Theory: 50 %

Practice: 50 %

Recommended semester: 5

Study mode: full-time

Prerequisites:

Evaluation type: exam

Course category:

Language: english

Responsible instructor: Dr. Csák Bence Zoltán

Instructor(s):

Course objectives:
The objective of the course is to introduce and describe the most basic semiconductor devices, the circuits and connections based on them, and to characterize their limit values.

Course content - lectures:

1. Semiconductors 2. Diode 3. Rectifiers and Limiters 4. Zener Diode Voltage Stabilizers 5. Bipolar Transistor, Operating Point Adjustment 6. Grounded Emitter Amplifier 7. Grounded Collector Amplifier 8. Power Stages 9. JFET-MOSFET 10. Operational Amplifier, Basic Operational Amplifier Configurations 11. Applications 12. Preliminary Exam

Course content - labs:

Acquired competences:
Knowledge:

Knows the conceptual system related to their field of expertise, the most important relationships and theories. Has a comprehensive understanding of the main theories of their field in terms of knowledge acquisition and problem-solving methods.

Skills:

By completing this course, students will gain insight into the operation and circuit techniques of diodes, BJT, FET transistors, as well as the application possibilities of operational amplifiers. The acquisition of knowledge is supported by a measurement laboratory background.

Attitude:

Open to learning about and accepting ongoing professional and technological developments and innovations in the technical field, and reliably conveying them. Strives to make self-education one of the tools for achieving professional goals. In complex or unexpected decision-making situations, makes decisions while fully considering laws and ethical standards.

Autonomy and responsibilities:

During the performance of professional tasks, collaborates with trained professionals from other disciplines (primarily technical, as well as economic and legal). Identifies the shortcomings of applied technologies, the risks of processes, and initiates actions to mitigate these. Monitors legislative, technical, technological, and administrative changes related to the field.

Additional professional competences:

Requirements, evaluation, grading:
Mid-term study requirements:
The course concludes with an oral exam, which is made possible by the portfolio-based completion of laboratory exercises. A written preliminary exam can be taken at the end of the semester.
Exam requirements:

Study aids, laboratory background:

Can download from the university’s Teams

Compulsory readings:

1. Török Miklós: Elektronika (JATEPRESS, Szeged)2. Kovács Csongor: Elektronikus áramkörök, Elektronika3. Vágó Istvánné dr.: Elektronika Automotive Electronics Handbook" by Ronald K. Jurgen.

Recommended readings: