In the context of Current Transformers (CTs) and Voltage Transformers (VTs), the "knee point voltage" refers to a critical point in the saturation characteristic curve of the transformer. This characteristic curve represents the relationship between the input current (or voltage) and the output current (or voltage) of the transformer.
For Current Transformers (CTs):
CTs are used to step down high currents from power lines to a level suitable for measurement or protection purposes. The saturation characteristic of a CT is important because, as the current flowing through the CT increases, the magnetic core of the transformer can become saturated. Saturation causes the output current not to accurately follow the input current, leading to measurement inaccuracies or potentially affecting the performance of protective relays.
The knee point voltage of a CT is the voltage level at which the core starts to enter the saturation region. Beyond this voltage level, a further increase in voltage doesn't lead to a proportional increase in the magnetic flux, and the CT's output current becomes distorted and no longer accurately represents the primary current. Therefore, the knee point voltage is a crucial parameter to consider when designing and selecting CTs to ensure accurate current measurement and reliable protection operation.
For Voltage Transformers (VTs):
VTs, also known as potential transformers, are used to step down high voltages to a level suitable for measurement or protection purposes. Similar to CTs, VTs also have a saturation characteristic due to the magnetic properties of their cores. The knee point voltage of a VT is the voltage level beyond which the core enters the saturation region, leading to distortion in the output voltage.
In both cases, accurate measurement and protection are crucial in power systems, and understanding the knee point voltage helps in selecting appropriate transformers, determining their operational limits, and maintaining measurement accuracy and system reliability.
To summarize, the knee point voltage in CTs and VTs is a critical value that defines the onset of core saturation, beyond which the relationship between input and output becomes nonlinear, potentially leading to inaccuracies in measurement and protection functions in electrical systems.