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Custom SG(B)11~18 Series Un-Packed H Grade Dry Transformer

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  • SG(B)11~18 Series Un-Packed H Grade Dry Transformer
  • SG(B)11~18 Series Un-Packed H Grade Dry Transformer

SG(B)11~18 Series Un-Packed H Grade Dry Transformer

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  • Description
  • The SGB series of encapsulated H-level dry-type transformers utilize special technology, inspired by the dry-type transformers from Germany (MORA). This innovative technology ensures that the products fully comply with fireproof and waterproof standards while meeting stringent environmental protection requirements.
    These transformers have become the ideal choice for distribution systems and find extensive use in various applications. They are particularly well-suited for environments with unique fire safety and environmental protection demands. You can commonly find them employed in diverse settings like subway systems, ships, mining operations, chemical industries, electric power enterprises, and densely populated buildings.
    The SGB series of H-level dry-type transformers are specially engineered to offer reliable and safe electrical solutions in challenging scenarios where fire safety and environmental considerations are paramount.

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About Us
Nantong Shengyang Electric Co., Ltd.
Nantong Shengyang Electric Co., Ltd.., is a comprehensive enterprise, that combines research, manufacture, sales, and service as a whole; has offices in Beijing, Shanghai, and Hong Kong; and has built up a complete service system. Our production base is located in Shuanglou industrial zone, Haian City, Jiangsu province which lies north of the beautiful and rich Yangtze River delta, east of the Yellow Sea, south of Yangtze, and also close to Nantong, Yangzhou, and Taizhou airports. Xinchang Railway, Ningqi Railway, G15 Shenhai Highway, and Qiyang Highway intersect here. 204 and 308 national ways are passing through our factory. All of the above prove that we have obvious regional advantages that are suitable for water, land, and air transportation.
We are a professional China ODM SG(B)11~18 Series Un-Packed H Grade Dry Transformer manufacturers and SG(B)11~18 Series Un-Packed H Grade Dry Transformer suppliers, Our factory specializes in the manufacture of power transformers, rectifier transformers, Box-type transformer substations, wind power transformers, and its complete sets of products. We occupiers an area of 26500m2, of which the construction area is 13800m2; the fixed investment is RMB 35,800,000; We have many main product equipment and full sets of inspection equipment, such as vacuum drying system, automatic vacuum casting system, corrugated oil tank product line, slitting line, horizontal cutting line and automatic foil winding machine and son on. Our technology is strong, the manufacture process is advanced, and equipment and testing modes are complete.
Certificate Of Honor
  • Enterprise Legal Person Business License, Tax Registration Certificate, Organization Code Certificate (Three Certificates In One)
  • Account Opening Permit
  • A 10kv Transformer With Safe Closing
  • The Invention Relates To A Photovoltaic Power Generation Device
  • The Utility Model Relates To An Automatic Grounding Conductive Device For Transformer Leakage Current
  • The Invention Relates To A Noise Reduction And Cooling Dry Type Transformer
  • The Utility Model Relates To A Transformer Sheet Type Heat Dissipation Device
  • The Utility Model Relates To A Dry Transformer Fan Assembly Structure
  • The Utility Model Relates To A Low Pressure Foil Coil Head Copper Bar Fixed Structure
  • The Utility Model Relates To A Multifunctional Power Cabinet
  • The Utility Model Relates To A Complete Set Of Switchgear Having A Waterproof Structure
  • The Utility Model Relates To A Switch Cabinet For Overheat Protection With Automatic Cooling And Cooling
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SG(B)11~18 Series Un-Packed H Grade Dry Transformer Industry knowledge

How does the design of Un-Packed H Grade Dry Transformers contribute to their efficiency and performance?

The design of Un-Packed H Grade Dry Transformers plays a crucial role in contributing to their efficiency and performance. Here are several design features that impact their overall effectiveness:
Core Material and Construction:
The choice of core material and its construction significantly influences transformer efficiency. Cores made of high-grade magnetic materials with minimal core loss contribute to improved performance.
Winding Configuration:
The design of windings, including the arrangement and connection of coils, affects the transformer's efficiency. Proper winding design minimizes losses and ensures optimal electrical performance.
H Grade Insulation System:
The use of H grade insulation in Un-Packed Dry Transformers enhances their thermal capabilities. H grade insulation is designed to withstand higher temperatures, contributing to better overall performance and reliability.
Cooling System:
Efficient cooling is crucial for maintaining transformer temperature within acceptable limits. The design of cooling systems, such as natural convection or forced air cooling, directly impacts the transformer's ability to dissipate heat and operate efficiently.
Low Loss Materials:
The selection of low-loss materials for insulation and other components reduces energy losses, contributing to higher efficiency. This is particularly important for transformers that operate continuously.
Optimized Magnetic Circuit:
The design of the magnetic circuit influences the transformer's ability to transfer energy with minimal losses. Optimizing the magnetic circuit improves the transformer's efficiency and reduces energy wastage.
Voltage Regulation:
The design features that contribute to voltage regulation, such as the turns ratio and winding design, impact the transformer's ability to maintain stable output voltage under varying load conditions.
Compact Design:
A compact design with optimized winding and core arrangements reduces the length of magnetic paths and minimizes copper losses, contributing to improved efficiency.
High Dielectric Strength:
The insulation system's design ensures high dielectric strength, preventing breakdowns and enhancing the overall reliability of the transformer.
Robust Construction:
A sturdy and robust design ensures that the transformer can withstand mechanical stresses and environmental conditions, contributing to a longer service life and sustained performance.
Compliance with Standards:
Adherence to industry standards and regulations in the design process ensures that the transformer meets specified performance criteria, providing confidence in its efficiency and reliability.
Advanced Materials and Technologies:
Incorporating advanced materials and technologies, such as advanced insulating materials or improved core materials, can contribute to enhanced efficiency and better overall performance.
Considering these design aspects collectively allows Un-Packed H Grade Dry Transformers to deliver optimal efficiency and reliable performance in a variety of applications.