Course detail

Design and Technology of Electronic Equipments

FEKT-MPC-KTEAcad. year: 2020/2021

Demands on electronic instruments and systems. Design and consruction of electronic instruments and its manufacturing. Electromagnetic compatibility. Design on electrical level, components selection, application rules, schematic capture, parasitic couplings and transfers, practical rules. Reliability of electronic instruments. Technical diagnostics. Security of electronic instruments against unfavourable external and internal influences. Thermal management. Security of persons against accidents caused by electricity. Grounding and shielding. Ergonometry of measuring instruments.

Learning outcomes of the course unit

The graduate is able to:
- describe the basic principles of an industrial property protection,
- explain the production technology preparation,
- describe the used method of electromagnetic compatibility (EMC),
- describe the used ensurings of signal distribution,
- select appropriate power source distribution on the basis of given requirements,
- name individually parazitic couplings and transfers in electronic circuits,
- explain principles of shielding,
- explain principles of thermal management,
- describe and explain individual methods of soldering,
- discuss principal possibilities of printed circuit boards,
- discuss advantages and disadvantages of surface mount technology,
- estimate respectably safety requirements for electronic equipments,
- describe the used method of diagnostics,
- discuss advantages and disadvantages of quality management methods.


The subject knowledge on the Bachelor´s degree level is requested.


Not applicable.

Recommended optional programme components

Not applicable.

Recommended or required reading

Fowler, K.R. Electronic Instrument Design, Oxford University Press; 1st edition (2015), ISBN-10: 9780199458851 (EN)
Williams, T.: EMC for product designers, Newnes, 1996 (EN)
PISACANE, V. L.: The space environment and its effects on space systems. AIAA, ISBN 1563479265 (EN)
ŠESTÁK, J. - STRNAD, Z. - TŘÍSKA, A.: Speciální technologie a materiály, Academia, Praha (CS)
MUSIL, V. a kol.: Návrh a konstrukce elektronických zařízení. Prezentace projektu KISP. Brno 2014 (CS)
Scherz,P., Monk S. Practical Electronics for Inventors, McGraw-Hill Education TAB; 4 edition (March 24, 2016), ISBN-10: 1259587541 (EN)

Planned learning activities and teaching methods

Teaching methods include lectures and laboratories. The course is taking materials at the web pages. Students have to prepare one project/assignment during the course.

Assesment methods and criteria linked to learning outcomes

Practicals - 30 points; minimum 20 points.
Final exam - 70 points; minimum 30 points.

Language of instruction


Work placements

Not applicable.

Course curriculum

1. Case study
2. distribution board technology 1
3. distribution board technology 2
4. PLC + automatization elements
5. Cooling system
6. EMC + shielding
7. Materials for construction
8. 3D printing
9. Diagnostics of components and equipment
10. Revision of electrical equipment and their tests
11. Revision of electrical equipment and their tests
12. Protection of industrial property


To be introduced to practicle principles of designing electronic instruments and devices as regards both electrical and mechanical aspects - in the industrial environment.
Design and properties of signal lines, supply lines and distribution frames - suppression of interference and ground loops. Parasitic events and their suppression - coupling in input and output circuits, parasitic capacitances and inductances, thermoelectric voltage, overvoltage on inductive load, reflections on lines, crosstalk.Electric and magnetic field screening, equipotential guarding. Choice of components and application recommendation - discrete elements, operational amplifiers, comparators, electronic switches, A/D and D/A converters, sample-and-hold elements, digital circuits, microprocessors. Mechanics design: regulation, control and indication elements - lay-ou on the front panel, instrument housing design, heat removal, thermostatic elements. Printed circuits, wired printed circuits, connection of conductors and components. Safety requirements in instrument design. The student acquires concrete application knowledge of electronic instrument design, which is otherwise obtained through long-term development practice. Emphasis is laid on understanding the physical essence of parasitic events so that their knowledge can be applied to other cases. He learns to foresee and anticipate the appearance of many problems arising in the development of new instruments in both the electrical and the mechanical part of the design.

Specification of controlled education, way of implementation and compensation for absences

The content and forms of instruction in the evaluated course are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year.

Classification of course in study plans

  • Programme MPC-MEL Master's, 2. year of study, winter semester, 5 credits, compulsory-optional

Type of course unit


Exercise in computer lab

26 hours, compulsory

Teacher / Lecturer