430-2302/02 – Power Semiconductor Systems I (VPS1)

Gurantor department	Department of Applied Electronics	Credits	8
Subject guarantor	Ing. Aleš Havel, Ph.D.	Subject version guarantor	Ing. Aleš Havel, Ph.D.
Study level	undergraduate or graduate	Requirement	Choice-compulsory
Year	3	Semester	winter
		Study language	English
Year of introduction	2015/2016	Year of cancellation	2020/2021
Intended for the faculties	FEI	Intended for study types	Bachelor

Instruction secured by
Login	Name	Tuitor	Teacher giving lectures
H1L20	prof. Ing. Petr Chlebiš, CSc.
HAV278	Ing. Aleš Havel, Ph.D.
PAV15	Ing. Tomáš Pavelek, Ph.D.

Extent of instruction for forms of study
Form of study	Way of compl.	Extent
Full-time	Credit and Examination	3+3
Part-time	Credit and Examination	3+22

Subject aims expressed by acquired skills and competences

Bipolar semiconductor device. Unipolar semiconductor devices and IGBTs. Hard- and soft switching of semiconductor switches, safe operating area, resonant converters. Analysis of line commutated rectifiers, output characteristics, EMC. Analysis of pulse converters, buck converters, step-down converters, control methods of pulse converters. Voltage type inverters, structures and control methods. Current type inverters, structures and control methods. Direct and indirect frequency converters. AC current regulators. DC switched power sources. Uninterable powers sources (UPS) and charging power sources. High- and middle- frequency converters for electrical heating. Power AC active filters. Semiconductor converters for automotive applications. Semiconductor converters for traction.

Teaching methods

Lectures
Tutorials
Experimental work in labs

Summary

Power electronics is a branch which intensively enters all technical areas of the present living. Practical utilization of the conversion principle of the electric energy via semiconductor switching devices requires apart from the knowledge about principle and function of elementary semiconductor converters also especially about their industrial and commercial applications. The subject provides pieces of knowledge to students in field of applied and commercial electronics, power electronics, electric drives and other segments of electrical engineering.

Compulsory literature:

Rashid, M. H.: Power Electronics. Prentice-Hall International, Inc. ISBN 0-13-334483-5, 1993.

Recommended literature:

Heumann, K.: Basic Principles of Power Electronics. Springer-Verlag Berlin Heidelberg New York, ISBN 3642826768, 2012.

Additional study materials

Study supports in the EduDocs system

Way of continuous check of knowledge in the course of semester

Verification of study: Checktests TEST no. 1, TEST no. 2 (see exercises) Conditions for credit: 100% practical instruction participation, extraordinary substitute just on base of previous teacher acceptance. Delivering of practical instruction courseworks on schedule = 1 week after appropriate practical instruction 100% checktests participation on schedule (exact date will notice minimal 1 week before). In case of checktests attendance in another date (not officially scheduled) its possible to obtain just 80% of conventional maximal amount of points. Each checktest its possible to repeat one time, in case of repeat checktest its possible to obtain just 80% of conventional maximal amount of points! Minimal amount of received points is 25 from 40 points. Points classification of practical instructions - maximal 40 points, devided to: T1 = max. 10 points T2 = max. 10 points Courseworks of practice instructions = max. 20 points

E-learning

Other requirements

There are no additional requirements for the student.

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

Lectures: Bipolar semiconductor device. Unipolar semiconductor devices and IGBTs. Hard- and soft switching of semiconductor switches, safe operating area, resonant converters. Analysis of line commutated rectifiers, output characteristics, EMC. Analysis of pulse converters, buck converters, step-down converters, control methods of pulse converters. Voltage type inverters, structures and control methods. Current type inverters, structures and control methods. Direct and indirect frequency converters. AC current regulators. DC switched power sources. Uninterable powers sources (UPS) and charging power sources. High- and middle- frequency converters for electrical heating. Power AC active filters. Semiconductor converters for automotive applications. Semiconductor converters for traction. Exercises: Design of cooling systems for semiconductor modules. Design of capacitors and inductors for power electronic systems. TEST no. 1. Power semiconductor devices and loses. Design of switched voltage controller. Design of switched transformer, power and control unit. Concept of traction converters. TEST no. 2. Switching sources and controllers. Laboratories: Controlled rectifier laboratory task (no. 1) Controlled rectifier laboratory task (no. 2) Pulse converter laboratory task (no. 3) Voltage inverter laboratory task (no. 4) Frequency inverter laboratory task (no. 5). Projects: Laboratory tasks and results elaboration: Controlled rectifier laboratory task (no. 1), (4 hours) Controlled rectifier laboratory task (no. 2), (4 hours) Pulse converter laboratory task (no. 3), (4 hours) Voltage inverter laboratory task (no. 4), (4 hours) Frequency inverter laboratory task (no. 5) (4 hours) Computer labs: PSpice modelling - basic models of power devices. Loses calculation with using PSpice modelling. SW PSpice available in English version.

Conditions for subject completion

Part-time form (validity from: 2015/2016 Winter semester, validity until: 2020/2021 Summer semester)

Task name	Type of task	Max. number of points (act. for subtasks)	Min. number of points	Max. počet pokusů
Credit and Examination	Credit and Examination	100 (100)	51
Credit	Credit	40	25
Examination	Examination	60	15	3

Mandatory attendence participation:

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Conditions for subject completion and attendance at the exercises within ISP:

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Occurrence in study plans

Academic year	Programme	Branch/spec.	Form	Study language	Tut. centre	Year	Type of duty
2019/2020	(B2649) Electrical Engineering	(2612R003) Applied Electronics	P	English	Ostrava	3	Choice-compulsory	study plan
2019/2020	(B2649) Electrical Engineering	(2612R003) Applied Electronics	K	English	Ostrava	3	Choice-compulsory	study plan
2018/2019	(B2649) Electrical Engineering	(2612R003) Applied Electronics	P	English	Ostrava	3	Choice-compulsory	study plan
2018/2019	(B2649) Electrical Engineering	(2612R003) Applied Electronics	K	English	Ostrava	3	Choice-compulsory	study plan
2017/2018	(B2649) Electrical Engineering	(2612R003) Applied Electronics	P	English	Ostrava	3	Choice-compulsory	study plan
2017/2018	(B2649) Electrical Engineering	(2612R003) Applied Electronics	K	English	Ostrava	3	Choice-compulsory	study plan
2016/2017	(B2649) Electrical Engineering	(2612R003) Applied Electronics	P	English	Ostrava	3	Choice-compulsory	study plan
2016/2017	(B2649) Electrical Engineering	(2612R003) Applied Electronics	K	English	Ostrava	3	Choice-compulsory	study plan
2015/2016	(B2649) Electrical Engineering	(2612R003) Applied Electronics	P	English	Ostrava	3	Choice-compulsory	study plan
2015/2016	(B2649) Electrical Engineering	(2612R003) Applied Electronics	K	English	Ostrava	3	Choice-compulsory	study plan

Occurrence in special blocks

Block name	Academic year	Form of study	Study language	Type of block	Block owner
V - ECTS - bc.	2019/2020	Full-time	English	Optional	401 - Study Office	stu. block
V - ECTS - bc.	2018/2019	Full-time	English	Optional	401 - Study Office	stu. block
V - ECTS - bc.	2017/2018	Full-time	English	Optional	401 - Study Office	stu. block
V - ECTS - bc.	2016/2017	Full-time	English	Optional	401 - Study Office	stu. block
V - ECTS - bc.	2015/2016	Full-time	English	Optional	401 - Study Office	stu. block

Assessment of instruction

2018/2019 Winter