Lectures:
1.Comprehensive and systematic approach to the design and execution of electromechanical machinery and equipment. Basic concepts.
2. Design CAD systems, continuity and connection of mechanical and electronic design modules, the use and integration with technology development, production planning and manufacturing.
3. Materials for electromechanical structures. Selected context and constraints.
4. Production technology. Special technology, microtechnology. The context of applied technology for efficient development, production planning and production and production quality.
5. Parts of machines. Context influences exerted between structural elements and mechanical components.
6. Selected Chapters from mechanics, kinematics and dynamics of electromechanical components and systems.
7. Aspects of system design of mechanisms and machine agregations. Standardization and unification. Energy ratios. Structural, type and geometrical optimization.
8. Flexibility, strength and stability of electromechanical structures.
9. Measurement and diagnostics of machines. Durability, reliability and safety of electromechanical components and systems. Selected influences.
10. Interconnection mechanical design of electronic subsystems. Selected influences.
11. Influence of Environment on electromechanical designs. The temperature, pressure, humidity, corrosion.
12. Mechanical environmental influences on electromechanical designs. Overload, vibration, mechanical stress, abrasion.
13. An electrical effects on electromechanical design. Voltage interference.
14. Ecology. Noise. Emissions. Waste. Ergonomics. Selected mutual respect.
Laboratories:
Topic 1: Organization laboratory exercises, individual tasks, discover related topics measurements, the organization of practical exercises, laboratory measurements and field trips. Excursion 1.2.
Topic2-4: Measuring the effects of temperature on the electromechanical system. Measuring the effects of moisture on the electromechanical system. Measuring the effects of pollution and corrosion of the electromechanical system.
Topic: TEST No.1., Test evaluation. Alternative term measurements of topics 2 to 4 Excursion 3.4.
Topic6-8: Measuring the effects of stress on the electromechanical system. Measuring the effects of vibration on electromechanical system. Measuring the effects of congestion on the electromechanical system.
Topic: Excursion 3 Reserve for measurement topics 6-8
Topic10: TEST No.2., Test evaluation.
Topic11-13: Measuring the Impact coverage electromechanical system. Measuring the effects of aging electromechanical system. Measuring the effects of handling and cyclic stress on the electromechanical system.
Topic14: Excursion 4.5 Reserve for measurement topics 11-13
Topic15: Evaluation of the semester, term replacement test, the final submission of the protocols of measurement. Plan organization and exam dates.
1.Comprehensive and systematic approach to the design and execution of electromechanical machinery and equipment. Basic concepts.
2. Design CAD systems, continuity and connection of mechanical and electronic design modules, the use and integration with technology development, production planning and manufacturing.
3. Materials for electromechanical structures. Selected context and constraints.
4. Production technology. Special technology, microtechnology. The context of applied technology for efficient development, production planning and production and production quality.
5. Parts of machines. Context influences exerted between structural elements and mechanical components.
6. Selected Chapters from mechanics, kinematics and dynamics of electromechanical components and systems.
7. Aspects of system design of mechanisms and machine agregations. Standardization and unification. Energy ratios. Structural, type and geometrical optimization.
8. Flexibility, strength and stability of electromechanical structures.
9. Measurement and diagnostics of machines. Durability, reliability and safety of electromechanical components and systems. Selected influences.
10. Interconnection mechanical design of electronic subsystems. Selected influences.
11. Influence of Environment on electromechanical designs. The temperature, pressure, humidity, corrosion.
12. Mechanical environmental influences on electromechanical designs. Overload, vibration, mechanical stress, abrasion.
13. An electrical effects on electromechanical design. Voltage interference.
14. Ecology. Noise. Emissions. Waste. Ergonomics. Selected mutual respect.
Laboratories:
Topic 1: Organization laboratory exercises, individual tasks, discover related topics measurements, the organization of practical exercises, laboratory measurements and field trips. Excursion 1.2.
Topic2-4: Measuring the effects of temperature on the electromechanical system. Measuring the effects of moisture on the electromechanical system. Measuring the effects of pollution and corrosion of the electromechanical system.
Topic: TEST No.1., Test evaluation. Alternative term measurements of topics 2 to 4 Excursion 3.4.
Topic6-8: Measuring the effects of stress on the electromechanical system. Measuring the effects of vibration on electromechanical system. Measuring the effects of congestion on the electromechanical system.
Topic: Excursion 3 Reserve for measurement topics 6-8
Topic10: TEST No.2., Test evaluation.
Topic11-13: Measuring the Impact coverage electromechanical system. Measuring the effects of aging electromechanical system. Measuring the effects of handling and cyclic stress on the electromechanical system.
Topic14: Excursion 4.5 Reserve for measurement topics 11-13
Topic15: Evaluation of the semester, term replacement test, the final submission of the protocols of measurement. Plan organization and exam dates.