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  • ZGS20-Z·G Combined Transformer For Photovoltaic Power Generation
  • ZGS20-Z·G Combined Transformer For Photovoltaic Power Generation

ZGS20-Z·G Combined Transformer For Photovoltaic Power Generation

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  • Description
  • Photovoltaic power is a rapidly growing clean and renewable energy source, both domestically and internationally. To meet the increasing demand for photovoltaic power generation, our company has independently designed the ZGS20-Z: G Series Combined Transformer for Photovoltaic Power Generation. This design is based on years of exploration, summarization, and the absorption of advanced technologies from around the world, taking into account the unique requirements of transformers for photovoltaic power generation.
    In this product, the transformer, load switches, and high-voltage fuses are installed within the transformer cabinet. The transformer uses the insulating liquid as both the insulation and the medium for heat dissipation. The entire product is built with a fully sealed structure. The main body of the transformer is constructed from medium and heavy steel plates, while the casing is made of galvanized or stainless-steel plates. These plates undergo acid cleaning, and phosphating treatment, and are coated with primer, intermediate, and finish paint to ensure exceptional corrosion resistance, leak resistance, and UV resistance on the surface, surpassing products with regular paint finishes. This combined transformer boasts numerous advantages, including its compact size, lightweight design, and ease of installation.

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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 Combined Photovoltaic Transformers manufacturers and ZGS20-Z·G Combined Transformer For Photovoltaic Power Generation 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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ZGS20-Z·G Combined Transformer For Photovoltaic Power Generation Industry knowledge
Combined Transformer for Photovoltaic Power Generation:What Sets It Apart in Renewable Energy Systems?

A Combined Transformer for Photovoltaic (PV) Power Generation sets itself apart in renewable energy systems through several key features and functionalities tailored to optimize the performance and integration of solar power into the electrical grid. Here are some aspects that distinguish it:
Multi-Functionality:
A combined transformer may integrate multiple functions into a single device. This could include voltage transformation, power conditioning, and features like grid support functions, making it a versatile component in a PV power system.
Efficiency Enhancement:
Specialized design considerations aim to improve the overall efficiency of the power conversion process. This includes minimizing energy losses during the transformation of DC (direct current) generated by the solar panels into AC (alternating current) suitable for the grid.
Smart Grid Compatibility:
Integration with smart grid technologies allows for enhanced communication and control capabilities. This enables real-time monitoring, remote management, and coordination with other grid-connected devices to optimize energy flow and contribute to grid stability.
Voltage Regulation and Power Quality:
The transformer is equipped with advanced voltage regulation mechanisms to ensure a stable and high-quality output voltage. This is particularly important for grid compatibility and the prevention of voltage fluctuations.
Grid Support Functions:
Beyond basic power transformation, the transformer may offer grid support functions such as reactive power compensation, voltage control, and frequency regulation. These functions contribute to the stability and reliability of the electricity grid.
Integration of Energy Storage:
Some combined transformers may be designed to work seamlessly with energy storage systems. This allows for the storage of excess energy during peak production periods and its release during times of low sunlight or high demand, contributing to grid stability.
Adaptability to Variable Conditions:
The transformer may be designed to operate efficiently under varying environmental conditions. This includes temperature variations, ensuring that it can perform optimally in different climates and locations.
Scalability and Modularity:

The design may allow for scalability, accommodating PV systems of different sizes. Modularity can simplify maintenance and upgrades, allowing for the replacement of specific components without requiring a complete overhaul.
Reliability and Durability:
Considering the harsh outdoor conditions in which PV systems operate, a combined transformer is designed for durability and reliability. This includes protection against environmental factors such as moisture, dust, and extreme temperatures.
Safety Features:
Incorporation of safety features ensures the protection of the transformer and the entire PV system. This includes overcurrent protection, short-circuit protection, and other safety mechanisms.
In summary, a Combined Transformer for Photovoltaic Power Generation distinguishes itself in renewable energy systems by offering a comprehensive solution that goes beyond basic power transformation. Its advanced features contribute to increased efficiency, grid stability, and the seamless integration of solar power into the broader energy infrastructure.