Control of power electronic converters and systems vol 1

What is control of power electronic converters and systems?

Control of Power Electronic Converters and Systems examines the theory behind power electronic converter control, including operation, modeling and control of basic converters. The book explores how to manipulate components of power electronics converters and systems to produce a desired effect by controlling system variables.

Are power electronic converters vulnerable to cyber attacks?

Although remote control capability enables numerous new control functions for grid-tied converters, it also makes them vulnerable to cyber attacks. Hence, this chapter aims to shed light on portions of the power electronic converter control systems, which are vulnerable to cyber attacks.

Why is control effectiveness important in power electronics?

Advances in power electronics enable new applications to emerge and performance improvement in existing applications. These advances rely on control effectiveness, making it essential to apply appropriate control schemes to the converter and system to obtain the desired performance.

What is synchronized and interleaving control of parallel-connected voltage source converters?

The synchronized and interleaving control of the parallel-connected voltage source converters (VSCs) is described in this chapter. The component mismatch, application of different voltage vectors, and dead-time effects may lead to the circulating current between the parallel-connected VSCs.

What are grid-connected power electronic converters?

Finally, conclusions are drawn. Grid-connected power electronic converters are crucial technologies that allow the electrical grid to interface renewable energy sources, energy storage systems, electrical vehicles, microgrids, and high-voltage DC transmission lines.

What is a three-phase voltage source converter?

Furthermore, the control structure and working principle of these advanced controllers are expounded in detail. In order to give a more intuitive interpretation of these different control methods, the most widely used three-phase voltage source converter is given as an application to control the grid current or power.