Electrical Engineering and Mechatronics
Study programme title in Est.
Elektrotehnika ja mehhatroonika
Study programme title in Engl.
Electrical Engineering and Mechatronics
TalTech study programme code
EAMM23
MER study programme code
238622
Study programme version code
EAMM23/25
Faculty / college
E - School of Engineering
Head of study programme/study programme manager
Anton Rassõlkin
Language of instruction
Estonian
Study level
Master study
ECTS credits
120
Self-paid study programme
no
Nominal study period
4 semesters
Study programme group
Engineering, Manufacturing and Technology
Broad area of study
Engineering, Manufacturing and Construction
Study field
Engineering and engineering trades
Curriculum group
Electricity and energy
Access conditions
Bachelor's degree or education of corresponding qualification,
in accordance with admission requirements of TalTech. Show more...
in accordance with admission requirements of TalTech. Show more...
Study programme aims and objectives
The aim of the curriculum is to create opportunities for acquiring the knowledge and skills necessary for electrical engineers and mechatronic engineers,
to work with electrical and mechatronic systems, components, and devices. Also, for planning and managing their construction, and operating with them, as well as managing their operation, maintenance, and repair, in an economically acceptable, environmentally friendly, and socially acceptable manner. Willingness to work in an interdisciplinary team with engineers, and other specialists in related fields, and to work as an electrical or mechatronics engineer in technology maintenance and development is created. Show more...
to work with electrical and mechatronic systems, components, and devices. Also, for planning and managing their construction, and operating with them, as well as managing their operation, maintenance, and repair, in an economically acceptable, environmentally friendly, and socially acceptable manner. Willingness to work in an interdisciplinary team with engineers, and other specialists in related fields, and to work as an electrical or mechatronics engineer in technology maintenance and development is created. Show more...
Learning outcomes of the study programme
Graduate of the program:
- competences (knowledge, skills and attitudes) meet the professional skill requirements of the first level diploma in electrical engineering,
level 7 or diploma in mechatronic engineering, level 7;
- applies the acquired knowledge and skills at work under the supervision of specialists in the field of electricity and mechatronics and in continuing studies in doctoral studies;
- have acquired the appropriate skills and competences to enter the labor market, and begin professional work independently in the field of electrical energy, electrical engineering, mechatronics or automation;
- has a systematic overview of the field of electrical engineering and mechatronics, and its importance in society and economy, theories and methods applied in the field, current problems and future visions of the field;
- identifies and formulates problems related to the field of electrical engineering and mechatronics, and analyze and evaluate different solutions;
- knows the basics of engineering when working as a designer, project manager or operator of electrical installations or mechatronic systems. Show more...
- competences (knowledge, skills and attitudes) meet the professional skill requirements of the first level diploma in electrical engineering,
level 7 or diploma in mechatronic engineering, level 7;
- applies the acquired knowledge and skills at work under the supervision of specialists in the field of electricity and mechatronics and in continuing studies in doctoral studies;
- have acquired the appropriate skills and competences to enter the labor market, and begin professional work independently in the field of electrical energy, electrical engineering, mechatronics or automation;
- has a systematic overview of the field of electrical engineering and mechatronics, and its importance in society and economy, theories and methods applied in the field, current problems and future visions of the field;
- identifies and formulates problems related to the field of electrical engineering and mechatronics, and analyze and evaluate different solutions;
- knows the basics of engineering when working as a designer, project manager or operator of electrical installations or mechatronic systems. Show more...
Graduation requirements
Completion of the curriculum in the required amount, and the successful defence of the graduation paper in the conformity with the requirements set by the TalTech Senate.
In order to obtain Cum Laude diploma the graduation paper must be defended for the grade "5", and the weighted average grade must be at least 4, 60, where all grades from diploma supplement are taken into account. Show more...
In order to obtain Cum Laude diploma the graduation paper must be defended for the grade "5", and the weighted average grade must be at least 4, 60, where all grades from diploma supplement are taken into account. Show more...
