In a three-phase circuit, a star (wye) connection is one of the common methods used to connect three-phase loads and generators. It is called a "star" connection because the three winding terminals are connected in a pattern that resembles a star.
In a star connection, each phase of the load or generator is connected to a common point called the "neutral" or "star point." The other ends of the three phases are connected to the corresponding three phases of the power source. This connection forms a triangular or "Y" shape, where the neutral point is at the center, and the three phases are the ends of the branches.
Key characteristics of a star connection:
Neutral Point: As mentioned earlier, the star connection has a neutral point, which can be grounded or left ungrounded depending on the application. When the neutral is grounded, it provides a reference point for voltages and helps stabilize the system.
Voltage Levels: The voltage between any phase (phase-to-phase voltage) is higher than the voltage between any phase and the neutral (phase-to-neutral voltage). In a balanced system, the phase-to-neutral voltage is equal to the phase-to-phase voltage divided by √3.
Line and Phase Currents: In a balanced load, the line current (current flowing through the transmission lines) is √3 times the phase current (current flowing through each load phase).
Commonly used in Power Distribution: Star connections are frequently used in power distribution systems, as it provides a neutral point and makes it easier to supply single-phase loads in addition to three-phase loads.
Compared to the delta connection, another type of three-phase connection, the star connection has some advantages, such as the presence of the neutral point and lower line currents. However, the choice between star and delta connections depends on the specific application and the type of load being connected.