Subject description - AE0M34NNZ

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AE0M34NNZ Design of Power Supplies for Electronics Extent of teaching:2P+2L
Guarantors:  Roles:V Language of
Teachers:  Completion:Z,ZK
Responsible Department:13134 Credits:5 Semester:L


The subject describes the basic principles and concepts of power supplies. The subject explains the behavior of linear stabilizers, basic switching regulators, supplies protections, electrochemical supply cells and trends in power supply designs. The subject is meant for diploma project students designing the switching power supplies. It treats the switching power supply design programs and switching regulators component using PC. A special attention is devoted to EMC requirements in switch-mode power supplies as well as to the cost versus operational efficiency ratio. Design of a switch-mode power supply.

Course outlines:

1. Concepts of power supplies, linear stabilizers, basic switching regulators. Voltage and current regulators.
2. Control circuits for switching regulators. Connection of analog feedback and switching-mode regulators.
3. Switcher CAD - a program for switch-mode regulator design. Increasing of output currents and voltages
4. MicroPower Switcher CAD - a program for small power Integrated switch-mode regulator design, low voltage s.
5. Switch-mode regulators with TOP switch circuits. AC/DC-TOP - Calculation of the AC/DC sources.
6. PI Expert - a program for the switch-mode regulator design using TOP switch circuits.
7. Magnetic - Design Tool - a program for the magnetic circuit design for the switch-mode regulators.
8. Design of coils and transformers for switch-mode regulators.
9. Inductorless switch-mode regulator design, charge pumps.
10. Active harmonic filters for switch-mode regulators.
11. DC/DC converter design using switch-mode regulators.
12. Design of switch-mode regulator for a PC.
13. Choice of the passive components for the switch-mode regulator design.
14. Electrochemical and solar power supplies.

Exercises outline:

1. Methods of power supplies measurement
2. The 723 monolithic voltage regulator
3. The TL431 and LM317 adjustable voltage regulator
4. Design of a switch-mode power supply increasing and reducing positive voltage using the SW CAD program
5. Design of the projected switch-mode power supply and measurement of its properties
6. Positive voltage inverting switch-mode power supply design using the SW CAD program
7. Design of the projected switch-mode power supply and measurement of its parameters
8. Design of a negative voltage increasing switch-mode power supply using the SW CAD program
9. Design of the projected power supply and measurement of its properties
10. Design of a negative voltage reducing switch-mode power supply using the SW CAD program
11. Design of the projected switch-mode power supply and measurement of its parameters
12. Design of a inverting negative voltage switch-mode power supply using the SW CAD program
13. Design of the projected switch-mode power supply proposed and measurement of its parameters
14. Design of current and voltage boosters for switch-mode power supplies


1. Lenk, J. D.: Simplified Design of Voltage-Frequency Converters. Newnes, Oxford 1997.
2. Lenk, J. D.: Simplified Design of Micropower And Battery Circuits. Butterworth-Heinemann, Oxford 1996.
3. LINEAR TECHNOLOGY: Switcher Cad Users Manual. Linear Technology
Corporation, Milpitas, CA 1992


In order to be allowed to be examined, the student must perform all experiments, submit a workbook containing processed results of all measurements and pass the final written test.

Subject is included into these academic programs:

Program Branch Role Recommended semester
MEKME1 Wireless Communication V
MEKME5 Systems of Communication V
MEKME4 Networks of Electronic Communication V
MEKME3 Electronics V
MEKME2 Multimedia Technology V
MEOI1 Artificial Intelligence V
MEOI5NEW Software Engineering V
MEOI5 Software Engineering V
MEOI4 Computer Graphics and Interaction V
MEOI3 Computer Vision and Image Processing V
MEOI2 Computer Engineering V
MEEEM1 Technological Systems V
MEEEM5 Economy and Management of Electrical Engineering V
MEEEM4 Economy and Management of Power Engineering V
MEEEM3 Electrical Power Engineering V
MEEEM2 Electrical Machines, Apparatus and Drives V
MEKYR4 Aerospace Systems V
MEKYR1 Robotics V
MEKYR3 Systems and Control V
MEKYR2 Sensors and Instrumentation V

Page updated 24.6.2019 17:52:59, semester: Z,L/2020-1, L/2018-9, Z,L/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)