| SYLLABUS | |||||||||||||||
| University: Technical University of Košice | |||||||||||||||
| Faculty: Faculty of Electrical Engineering and Informatics | |||||||||||||||
| Department: Department of Theoretical and Industrial Electrical Engineering |
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| Course Number: 2618641 | Course Name: Electrotechnics | ||||||||||||||
| Type, scope and method of learning activities: Course Type: Lecture, Seminar Recommended scope of the course content (in hours): Full-time study (hours per week): 3,3 Part-time study (hours per semester): ST 39,39 Study Method: |
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| Number of credits: 6 | |||||||||||||||
| Recommended semester of study: ST | |||||||||||||||
| Recommended semester | Study programme | Study grade | Study Method | ||||||||||||
| 1.rok ST | Industrial Electrical Engineering (PE_Bc_D_sk) Electrical Power Engineering (EE_Bc_D_sk) Electrical Power Engineering (EE_Bc_D_en) Physical Engineering of Advanced Materials (FIPM_Bc_D_sk) Automated electrical systems (AES_Bc_KM) Applied Electrical Engineering (ApE_Bc_D_sk) Automated electrical systems (AES_Bc_D_sk) Electrical Power Engineering (EE_Bc_KM) Applied Electrical Engineering (ApE_Bc_D_KM) |
Bachelor Bachelor Bachelor Bachelor Bachelor Bachelor Bachelor Bachelor Bachelor |
Attendance Attendance Attendance Attendance Combined Attendance Attendance Combined Combined |
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| Level of study: Bachelor | |||||||||||||||
| Prerequisites: | |||||||||||||||
| Course completion requirements: Assessment and completion of the course: Credit test and examination Continuous assessment: Student passes the continuous assessment and receives credits when he or she meets the requirement to obtain at least 21% out of 40%. 1 individual continuous written work 30%) Final assessment: Student passes the final assessment and passes the examination when he or she meets the requirement to obtain at least 31% out of 60%. final test (70%) Overall assessment: Overall assessment is the sum of the assessments obtained by students in the assessment period. The overall result is determined in accordance with the internal regulations of the Technical University in Košice. (Study Regulations, the internal regulation principles of doctoral studies) |
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| Learning outcomes: The graduates will receive knowledge from the field of circuit theory, classification of electric circuits, methods for circuit analysis and their applications during solving of practical examples. |
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| Brief course content: 1. Electrical circuit, circuit quantities, circuit elements: Characterization of circuit quantities (DC, harmonic, non-harmonic, impulse); general characterization of linear circuit elements, characterization of linear circuit elements for individual types of circuit quantities (physical parameters, complex impedance, image impedance). Electrical circuit behavior - I. Kirchhoff's law, II. Kirchhoff's law, generalized I. Kirchhoff's law. 2. Classification of electrical circuit, characterization of individual types of electrical circuits. 3. Electrical circuits concentrated parameters and DC sources, one phase harmonic sources, three phases harmonic sources and with impulse inputs: Circuits with DC sources: methods of analysis, power. Circuits with one phase harmonic sources: methods of analysis, power. Circuits with three phases harmonic sources: load analysis in wye connection, load analysis in delta connection, power. Circuits with impulse inputs: transient actions inside circuits: Characterization of transient action, analysis of transient actions in electrical circuits by Laplace transform. 4. Electrical circuits with distributed parameters - homogeneous long lines fed by harmonic source. Analysis of individual types of homogeneous long lines, analysis of special cases of homogeneous long lines. 5. Two-port networks with harmonic source. Matrix equations of passive linear two-port networks, description of passive linear two-port network by matrix coefficients, stating of matrix coefficients and relations between individual types of matrix coefficients. |
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| Recommended Reference Sources: Kováč, D. - Kováčová, I. - Šimko, V.: Analysis of electric circuits 1, Akris publisher, 2001, p. 112, ISBN 80-968666-1-3. All web sources covers the plan of the subject are recommended as study literature. Actual domestic and foreign journals. |
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| Recommended optional program components: |
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| Languages required for the course completion: | |||||||||||||||
| Notes: It is necessary to obtain a credit and successfully pass the exam to successfully complete the subject. This includes the student's participation in educational activities such as direct teaching, lectures, exercises, as well as independent study and independent creative activity of the student in processing the semester assignment / assignments, project on a specified topic, with a specified range and a specified design, with total of 180 hours intensity work of the student's per semester. |
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| Course assessment: Total number of students assessed: 2259 |
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| A | B | C | D | E | FX | ||||||||||
| 3% | 4% | 9% | 16% | 29% | 39% | ||||||||||
| Teacher: doc. Ing. Milan Guzan, PhD. |
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| Last modified: 31.08.2022 | |||||||||||||||
| Approved by: person(s) responsible for the study program | |||||||||||||||