Degrees conferred
Master of Science in Engineering
Study programme version structure :
Module type
total ECTS credits
General studies
6.0
Core studies
48.0
Special studies
36.0
Free choice courses
6.0
Graduation thesis
24.0
Total
120.0
- +MAIN SPECIALITY 1: Mechatronics
- +MODULE: General Studies 6.0 ECTS credits (General studies)AimsThe module aims to provide various general knowledge:
- mathematics, analysis, and problem-solving;
- general skills in the most critical aspects of a company's economic activities and business planning;
- various problems and possible solutions in the economics of energy systems. Show more...Learning outcomesAfter completing this module, the student:
- develops general skills in the field of mathematical methods and analysis,
being able to apply them to solve professional problems in the context of business processes and economic activities;
- masters the basics of the mathematical base, including basic knowledge of algebra, differentiation and integral, and can apply them to business analysis and problem-solving;
- understands the business process and the company's economic activities; performs market and competition analysis based on the selected business opportunity; prepares a business plan with a break-even point calculation; trains teamwork and presentation skills;
- understands and assesses the profitability and risks of investments using mathematical models and financial analysis methods; the student understands the principles of the electricity market and is able to use mathematical methods to analyze and calculate it when solving problems related to economics; understands the structure of the electricity tariff system and is able to analyze and evaluate the impact of tariffs on the economy and consumption using mathematical methods. Show more...Elective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 6.0 ECTS credits - +MODULE: Specialization Grounds 24.0 ECTS credits (Core studies)AimsThe aim of this module is to broaden the students' mind and teach how to use industrial automation systems,
transfer lines, flexible production systems, robotic systems, stationary and mobile robots, mechatronics systems, data communication systems, power electronics, electronics systems and electric drives as well as introduce their implementation possibilities. Show more...Learning outcomesAfter completing this module, the student:
- identifys main operation principles of automation systems and main electric, electronic, electromechanic, etc. components;
- is acquainted with stationary and mobile robots as well as other program-controlled machines, their construction and control (programming) principles;
- is acquainted with industrial control devices (programmable controllers) and data communication systems (grids);
- composes, according to specifications, necessary automation systems, while following set requirements for automation systems design;
- designs and programs automation and electronics systems in both real as well as virtual environments, following the operational principles of industrial automation systems;
- associates one's professional activity with industrial and research practical problems both in personal as well as in teams. Show more...Compulsory courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: 18.0 ECTS creditsElective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 6.0 ECTS credits - +MODULE: Basics of Mechatronics 24.0 ECTS credits (Core studies)AimsThe aim of this module is to:
- develop knowledge in main functioning principles of mechatronics systems, and in design and modeling methodologies;
- advance understanding of microprocessor and microcontroller systems, and their functionalities;
- create systematic knowledge and skills for utilizing main automation system components;
- develop general knowledge in advanced robotics and main skills for utilizing respective technology. Show more...Learning outcomesAfteh completing this module, the student:
- analyzes and designs basic mechatronics systems and develops plans for designing respective systems;
- employs ones knowledge to exploit microprocessors and microcontroller systems in mechatronical systems;
- designs use of basic automation components to automate processes;
- associates one's professional activity with advanced robot technologies and use of respective technologies to design new systems. Show more...Compulsory courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: 12.0 ECTS creditsElective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 12.0 ECTS credits - +MODULE: Electric Transportation 12.0 ECTS credits (Special studies)AimsThe aim of this module is to:
- deepen knowledge of the special topics and development fields of electric transportation;
- provide conditions for the development and use of technologies in the field of electric transportation. Show more...Learning outcomesAfter completing this module, the student:
- applies more profound knowledge of electric transportation in electrical engineering and mechatronics field;
- identify and formulate independent and creative special topics of electric transportation and solve them by applying appropriate methods. Show more...Elective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 12.0 ECTS credits - +MODULE: Mechatronics Applications 18.0 ECTS credits (Special studies)AimsThe aim of this module is to:
- develop skills to express oneself professionally both orally and in writing at practical engineering projects;
- develop skills for planning, developing, teamworking and presenting and defending project results;
- create opportunities to work in an interdisciplinary team to realize a practical project or research;
- advance knowledge and skills to proceed with practical work safety and working environment. Show more...Learning outcomesAfter completing this module, the student:
- plans professional practical activity in an optimal way and exploits ones' knowledge through effective practical activity;
- employs ones' knowledge in practical activity, respective development, teamworking and presenting and defending project results;
- associates ones' professional activity with industrial and research practical problems both in personal as well as in teams. Show more...Elective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 18.0 ECTS credits - +MODULE: Internship 6.0 ECTS credits (Special studies)AimsThe aim of this module is to create conditions and possibilities for better succeeding in labor market,
fixing of specialized knowledge and skills and obtaining of individual work experience. Show more...Learning outcomesAfter completing this module, the student:
- will in hand with his/her colleagues solve problems arising in engineering;
