Power and Control Electronics (FSI-RVE)
| Academic year 2018/2019 |
| Supervisor: | doc. Ing. Radoslav Cipín, Ph.D. | |||
| Supervising institute: | ÚMTMB | |||
| Teaching language: | Czech | |||
| Aims of the course unit: | ||||
| Control electronics: owerwiev of the basic analog and digital circuits, and of the A/D and D/A converters. Power electronics: Basic owerwiev of the all type power convertes. Focusation on the application in the electrical drives area. |
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| Learning outcomes and competences: | ||||
| The ability to solve the basic analog and digital circuits, and the basic power converters. The basic system user orientation in the area of the electrical drives. |
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| Prerequisites: | ||||
| The basic knowledges from the theoretical electroengineering, nad mathematical logic (Boole algebra). The mathematic knowledges on 1st year technical university lewel. | ||||
| Course contents: | ||||
| Control electronics: Bipolar transistor: characteristics, linear regime, working point adjustment. Reference voltage sources, constant current sources. Operational amplifiers: characteristics, typical applications of OA. Digital integrated circuits: TTL, C-MOS, memories. D/A converters, A/D converters. Power electronics: Thermal effects, cooling of power semiconductors. Effective mechanical power, effective electrical power. Rectifiers. AC/AC converters. DC/DC converters. DC/AC converters. Converter control: Pulse Width Modulation (PWM). Electrical and mechanical properties of AC drives with induction machine and synchronous machine. Power switching devices: diode, thyristor, triac, bipolar transistor, MOS-FET, IGBT, GTO. Properties, maximum parameters, range of application. |
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| Teaching methods and criteria: | ||||
| The course is taught through lectures explaining the basic principles and theory of the discipline. Exercises are focused on practical topics presented in lectures. | ||||
| Assesment methods and criteria linked to learning outcomes: | ||||
| Examination: writed part (design of the power converter), verbal part (one question on the control electronics, one question on the power electronics). | ||||
| Controlled participation in lessons: | ||||
| Attendance at practical training is obligatory. | ||||
| Type of course unit: | ||||
| Lecture | 13 × 2 hrs. | optionally | ||
| Computer-assisted exercise | 13 × 2 hrs. | compulsory | ||
| Course curriculum: | ||||
| Lecture | Bipolar transistor: properties, linear regime. Reference voltage sources, constant current sources. Operational amplifiers: properties, application. Digital circuits: TTL, CMOS, memories. Combination and sequence digital circuits. D/A converters, A/D converters. Thermal fenomena, semoconductor cooling, effective power. Rectifiers (AC/DC converters). AC voltage converters (AC/AC converters). DC pulse converters (DC/DC converters) and inverters (DC/AC converters). Pulse width modulation PWM. Electrical and mechanical properties of the AC-drives with the induction motor and synchronous motor. Power switching devices: diode, thyristor, triac, bipolar transistor, MOS_FET, IGBT, GTO. |
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| Computer-assisted exercise | DC working point of the transistor and Zener diode. Operational amplifier: invert connection (P, I, D, PID, SUM). Operational amplifier: non-invert connection. Operational amplifier: non-linear connection. Digital circuits synthesis. Sequence digital circuits: RS, D, JK. Thermal fenomena in the power elecronics. Active power. Its computation and measurement in the typical cases. Rectifier design. AC/AC converters design. Pulse width modulation PWM. Analysis of the DC/DC step-down converter. Design of the three-phase DC/AC converter with the induction machine. |
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| Literature - fundamental: | ||||
| 1. Patočka M.: Vybrané statě z výkonové elektroniky, sv.I. | ||||
| 2. Patočka M.: Vybrané statě z výkonové elektroniky, sv.II. | ||||
| 3. Patočka M. Vorel P.: Řídicí elektronika - pasivní obvody. | ||||
| 4. Patočka M. Vorel P.: Řídicí elektronika - aktivní obvody. | ||||
| 5. Patočka M., Burian F.: Sbírka řešených příkladů z řídicí elektroniky. | ||||
| 6. Sheng W. W., Colino R. P.: Power electronic modules. CRC PRESS, N. Y., 2005, ISBN 0-8493-2260-X. | ||||
| 7. Kiehne H. A.: Battery technology handbook. Marcel Dekker, Inc., N. Y., 2003, second edition, ISBN 0-8247-4249-4. | ||||
| 8. Ang S., Oliva A.: Power-Switching Converters. Taylor Francis, London, 2005, ISBN 0-8247-2245-0. | ||||
| 9. Shepherd W., Zhang L.: Power converter circuits. Marcel Dekker, Inc., N. Y., 2004, ISBN 0-8247-5054-3. | ||||
| 10. Luo F. L., Hong Y.: Advanced DC/DC converter. CRC PRESS, N. Y., 2004, ISBN 0-8493-1956-0. | ||||
| Literature - recommended: | ||||
| 1. Kule L. a kolektiv: Technika elektrických pohonů. | ||||
| 2. Kraysa K.: Výkonová elektronika | ||||
| 3. Caha Z., Černý M.: Elektrické pohony | ||||
| 4. Mráz Z.: Řídicí členy elektrických pohonů. | ||||
| The study programmes with the given course: | |||||||||
| Programme | Study form | Branch | Spec. | Final classification | Course-unit credits | Obligation | Level | Year | Semester |
| M2A-P | full-time study | M-MET Mechatronics | -- | Cr,Ex | 5 | Compulsory | 2 | 1 | S |
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