Veidlapa Nr. M-3 (8)
Study Course Description
Electrotechnics
Course Code
REK_158
Branch of Science
Electrical engineering, Electronic engineering, Information engineering; Theoretical Basics of Electrical Engineering
ECTS
3.00
Target Audience
Medical Services
LQF
Level 6
Study Type And Form
Full-Time
Study Course Implementer
Course Supervisor
Evita Krasmane
Structure Unit Manager
Liāna Deklava
Structural Unit
Department of Rehabilitation
Contacts
Riga, 26a Anninmuizas boulevard, rk@rsu.lv, +371 20271291
About Study Course
Objective
To develop understanding of the basic principles of electrical engineering and electronics, the basis and possibilities of modern electronic circuit elements, the possibilities and perspectives of using electronic devices in rehabilitation, including orthotics and prosthetics.
Preliminary Knowledge
Knowledge of mathematics and physics at secondary education level.
Learning Outcomes
Knowledge
1.As a result of completing the course, the student is able to define the basic concepts of electronic engineering and electronics, describe the operation of semiconductor devices, and give examples of device applications. The student can name the functional components of analogue and digital electronic circuits, describe the functions and fields of application.
Skills
1.As a result of completing the course, the student is able to calculate simple passive circuits, simple operational amplifier circuits.
Competences
1.The student is able to analyse an orthotic/prosthetic system: identify physiological signals used, power source, actuators, identify system functions. The student identifies the problems that arise when using electronic and electrical circuits in orthotics/prosthetics.
Assessment
Individual work
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Title
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% from total grade
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Grade
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1.
Individual work |
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Students independently prepare a report on a modern active prosthetic/orthotic system. When writing the report, the student should identify the functions of the system, try to give as detailed a description as possible of the operation of the system, paying particular attention to the physiological signals used in the system, processing algorithms thereof, actuators and power supplies used.
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Examination
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Title
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% from total grade
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Grade
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1.
Examination |
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-
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Report, presentation and discussion on a modern orthotic/prosthetic system.
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Study Course Theme Plan
FULL-TIME
Part 1
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Lecture
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Class/Seminar
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Class/Seminar
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Class/Seminar
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Class/Seminar
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Modality
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Location
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Contact hours
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On site
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Auditorium
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2
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Topics
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Basic principles of electrical engineering and electronics
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Total ECTS (Creditpoints):
3.00
Contact hours:
32 Academic Hours
Final Examination:
Exam (Written)
Bibliography
Required Reading
1.
Laganovskis J. Elektrotehnika. – R.: Zvaigzne, 1985. 284 lpp. (akceptējams izdevums)
2.
Greivulis J., Raņķis I. Iekārtu vadības elektroniskie elementi un mezgli. Rīga: Avots, 1996. 288 lpp. (akceptējams izdevums)
3.
Webster, J. G (ed.) Medical Instrumentation, John Wiley and Sons, 2020, 691 p.
Additional Reading
1.
Bronzino J. D (ed.) The Biomedical Engineering handbook, CRC Press, 2006, 2862 p.
Other Information Sources
1.
Internetā pieejamas grāmatas (djvu formātā)