This thesis focuses on the analysis and methods of implementing Wireless M-Bus on an embedded device. The thesis also describes the features and some of the drawbacks in the available protocols used for communications in smart grids (SG) today, and shows the procedure and the results of implementing the Wireless M-Bus protocol in an embedded device. It also analyzes some of the available injection coils used for Power Line Communications (PLC), and then it describes the design procedure of an injection coil according to the CENELEC band A standard and its features.
Annotation in English
This thesis focuses on the analysis and methods of implementing Wireless M-Bus on an embedded device. The thesis also describes the features and some of the drawbacks in the available protocols used for communications in smart grids (SG) today, and shows the procedure and the results of implementing the Wireless M-Bus protocol in an embedded device. It also analyzes some of the available injection coils used for Power Line Communications (PLC), and then it describes the design procedure of an injection coil according to the CENELEC band A standard and its features.
Keywords
Wireless M-Bus, smart grid, PLC, ZigBee, communication
Keywords in English
Wireless M-Bus, smart grid, PLC, ZigBee, communication
Length of the covering note
45
Language
CZ
Annotation
This thesis focuses on the analysis and methods of implementing Wireless M-Bus on an embedded device. The thesis also describes the features and some of the drawbacks in the available protocols used for communications in smart grids (SG) today, and shows the procedure and the results of implementing the Wireless M-Bus protocol in an embedded device. It also analyzes some of the available injection coils used for Power Line Communications (PLC), and then it describes the design procedure of an injection coil according to the CENELEC band A standard and its features.
Annotation in English
This thesis focuses on the analysis and methods of implementing Wireless M-Bus on an embedded device. The thesis also describes the features and some of the drawbacks in the available protocols used for communications in smart grids (SG) today, and shows the procedure and the results of implementing the Wireless M-Bus protocol in an embedded device. It also analyzes some of the available injection coils used for Power Line Communications (PLC), and then it describes the design procedure of an injection coil according to the CENELEC band A standard and its features.
Keywords
Wireless M-Bus, smart grid, PLC, ZigBee, communication
Keywords in English
Wireless M-Bus, smart grid, PLC, ZigBee, communication
Research Plan
\begin{Arab}
Analyze available injection coils.
Analyze smart grid communication wireless protocols.
Design the injection coil compliant with CENELEC band A standard.
Implement the WM-BUS protocol in an embedded device.
Present the results.
\end{Arab}
Research Plan
\begin{Arab}
Analyze available injection coils.
Analyze smart grid communication wireless protocols.
Design the injection coil compliant with CENELEC band A standard.
Implement the WM-BUS protocol in an embedded device.
Present the results.
\end{Arab}
Recommended resources
Oficiální dokumentace protokolu wm-bus: www.wm-bus.org
Hendrik C. Ferreira, Lutz Lampe, John Newbury, Theo G. Swart; Power
Line Communications: Theory and Applications for Narrowband and
Broadband Communications over Power Lines
Recommended resources
Oficiální dokumentace protokolu wm-bus: www.wm-bus.org
Hendrik C. Ferreira, Lutz Lampe, John Newbury, Theo G. Swart; Power
Line Communications: Theory and Applications for Narrowband and
Broadband Communications over Power Lines
