The tap changer in a transformer serves the important function of adjusting the transformer's turns ratio and, consequently, the voltage ratio between its primary and secondary windings. This is done to regulate the output voltage, compensate for voltage fluctuations, and match the transformer to the varying voltage conditions of the power system.
The primary purpose of a transformer is to transfer electrical energy between two or more circuits through electromagnetic induction. The voltage level on the secondary side of the transformer is determined by the ratio of the number of turns in the primary winding to the number of turns in the secondary winding. This is known as the turns ratio. For example, if there are twice as many turns in the primary winding as in the secondary winding, the transformer will step down the voltage by a factor of two.
However, in practical applications, the voltage levels in the power grid can vary due to fluctuations in the load, generation, or transmission conditions. In such cases, a fixed turns ratio in the transformer might not provide the desired output voltage on the secondary side.
The tap changer, typically located on the high-voltage winding of the transformer, allows for the adjustment of the turns ratio by changing the point at which the electrical connections are made to the winding. By doing so, the voltage level on the secondary side can be regulated within specific limits, either by increasing or decreasing the number of turns in the winding.
There are two main types of tap changers:
On-Load Tap Changer (OLTC): This type of tap changer allows for adjusting the turns ratio while the transformer is under load and connected to the power system. It usually employs mechanical or electronic mechanisms to achieve smooth and step-less adjustments. OLTCs are commonly used in large power transformers and other critical applications.
Off-Circuit Tap Changer (OCTC): Unlike the OLTC, an OCTC requires the transformer to be taken offline (de-energized) to make adjustments to the turns ratio. This type of tap changer is more common in smaller transformers and applications where power interruptions can be tolerated during tap changing.
In summary, the tap changer in a transformer is essential for regulating the output voltage and ensuring a stable and efficient operation under varying voltage conditions in the power grid.