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Lecturer(s)
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Macků Lubomír, Ing. Ph.D.
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Adámek Milan, prof. Mgr. Ph.D.
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Course content
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1.Conductive materials, insulators and semiconductors, properties of semiconductor elements, VA characteristics of diodes, stabilizers and rectifiers. 2. Transistor phenomenon, bipolar transistors, VA characteristics of transistors, basic amplifier stages s bipolar transistor (SE, SB, SC), principle of function, analysis of basic properties (gain, input and output resistance), frequency properties, Miller effect. 3. Unipolar transistors, IGFET and JEFT transistors, VA characteristics of unipolar characteristics and their measurement, basic amplifier stages with unipolar transistor (SS, SG, SD), comparison of properties, use. 4. Multilayer switching components, terminal blocking and bidirectionally conductive mode, diac, triac, thyristor, construction, VA characteristics, application examples. 5. Construction of operational amplifiers, basic connection for idealized operational amplifier, inverting a non-inverting amplifier, differential amplifier, summator, integration and derivative term, voltage tracker, real properties of operational amplifiers. 6. Optoelectronic elements, optoelectronic transmitters and receivers, optocouplers, oscillator principle, conditions formation of oscillations, types of oscillators and their circuit solutions. Function generators, voltage controlled oscillator. 7. Numerical systems as a basis of code, algebraic operations in number systems, weight and non-weight codes, detection codes. 8. Logic elements with bipolar transistors, hazards in combinational logic circuits, TTL technology 9. Logic elements with unipolar transistors. CMOS technology. Compatibility of TTL and CMOS technologies. 10. Selected logic blocks: adder, subtractor, multiplexer, demultiplexer, decoder, encoder, decoder, detector code errors, parity generator, comparator, arithmetic and logic unit. 11. Sequential logic circuits and networks, astable, bistable and monostable flip-flops, register, asynchronous and synchronous counter, memories, types of memories and their construction. 12. Shift register, frequency dividers, examples of use. 13. AD converters, construction, properties, use of individual types. 14. DA converters, construction, properties, use of individual types.
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Learning activities and teaching methods
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Lecturing, Simple experiments, Exercises on PC
- Preparation for course credit
- 40 hours per semester
- Preparation for course credit
- 40 hours per semester
- Home preparation for classes
- 50 hours per semester
- Preparation for examination
- 50 hours per semester
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| prerequisite |
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| Knowledge |
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| Electrotechnics |
| Electrotechnics |
| learning outcomes |
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| Can define the basic properties of insulators, conductors and semiconductors |
| Can define the basic properties of insulators, conductors and semiconductors |
| Knows the structure and principle of diodes, single and multi path rectifiers, voltage regulators |
| Knows the structure and principle of diodes, single and multi path rectifiers, voltage regulators |
| Can explain the transistor yen, the principle of bipolar and unipolar transistors |
| Can explain the transistor yen, the principle of bipolar and unipolar transistors |
| Demonstrates knowledge of multilayer switching devices, operational amplifiers and optoelectronic |
| Demonstrates knowledge of multilayer switching devices, operational amplifiers and optoelectronic |
| Can define number systems, algebraic operations in number systems |
| Can define number systems, algebraic operations in number systems |
| Demonstrates knowledge of logic components that are constructed using TTL and CMOS technology including compatibility. |
| Demonstrates knowledge of logic components that are constructed using TTL and CMOS technology including compatibility. |
| Knows the structure of selected logic blocks: adder, subtractor, multiplexer, demultiplexer, decoder, encoder, recoder, code error detector, parity generator, comparator, arithmetic and logic unit |
| Knows the structure of selected logic blocks: adder, subtractor, multiplexer, demultiplexer, decoder, encoder, recoder, code error detector, parity generator, comparator, arithmetic and logic unit |
| Know the structure of selected sequential circuits and networks: astable, bistable and monostable flip-flop circuits, register, asynchronous and synchronous counter, memories, memory types and their construction, shift register, frequency divider |
| Know the structure of selected sequential circuits and networks: astable, bistable and monostable flip-flop circuits, register, asynchronous and synchronous counter, memories, memory types and their construction, shift register, frequency divider |
| Can explain the principles, design, properties, application of AD and DA converters |
| Can explain the principles, design, properties, application of AD and DA converters |
| Skills |
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| Connect simple and more complex analog circuit |
| Connect simple and more complex analog circuit |
| Design a simple analog circuit using semiconductor components according to functionality |
| Design a simple analog circuit using semiconductor components according to functionality |
| Minimize logic functions using various minimization methods including their connection through TTL and CMOS circuits |
| Minimize logic functions using various minimization methods including their connection through TTL and CMOS circuits |
| Implement basic logic blocks through logic circuits |
| Implement basic logic blocks through logic circuits |
| Integrate sequential circuits and networks through logic components |
| Integrate sequential circuits and networks through logic components |
| Implement AD and DA converters in analog and digital circuits |
| Implement AD and DA converters in analog and digital circuits |
| teaching methods |
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| Knowledge |
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| Lecturing |
| Lecturing |
| Simple experiments |
| Simple experiments |
| Exercises on PC |
| Exercises on PC |
| assessment methods |
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| Composite examination (Written part + oral part) |
| Composite examination (Written part + oral part) |
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Recommended literature
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AGARWAL. Foundations of Analog and Digital Electronic Circuits. Elsevier. ISBN 13 978-1558607354.
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NEUMANN. Elektronické obvody a funkční bloky. Praha, 1999.
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PUNČOCHÁŘ. Operační zesilovače. Praha, 2003.
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