Expressing electrical quantities as fractions of a defined base unit simplifies analyses of power systems, especially those with multiple voltage levels. This approach, normalizing values to a common base, allows for easier comparison and calculation across different sections of a network. For instance, a transformer’s impedance can be represented as a percentage of its rated voltage and power, making it simpler to evaluate its impact on the overall system behavior regardless of the voltage level it connects.
Normalized calculations offer significant advantages in power system analysis. They simplify calculations involving transformers, making fault analysis and stability studies more manageable. This method also provides a clearer picture of system behavior during abnormal conditions, enabling engineers to design protective schemes and ensure reliable operation. Historically, this method evolved with the complexity of interconnected power grids, becoming an essential tool for handling the intricate calculations required for system planning and operation.