre-requisities and Co-requisites | None | ||||
| Mode of Delivery | Face to Face | ||||
| Teaching Period | 14 Weeks | ||||
| Name of Lecturer | MEHMET ONUR KÖK (onurkok@nevsehir.edu.tr) | ||||
| Name of Lecturer(s) | ALPER TÜRKELİ, | ||||
| Language of Instruction | Turkish | ||||
| Work Placement(s) | None | ||||
| Objectives of the Course | |||||
| To teach the definition equations and properties of two- and four-terminal active and passive circuit elements used in Electrical-Electronics Engineering. To teach how to obtain mathematical models of RLC elements, active and passive circuit elements and circuits formed by quadruple circuit elements systematically by different methods. To teach mathematical models in sinusoidal continuous state. To teach three-phase and symmetric systems. | |||||
| Learning Outcomes | PO | MME | |
| The students who succeeded in this course: | |||
| LO-1 | Knows basic concepts of circuit theory and properties of circuit elements |
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. PO-11 The techniques required for engineering applications, methods and improve the ability to use modern tools. |
Examination |
| LO-2 | 118/5000 Knows mathematical modeling of electrical circuits and performing circuit solution with this method. |
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. PO-11 The techniques required for engineering applications, methods and improve the ability to use modern tools. |
Examination |
| LO-3 | Knows independent current and voltage equations. |
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. PO-11 The techniques required for engineering applications, methods and improve the ability to use modern tools. |
Examination |
| LO-4 | Knows how to operate with matrix and phasors and can apply it to circuit problems |
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. PO-11 The techniques required for engineering applications, methods and improve the ability to use modern tools. |
Examination |
| LO-5 | Can obtain and solve the equations of the circles and nodes of sinusoidal continuous circuits |
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. PO-11 The techniques required for engineering applications, methods and improve the ability to use modern tools. |
Examination |
| LO-6 | Can derive and apply different power relations. |
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. PO-11 The techniques required for engineering applications, methods and improve the ability to use modern tools. |
Examination |
| LO-7 | Learns sinusoidal continuous circuit theorems and can apply them to the circuits |
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. PO-11 The techniques required for engineering applications, methods and improve the ability to use modern tools. |
Examination |
| LO-8 | Learns three-phase systems and can calculate forces by deriving power relations in balanced, unbalanced systems. |
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve. PO-10 Experimental design and conduct experiments, analyze experimental results and ability to add to interpret. PO-11 The techniques required for engineering applications, methods and improve the ability to use modern tools. |
Examination |
| PO: Programme Outcomes MME:Method of measurement & Evaluation |
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| Course Contents | ||
| Two- and four-terminal passive components,Features of linear two-terminals, Basic loop, basic sectioning equations matrices,Active circuit elements and source functions, periodic and non-periodic functions,Circuit solution with loop equations, Circuit solution with node equations,Sinusoidal continuous state,Phasors and phasic operations,Loop and node equations in sinusoidal continuous mode and m-parameter,Power and mean power equations in continuous sinusoidal state,Impedance and admittance calculation,Continuous sinusoidal circuit theorems,Three-phase systems and symmetrical components. | ||
| Weekly Course Content | ||
| Week | Subject | Learning Activities and Teaching Methods |
| 1 | Passive circuit components. | Lecture, question and answer, discussion |
| 2 | Kirchhoff's Laws, Series Connected and Parallel Connected Resistors | Lecture, question and answer, discussion |
| 3 | Division of Current and Voltage, Star-Delta transformations. | Lecture, question and answer, discussion |
| 4 | Active circuit elements and source functions | Lecture, question and answer, discussion |
| 5 | Dependent Sources and Circuit Solutions | Lecture, question and answer, discussion |
| 6 | Circuit solution with loop equations. | Lecture, question and answer, discussion |
| 7 | Circuit solution with node equations. | Lecture, question and answer, discussion |
| 8 | mid-term exam | |
| 9 | Sinusoidal continuous state. | Lecture, question and answer, discussion |
| 10 | Phasors and phasic operations. | Lecture, question and answer, discussion |
| 11 | Loop and node equations in sinusoidal continuous mode | Lecture, question and answer, discussion |
| 12 | Power and mean power equations in continuous sinusoidal state. | Lecture, question and answer, discussion |
| 13 | Impedance and admittance calculation. | Lecture, question and answer, discussion |
| 14 | Continuous sinusoidal circuit theorems. | Lecture, question and answer, discussion |
| 15 | Three-phase systems and symmetrical components. | Lecture, question and answer, discussion |
| 16 | final exam | |
| Recommend Course Book / Supplementary Book/Reading | ||
| 1 | Temel Mühendislik Devre Analizi, Yazarlar-J.D. Irwin, R.M. Nelms, Çevirenler-H. Dağ, S. Sünter, T. Aydemir, H. Altun, Nobel Akademik Yayıncılık, Nisan 2015. | |
| 2 | Introduction to Electric Circuits, R.C. Dorf, J.A. Svoboda, John Wiley & Sons Publication, 2010. | |
| Required Course instruments and materials | ||
| Course book, laptop computer | ||
| Assessment Methods | |||
| Type of Assessment | Week | Hours | Weight(%) |
| mid-term exam | 8 | 1 | 40 |
| Other assessment methods | |||
| 1.Oral Examination | |||
| 2.Quiz | |||
| 3.Laboratory exam | |||
| 4.Presentation | |||
| 5.Report | |||
| 6.Workshop | |||
| 7.Performance Project | |||
| 8.Term Paper | |||
| 9.Project | |||
| final exam | 16 | 1 | 60 |
| Student Work Load | |||
| Type of Work | Weekly Hours | Number of Weeks | Work Load |
| Weekly Course Hours (Theoretical+Practice) | 3 | 14 | 42 |
| Outside Class | |||
| a) Reading | 3 | 11 | 33 |
| b) Search in internet/Library | 3 | 11 | 33 |
| c) Performance Project | 0 | ||
| d) Prepare a workshop/Presentation/Report | 0 | ||
| e) Term paper/Project | 0 | ||
| Oral Examination | 0 | ||
| Quiz | 0 | ||
| Laboratory exam | 0 | ||
| Own study for mid-term exam | 5 | 1 | 5 |
| mid-term exam | 1 | 1 | 1 |
| Own study for final exam | 5 | 1 | 5 |
| final exam | 1 | 1 | 1 |
| 0 | |||
| 0 | |||
| Total work load; | 120 | ||