- supervises colleagues, using the obtained theoretical knowledge of engineering and practical skills in specialized job. Show more...Compulsory courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: 6.0 ECTS credits - +MODULE: Free Studies 6.0 ECTS credits (Free choice courses)AimsThe aim of this module is to give the opportunity to improve knowledge and develop skills according to individual goals,
necessities and preferences; also to give the opportunity to be able to navigate and be acquainted both in special and wider philosophical problems and topics; by developing the systematic thinking and ability of analysis and comprehension by the motion from single to common. Show more...Learning outcomesAfter completing this module, the student:
- has broadened his/her overall worldview and through that raised his/her educational level;
- has knowledge according to specific individual goals, interests or skills according to the planned career needs and new technology trends;
- is able to explain and to apply the knowledge obtained during the free choice studies. Show more... - +MODULE: Master's Thesis 24.0 ECTS credits (Graduation thesis)AimsThe aim of Master's Thesis is to:
- give deepened knowledge in one narrower field of the study curriculum,
as well as skills for individual composition of engineering project or research work, taking into account economic feasibility, reliability and sustainability;
- develop experience and skills for compiling a complex and professional engineering project independently and skills to apply different theoretical knowledge for solving practical problems;
- create skills and practice to present the results of the work as a completed set of engineering documentation;
- advance problem-solving knowledge and skills to develop industrial mechatronics, automation and robotics systems;
- advance technical or research problem analysis and solution presentation skills. Show more...Learning outcomesThe student:
- formulates and describes the posed study field problem;
- independently gathers information, assesses it in a critical manner, systemizes it and composes a state of art literature review;
- analyzes the problem and describes, as well as justifies the possible solutions;
- solves the problem using adequate methods and presents the best solution, taking into account economic feasibility, reliability and sustainability;
- demonstrates deepened knowledge about the questions investigated in the thesis;
- formats the thesis according to the set requirements;
- defends the arguments and hypotheses set in the thesis and demonstrates the solutions of the posed problem;
- employs ones' knowledge to plan activities for solving a research or technical problem;
- understands state-of-the-art technological solutions of the information society;
- knows how to present professional projects in the areas of mechatronics, automation and robotics, choose and analyze appropriate approaches and implementation technologies;
- analyses and argues different solutions and presents results. Show more... - +STANDARD STUDY PLAN: Autumn daytime study
- +MAIN SPECIALITY 2: Electrical Engineering
- +MODULE: General Studies 6.0 ECTS credits (General studies)AimsThe module aims to provide various general knowledge:
- mathematics, analysis, and problem-solving;
- general skills in the most critical aspects of a company's economic activities and business planning;
- various problems and possible solutions in the economics of energy systems. Show more...Learning outcomesAfter completing this module, the student:
- develops general skills in the field of mathematical methods and analysis,
being able to apply them to solve professional problems in the context of business processes and economic activities;
- masters the basics of the mathematical base, including basic knowledge of algebra, differentiation and integral, and can apply them to business analysis and problem-solving;
- understands the business process and the company's economic activities; performs market and competition analysis based on the selected business opportunity; prepares a business plan with a break-even point calculation; trains teamwork and presentation skills;
- understands and assesses the profitability and risks of investments using mathematical models and financial analysis methods; the student understands the principles of the electricity market and is able to use mathematical methods to analyze and calculate it when solving problems related to economics; understands the structure of the electricity tariff system and is able to analyze and evaluate the impact of tariffs on the economy and consumption using mathematical methods. Show more...Elective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 6.0 ECTS credits - +MODULE: Electrical Designing 24.0 ECTS credits (Core studies)AimsThe aim of this module is to:
- teach design and modelling of electrical equipment and installations and their main steps,
according to basics of engineering and professional ethics;
- introduce the usage of standards and software packages to solve design and modeling tasks and compose design documentation;
- deepen the knowledge in the most important development directions of electrical installations and consuming devices;
- create opportunity for development and usage of electrical technologies. Show more...Learning outcomesAfter completing this module, the student:
- models and designs electromagnetic devices and has skills to choose new electromagnetic devices according to specification;
- applys with principles of electric lighting and main industrial electrical technologies as well as can choose best technical solutions for implementation;
- evaluates the peculiarities of engineering in the design of machines, devices and installations as well as their maintenance, tuning, installing and exploitation;
- is acquainted with main principles of designing electrical systems, electrical installations and electrical devices and main stages of their design;
- develops computer-aided modelling and simulation procedures of devices and systems;
- uses main standards and regulations for designing, while solving a design problem;
- uses appropriate software, while solving a design problem;
- composes documents using design software, while following rules for design documentation composition. Show more...Compulsory courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: 12.0 ECTS creditsElective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 12.0 ECTS credits - +MODULE: Specialization Grounds 24.0 ECTS credits (Core studies)AimsThe aim of this module is to broaden the students' mind and teach how to use industrial automation systems,
