1. Introduction into the building management.
2. Sensors
3. Actuators
4. Control and regulation
5. Control of cooling, heating and indoor air quality, microclimate management
6. Generation, transmission and storage of electrical energy. Renewables
7. Network resources for communication
8. Transmission and distribution of data in building control systems: KNX / LonWorks
9. Telecommunication services
10. Building automation systems
11. Centralized and decentralized control and monitoring technology
12. The human – building interface, visualization of building management. Remote management and monitoring of buildings.
13. Smart green buildings, transport infrastructure, Electromobility
Excercises:
1.Introduction to the laboratory, Safety in the laboratory, fire and alarm directive.
2.Sensors, demonstration of time constant of the sensor, the temperature dependence of the sensor. Demonstration measurements with a thermocamera.
3. Actuators. Demonstration of the time constant of the actuator, electric heating.
4. Controllers. Example of calculating a simple controller. Design of a regulation circuit.
5. Temperature control. Interior temperature controll example.
6. Tour to photovoltaic power plants at VSB-TU Ostrava.
7. Ethernet - demonstration of technology, TCP / IP communication example
8. KNX - ETS 4 - Introduction to System Design
9. KNX - Basic functions
10. KNX - Basic Functions - continued
11. KNX - environmental control, presence detectors, control loop
12. KNX - IP interface - visualization
13. KNX - Independent Project - Final Test
2. Sensors
3. Actuators
4. Control and regulation
5. Control of cooling, heating and indoor air quality, microclimate management
6. Generation, transmission and storage of electrical energy. Renewables
7. Network resources for communication
8. Transmission and distribution of data in building control systems: KNX / LonWorks
9. Telecommunication services
10. Building automation systems
11. Centralized and decentralized control and monitoring technology
12. The human – building interface, visualization of building management. Remote management and monitoring of buildings.
13. Smart green buildings, transport infrastructure, Electromobility
Excercises:
1.Introduction to the laboratory, Safety in the laboratory, fire and alarm directive.
2.Sensors, demonstration of time constant of the sensor, the temperature dependence of the sensor. Demonstration measurements with a thermocamera.
3. Actuators. Demonstration of the time constant of the actuator, electric heating.
4. Controllers. Example of calculating a simple controller. Design of a regulation circuit.
5. Temperature control. Interior temperature controll example.
6. Tour to photovoltaic power plants at VSB-TU Ostrava.
7. Ethernet - demonstration of technology, TCP / IP communication example
8. KNX - ETS 4 - Introduction to System Design
9. KNX - Basic functions
10. KNX - Basic Functions - continued
11. KNX - environmental control, presence detectors, control loop
12. KNX - IP interface - visualization
13. KNX - Independent Project - Final Test