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
Discover the Varieties of Distribution Transformers Tailored to meet diverse applications and requirements, distribution transformers are ingeniously categorized into several types. These include the robust single-phase, versatile three-phase, underground for concealed installations, pad-mounted for ground-level setups, and pole-mounted for elevated distribution.
Versatile Applications of Distribution Transformers
Essential for modern living, these transformers adeptly convert high voltage electricity into low voltage electricity, seamlessly serving the energy needs of both homes and businesses. The primary and pivotal role of this transformer is to efficiently step down the voltage, ensuring seamless isolation between the primary and secondary windings. Strategically designed, this transformer plays a crucial role in delivering power to distant areas, harnessing energy generated from power plants to reach remote locations. Typically, this transformer is pivotal in distributing electrical energy to industries with reduced voltage, operating below 33KV, and providing power at 440volts to 220volts for domestic needs.
Frequently Asked Questions (FAQs) Which Transformer Powers Your Electrical Distribution System?
The integral component used in an electrical distribution system is the step-down transformer.
2). How do Distribution Transformers Differ from Power Transformers?
While power transformers are designed for high voltage transmission networks, distribution transformers are optimized for low voltage distribution networks, ensuring efficient power delivery.
3). Exploring the Varieties of Transformers
A wide array of transformer types includes step-up, step-down, power, distribution, instrument, potential, current, single-phase, 3-phase, and auto transformers, each serving distinct purposes.
4). Why is Transformer Rating Expressed in kVA?
Transformers are rated in kVA because they inherently maintain the power factor (PF) of their output power, ensuring consistent efficiency.
5). What is the Formula for Converting kW to kVA?
The formula for apparent power conversion is: Apparent power (kVA) = Actual power (kW) / power factor (pf).
In conclusion, this insightful overview highlights the distribution transformer's role in efficiently supplying electrical energy to industries with sub-440v voltage and to homes with 220v. Designed for ease of installation, these compact transformers boast minimal magnetic losses and operate with enhanced efficiency.
Understanding the Role of a Distribution Transformer Unlike power transformers, distribution transformers are pivotal in the energy flow, strategically stepping down voltage levels from high-power transmission lines to predefined, safe levels suitable for end-users, whether domestic or industrial.
Although similar in design to power transformers, distribution transformers operate with a diverse voltage range from 33kV to 430V, catering to varying energy needs.
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