The laboratory focuses on supporting teaching in the field of intelligent electrical installation systems from both a hardware and software perspective. It is possible to examine the impact of different architectures of intelligent electrical installation systems on their efficiency, or on the complexity of the application, system settings, and their use.
Subjects and learning outcomes:
- Engineering studies Subject: Automated electrical installation systems (Basic knowledge and skills in the field of programming automated electrical installation systems. Competence in the use of ETS (Engineering Tool Software) and iDM3 (iNELS3 Designer & Manager) software tools)
- Doctoral studies: Subject Scientific Activity 1-5: Ability to independently conceive, construct, implement, and modify a substantial part of research with scientific integrity and contribute to the expansion of the boundaries of scientific knowledge through the implementation of an extensive set of works, some of which are worthy of peer-reviewed publication. Achieving original scientific results that are acceptable at the international level. Based on the implementation of scientific research, the graduate is considered an expert in their field.
In the laboratory, it is possible to directly modify the existing demonstration intelligent electrical installation system by adding or removing its components, e.g., terminal devices, control, central, or control units. It is also possible to change the configuration of the built system and thus model the behavior of a real application of such a system. The system is configured and controlled via the EIB bus using the appropriate protocol and PC technology.
Laboratory equipment:
- PC for system configuration with internet connection.
- EIB bus.
- Siemens Touch Manager control panel.
- Controlled terminal devices: table lamp, fluorescent lamp with DALI ballast.
- Controlled blinds.
- Temperature, lighting, and smoke sensors.
- LOGO.
- Programmable switching elements.