Rectifier Transformer, Combined Transformer, Power Transformer, Distribution Transformer
Frequency Characteristics
Power Frequency
Shape of Core
Ring
Brand
Dahu
Warranty
12months
Frequency
50/60Hz
Transport Package
Wooden Box
Specification
Standard or customization
Trademark
DAHU
Origin
China
HS Code
8504210000
Production Capacity
3000 Sets/Year
Product Description
Types of Distribution Transformer Distribution transformers are tailored to meet varying needs and applications. They can be categorized into several intriguing types including single phase, three phase, underground, pad-mounted, and pole-mounted transformers, each designed to serve specific and unique purposes.
The versatile uses of the distribution transformer span across numerous applications, ensuring efficient energy distribution.
This indispensable transformer performs the essential function of converting high voltage electricity to low voltage electricity, making it ideal for use in our homes and businesses where safety and reliability are paramount. The core function of this transformer is to adeptly step down voltage while providing isolation between two critical windings, namely the primary and secondary, ensuring optimal performance and safety. Designed to excel in remote areas, this transformer effectively distributes power generated from power plants, extending the reach of electrical energy to even the most secluded locales. Typically, this transformer adeptly distributes electrical energy to industries at a controlled voltage of under 33KV, while seamlessly reducing voltage from 440 volts to 220 volts to meet domestic energy requirements with precision.
FAQs Which transformer is widely utilized in an electrical distribution system?
In the realm of electrical distribution, the step-down transformer reigns supreme, efficiently serving the system's needs.
2). What distinguishes a distribution transformer from a power transformer?
Power transformers are integral in high-voltage transmission networks, whereas distribution transformers are crucial for low-voltage distribution networks, each serving distinct roles in the power delivery process.
3). What are the various types of transformers available?
Transformers come in diverse forms including step up, step down, power, distribution, instrument, potential, comprising current, single-phase, 3-phase, and auto transformers, each engineered for specific applications.
4). Why are transformers rated in kVA?
Transformers are uniquely rated in kVA because they inherently do not alter the power factor (PF) of their output power, ensuring consistent performance.
5). What is the conversion formula from kW to kVA?
The formula for conversion is: Apparent power (kVA) = Actual power (kW) / power factor (pf), allowing for accurate power assessments.
In summary, distribution transformers play a pivotal role in efficiently distributing electrical energy to industries at sub-33KV levels and from 440 volts to 220 volts for residential purposes. They are compact, easy to set up, and boast low magnetic losses, albeit operating with moderate efficiency.
What is a Distribution Transformer? Distribution transformers, distinct from power transformers, are designed for seamless circulation. These transformers proficiently step down voltage and power line levels to a predetermined scale, ensuring safety for end users, whether in domestic settings or industrial applications.
While bearing resemblance to power transformers, distribution transformers operate within a voltage range of 33kV to 430V, highlighting their adaptability and essential role in energy distribution.
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