In transformers, vector group notation is used to represent the winding connections and phase shifts between the primary and secondary windings of the transformer. This notation helps engineers and technicians understand the transformer's configuration and ensures that it is connected correctly during installation and maintenance. Different methods of vector group notation are used around the world. Here are some common ones:
IEC Vector Group Notation: The International Electrotechnical Commission (IEC) uses a letter-based vector group notation. The vector group is represented by a combination of letters. The first letter indicates the high-voltage winding configuration, and the second letter represents the low-voltage winding configuration.
Examples:
Yy0: The high-voltage winding is star (Y) connected, and the low-voltage winding is star (Y) connected with no phase shift (0 degrees phase shift).
Dyn11: The high-voltage winding is delta (D) connected, and the low-voltage winding is star (Y) connected with a 330 degrees phase shift between them.
ANSI Vector Group Notation: The American National Standards Institute (ANSI) has its vector group notation system. It also uses a combination of letters to represent the winding connections and phase shifts.
Examples:
Yd1: The high-voltage winding is star (Y) connected, and the low-voltage winding is delta (d) connected with a 30 degrees phase shift.
Dd0: Both the high-voltage and low-voltage windings are delta (D and d) connected with no phase shift.
UK Vector Group Notation: In the United Kingdom, a different vector group notation system is commonly used.
Examples:
Dz0: The high-voltage winding is delta (D) connected, and the low-voltage winding is zigzag (z) connected with no phase shift.
Yzn5: The high-voltage winding is star (Y) connected with a neutral, and the low-voltage winding is zigzag (z) connected with a 150 degrees phase shift.
It's important to note that different regions and organizations may use variations or combinations of these notations, and some local standards may have specific vector group designations.
Properly understanding the vector group notation is essential during transformer installation, connection, and maintenance to ensure the transformer functions correctly and safely. If you encounter a transformer with an unfamiliar vector group notation, always consult the manufacturer's documentation or seek professional assistance to handle it appropriately.