Potential Transformers (PTs) and Current Transformers (CTs) are two types of instrument transformers used in electrical systems to measure voltage and current, respectively, while providing isolation and safety to personnel and equipment.
Potential Transformers (PTs):
A Potential Transformer, also known as a Voltage Transformer, is used to step down high voltage levels to a lower, more manageable level for measurement and protection devices. PTs work based on the principle of electromagnetic induction.
Working Principle:
A high-voltage primary winding is connected in parallel across the high-voltage line, carrying the voltage to be measured.
A low-voltage secondary winding, with a much smaller number of turns than the primary winding, is connected to the measuring instruments and protection devices.
The voltage across the secondary winding is proportional to the voltage across the primary winding, according to the turns ratio (Np/Ns), where Np is the number of turns in the primary winding, and Ns is the number of turns in the secondary winding.
Current Transformers (CTs):
A Current Transformer is used to step down high current levels to a safe and measurable level for use in instruments, relays, and protection devices. CTs also operate based on the principle of electromagnetic induction.
Working Principle:
A high-current primary winding is connected in series with the current-carrying conductor (e.g., a power line) whose current is to be measured.
A low-current secondary winding is connected to the measuring instruments, relays, or protection devices.
The current flowing through the secondary winding is proportional to the current flowing through the primary winding, according to the turns ratio (Np/Ns).
Both PTs and CTs have a few important characteristics:
Isolation: They provide electrical isolation between the high-voltage or high-current primary circuit and the low-voltage or low-current secondary circuit, ensuring safety for personnel and equipment.
Accuracy: PTs and CTs are designed to accurately represent the voltage and current levels in the primary circuit. Their accuracy is crucial for correct measurement and protection operations.
Burden: CTs and PTs have a burden, which is the impedance presented to the secondary winding. It's important to ensure the burden does not affect the accuracy of the measurements.
Saturation: Both types of transformers can saturate if subjected to excessive voltage or current levels, which can lead to inaccuracies in measurement and protection functions.
PTs and CTs play a vital role in power systems, enabling accurate measurement, control, and protection of electrical equipment and networks. They are essential components for various applications, including metering, relaying, and monitoring in substations and power generation facilities.