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 Based on the unique applications or specific requirements, distribution transformers are expertly categorized into distinct types such as single-phase, three-phase, underground, pad-mounted, and pole-mounted transformers.
The versatile uses of the distribution transformer include the following key applications.
This transformer ingeniously converts high voltage electricity to low voltage electricity, making it ideal for use in both residential homes and commercial businesses. The primary function of this transformer is to reduce (step down) the voltage while providing essential isolation between the primary and secondary windings. This transformer is pivotal in distributing power to remote areas, efficiently delivering electricity generated from power plants. Typically, this transformer is responsible for distributing electrical energy to industries, operating at reduced voltages below 33KV, and adjusting voltage from 440 volts to 220 volts for domestic applications.
FAQs Which transformer is utilized in an electrical distribution system?
A step-down transformer is the reliable choice used in electrical distribution systems.
2). What distinguishes a distribution transformer from a power transformer?
A power transformer operates in high voltage transmission networks, whereas a distribution transformer caters to low voltage distribution networks, ensuring efficiency and safety.
3). What are the diverse types of transformers available?
Transformers come in a variety of types including step-up, step-down, power, distribution, instrument, potential, current, single-phase, three-phase, auto transformers, and more.
4). Why are transformers rated in kVA?
Transformers are rated in kVA because they do not alter the power factor (PF) of their output power.
5). What is the formula to convert kW to kVA?
The formula to calculate apparent power (kVA) is: Apparent power (kVA) = Actual power (kW) / power factor (PF).
In conclusion, this overview highlights the essential role of the distribution transformer. It effectively distributes electrical energy to industries with voltages less than 440V to 220V for domestic needs. These transformers are small, efficient, easy to install, and feature low magnetic losses.
What is a Distribution Transformer? Distribution transformers, unlike power transformers, are designed for the crucial task of distribution. They efficiently step down the voltage and current level of a power transmission line to a specific predefined scale, ensuring safety for end-users, whether for domestic or industrial use.
While similar in appearance to a power transformer, a distribution transformer operates within a voltage range of 33kV to 430V, tailored to meet various needs.
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