Marine Electrical Systems
BASIC DATA
course listing
A - main register
course code
SKR0130
course title in Estonian
Elektrisüsteemid meretehnikas
course title in English
Marine Electrical Systems
course volume CP
-
ECTS credits
6.00
to be declared
yes
fully online course
not
assessment form
Examination
teaching semester
autumn
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
no
Structural units teaching the course
EC - Kuressaare College
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Õppeaine eesmärk on:
- anda ülevaade elektriahelates ja erinevatel ahela elementidel toimuvatest protsessidest, neid kirjeldavatest reeglitest;
- omandada oskused elektri- ja elektroonika-komponentide käsitlemiseks ning nende parameetrite mõõtmiseks;
- saada ülevaade tänapäeval meretehnikas kasutuses olevatest elektri- ja elektroonikasüsteemidest;
- saada oskused elektriseadmete omaduste hindamiseks ning valikute tegemiseks lähtudes meretehnika valdkonna nõuetest.
- anda ülevaade elektriahelates ja erinevatel ahela elementidel toimuvatest protsessidest, neid kirjeldavatest reeglitest;
- omandada oskused elektri- ja elektroonika-komponentide käsitlemiseks ning nende parameetrite mõõtmiseks;
- saada ülevaade tänapäeval meretehnikas kasutuses olevatest elektri- ja elektroonikasüsteemidest;
- saada oskused elektriseadmete omaduste hindamiseks ning valikute tegemiseks lähtudes meretehnika valdkonna nõuetest.
course aims in English
The aim of this course is to:
- give an overview of circuit processes and laws that govern them. Learn the working principles of individual circuit elements;
- provide basic knowledge on the handling of electrical devices and components, measuring their parameters;
- give an overview of modern electrical systems used in marine applications;
- learn how to evaluate electrical devices according to the requirements of marine systems.
- give an overview of circuit processes and laws that govern them. Learn the working principles of individual circuit elements;
- provide basic knowledge on the handling of electrical devices and components, measuring their parameters;
- give an overview of modern electrical systems used in marine applications;
- learn how to evaluate electrical devices according to the requirements of marine systems.
learning outcomes in the course in Est.
Aine läbinud üliõpilane:
- suudab teha lihtsamaid elektrilisi mõõtmisi, ning järgib katsete läbiviimisel ohutustehnikat;
- mõistab elektri- ja elektroonikasidude funktsioneerimispõhimõtteid;
- koostab põhilisi elektriahelaid;
- teostab lihtsaid käsitsiarvutusi ning oskab interpreteerida simulaatorite saadavaid tulemusi;
- seostab omavahel baasteadmisi elektrisüsteemidest meretehnika valdkonnast ning järgib põhilisi kehtivaid standardeid.
- suudab teha lihtsamaid elektrilisi mõõtmisi, ning järgib katsete läbiviimisel ohutustehnikat;
- mõistab elektri- ja elektroonikasidude funktsioneerimispõhimõtteid;
- koostab põhilisi elektriahelaid;
- teostab lihtsaid käsitsiarvutusi ning oskab interpreteerida simulaatorite saadavaid tulemusi;
- seostab omavahel baasteadmisi elektrisüsteemidest meretehnika valdkonnast ning järgib põhilisi kehtivaid standardeid.
learning outcomes in the course in Eng.
The student who has completed the course:
- is able to perform basic electrical measurements and follows safety procedures during the execution of tests;
- understands the principles of the functioning of circuits and their individual elements;
- does basic circuit calculus and interprets the results of simulation programs;
- connects basic knowledge of the field of marine electronics and follows the current standards.
- is able to perform basic electrical measurements and follows safety procedures during the execution of tests;
- understands the principles of the functioning of circuits and their individual elements;
- does basic circuit calculus and interprets the results of simulation programs;
- connects basic knowledge of the field of marine electronics and follows the current standards.
brief description of the course in Estonian
Alalis- ja vahelduvvool, vastavad ahelad. Komponendid ja nende mudelid. Mõõtmine ja mõõtmisvead. Signaalid, sageduspiirkonnad. Transistorid, võimendid, filtrid. Energeetilised suhted. Loogikaelemendid. Elektromagnetiline ühilduvus. Uitvoolud. Elektriohutus. Näited rakendustest meretehnikas kasutuses olevates elektrisüsteemidest.
brief description of the course in English
DC and AC current, their circuits. Components and their models. Measurement and error. Signals, frequency domains. Transistors, amplifiers, filters. Energetic relations. Logic elements. Electromagnetic compability. Stray currents. Electrical safety. Application examples.
type of assessment in Estonian
eristav hindamine
type of assessment in English
graded
independent study in Estonian
Iseseisev töö toimub Moodle e-õppe keskkonnas.
independent study in English
Individual course work will be conducted in the Moodle e-learning environment.
study literature
Lahtmets, R. (2002). Elektrotehnika I. Alalisvool; Elektrotehnika II. Vahelduvvool.
Marine Electrical Systems. (2007).
Giuffrida, M. (2019). Electrical plants and electric propulsion on ships.
Järvik, J. (2014). Üldelektrotehnika: õpik kõrgkoolidele.
Marine Electrical Systems. (2007).
Giuffrida, M. (2019). Electrical plants and electric propulsion on ships.
Järvik, J. (2014). Üldelektrotehnika: õpik kõrgkoolidele.
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
2.0
lectures
16.0
practices
1.0
practices
8.0
exercises
1.0
exercises
8.0
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2025/2026 autumn
Karlo Hälvin, EC - Kuressaare College
Estonian