Keeya, a distinguished supplier based in China, specializes in providing top-quality High Voltage Transformer. These transformers are meticulously engineered for precise voltage measurement and relay protection in power systems.
Keeya's expertise lies in delivering products that meet international standards and cater to specific operational needs. With a commitment to excellence, Keeya stands as a trusted partner for businesses seeking dependable electrical equipment. Our Single Phase Voltage Transformers are a testament to their dedication to quality and innovation in the field.
The voltage transformer is a compact, fully enclosed epoxy resin casting indoor unit designed for voltage and electric energy measurement, as well as relay protection in power systems operating at a rated frequency of 50Hz and a rated voltage of 24kV. Its small size and lightweight design make it space-efficient and easy to install. The overall structure is both compact and user-friendly.
This specific type of voltage transformer boasts a completely enclosed configuration, utilizing high-quality cold-rolled silicon steel for the iron core. The primary and secondary windings are expertly wound around this core. Additionally, the product exhibits excellent resistance to both pollution and moisture. Its versatile installation options allow for placement in any position or direction. The secondary outlet terminal features a terminal box with three different outlet directions, facilitating convenient wiring and enabling anti-theft measures to be implemented effectively.
● Rated Voltage and Frequency: The transformer should operate within the specified range of rated voltage and frequency. Any deviation from these parameters can lead to improper functioning and potential damage.
● Temperature: The ambient temperature should be within the specified range. High temperatures can lead to overheating and reduced insulation life, while low temperatures can affect the transformer's ability to function efficiently.
● Altitude: High altitude locations may have reduced air density, which can impact cooling. Transformers should be designed to operate at specified altitudes to ensure optimal performance.
● Humidity: The transformer should be protected from excessive moisture or humidity, as this can lead to insulation degradation and reduced dielectric strength.
● Environmental Conditions: Transformers should be designed to withstand specific environmental conditions, such as corrosive atmospheres, salt spray, or other pollutants that can impact the insulation and overall performance.
● Overload Capacity: The transformer's overload capacity should be taken into account. Operating beyond the specified limits can lead to overheating and potential damage.
● Short-Circuit Current: The transformer should be able to withstand short-circuit currents without excessive mechanical or thermal stress.
● Voltage Fluctuations: The transformer should be able to handle voltage fluctuations within the specified range without compromising its performance or safety.
● Correct Phasing: The transformer should be connected with the correct phasing to ensure proper voltage transformation.
● Stability: The transformer should be stable under normal operating conditions and should not experience excessive vibration or movement.
● Cooling Mechanism: The cooling mechanism, whether natural or forced, should be designed to effectively dissipate heat generated during operation.
● Ventilation: Adequate ventilation should be provided to prevent the accumulation of hot air around the transformer.
● Load Variations: The transformer should be able to handle variations in load without significant impact on its performance.
● Compliance with Standards: The transformer should meet relevant international and national standards for high voltage equipment.
Adhering to these operating conditions ensures the safe and reliable performance of a High Voltage Transformer in various electrical applications. It's important to consult the manufacturer's specifications and guidelines for specific transformer models.