transfer lines, flexible production systems, robotic systems, stationary and mobile robots, mechatronics systems, data communication systems, power electronics, electronics systems and electric drives as well as introduce their implementation possibilities. Show more...Learning outcomesAfter completing this module, the student:
- identifys main operation principles of automation systems and main electric, electronic, electromechanic, etc. components;
- is acquainted with stationary and mobile robots as well as other program-controlled machines, their construction and control (programming) principles;
- is acquainted with industrial control devices (programmable controllers) and data communication systems (grids);
- composes, according to specifications, necessary automation systems, while following set requirements for automation systems design;
- designs and programs automation and electronics systems in both real as well as virtual environments, following the operational principles of industrial automation systems;
- associates one's professional activity with industrial and research practical problems both in personal as well as in teams. Show more...Compulsory courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: 18.0 ECTS creditsElective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 6.0 ECTS credits - +MODULE: Electric Transportation 12.0 ECTS credits (Special studies)AimsThe aim of this module is to:
- deepen knowledge of the special topics and development fields of electric transportation;
- provide conditions for the development and use of technologies in the field of electric transportation. Show more...Learning outcomesAfter completing this module, the student:
- applies more profound knowledge of electric transportation in electrical engineering and mechatronics field;
- identify and formulate independent and creative special topics of electric transportation and solve them by applying appropriate methods. Show more...Elective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 12.0 ECTS credits - +MODULE: Electrical Engineering Applications 18.0 ECTS credits (Special studies)AimsThe aim of this module is to:
- give the opportunity to obtain the required knowledge and skills in the field of electrical engineering applications;
- give skills for implementation of electrical technologies in different situations and environments. Show more...Learning outcomesAfter completing this module, the student:
- orientates in contemporary problems of electrical transportation and its developments,
drive systems, loading systems and electricity supply systems used in electrical transportation;
- measures, determines and segregates electromagnetic phenomena and electrical compatibility problems arising in electrical engineering field, in order to avoid possible operational disturbances;
- orientates in the legislative structure and regulations of electrical engineering, in the context of Estonia and European Union, and follows them while solving problems occurring in the field;
- describes and analyzes fields problems using appropriate field equations and considers the respective boundary conditions.
Show more...Elective courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: at least 18.0 ECTS credits - +MODULE: Internship 6.0 ECTS credits (Special studies)AimsThe aim of this module is to create conditions and possibilities for better succeeding in labor market,
fixing of specialized knowledge and skills and obtaining of individual work experience. Show more...Learning outcomesAfter completing this module, the student:
- will in hand with his/her colleagues solve problems arising in engineering;
- supervises colleagues, using the obtained theoretical knowledge of engineering and practical skills in specialized job. Show more...Compulsory courses:Course titleCourse codeECTS creditsHours per weekLecturesPracticesExercisesE/P-F.Ass./ Gr.Ass.Teaching semesterTotal: 6.0 ECTS credits - +MODULE: Free Studies 6.0 ECTS credits (Free choice courses)AimsThe aim of this module is to give the opportunity to improve knowledge and develop skills according to individual goals,
necessities and preferences; also to give the opportunity to be able to navigate and be acquainted both in special and wider philosophical problems and topics; by developing the systematic thinking and ability of analysis and comprehension by the motion from single to common. Show more...Learning outcomesAfter completing this module, the student:
- has broadened his/her overall worldview and through that raised his/her educational level;
- has knowledge according to specific individual goals, interests or skills according to the planned career needs and new technology trends;
- is able to explain and to apply the knowledge obtained during the free choice studies. Show more... - +MODULE: Master's Thesis 24.0 ECTS credits (Graduation thesis)AimsThe aim of Master's Thesis is to:
- give deepened knowledge in one narrower field of the study curriculum,
as well as skills for individual composition of engineering project or research work, taking into account economic feasibility, reliability and sustainability;
- develop experience and skills for compiling a complex and professional engineering project independently and skills to apply different theoretical knowledge for solving practical problems;
- create skills and practice to present the results of the work as a completed set of engineering documentation;
- advance problem-solving knowledge and skills to develop industrial mechatronics, automation and robotics systems;
- advance technical or research problem analysis and solution presentation skills. Show more...Learning outcomesThe student:
- formulates and describes the posed study field problem;
- independently gathers information, assesses it in a critical manner, systemizes it and composes a state of art literature review;
- analyzes the problem and describes, as well as justifies the possible solutions;
- solves the problem using adequate methods and presents the best solution, taking into account economic feasibility, reliability and sustainability;
- demonstrates deepened knowledge about the questions investigated in the thesis;
- formats the thesis according to the set requirements;
- defends the arguments and hypotheses set in the thesis and demonstrates the solutions of the posed problem;
- employs ones' knowledge to plan activities for solving a research or technical problem;
- understands state-of-the-art technological solutions of the information society;
- knows how to present professional projects in the areas of mechatronics, automation and robotics, choose and analyze appropriate approaches and implementation technologies;
- analyses and argues different solutions and presents results. Show more... - +STANDARD STUDY PLAN: Autumn daytime study