Adopts an amorphous alloy core and oil-immersed cooling structure, with significantly lower no-load loss and no-load current compared to traditional silicon steel transformers. It also features lower operating noise and temperature rise, making it suitable for long-term continuous operation and helping reduce lifecycle energy consumption and maintenance costs of the power distribution system.
Residential areas, commercial buildings, and other long-term operation scenarios, focusing on no-load losses
Industrial Park Distribution
Power distribution stations in industrial parks, emphasizing energy efficiency and low noise
New Energy End-Use
Terminal power distribution in renewable energy stations, focusing on temperature rise and operational stability
Product Description
1
Amorphous Core for Higher Efficiency: The amorphous alloy core significantly reduces no-load loss and no-load current.
2
Outstanding Energy Saving: No-load loss can be reduced by approximately 70%–80%, and no-load current by about 85% compared to traditional silicon steel transformers.
3
Lower Temperature Rise & Longer Lifespan: Reduced losses lead to less heat generation, slower insulation aging, and extended service life.
4
Stable Oil-Immersed Cooling: Oil-immersed cooling improves heat dissipation, ensuring reliable operation under high temperature and heavy load conditions.
5
Low Noise & Environmentally Friendly: Low operating noise meets the requirements of environmentally sensitive and low-noise application scenarios.
6
Better Lifecycle Cost: Lower maintenance requirements and shorter payback period result in reduced long-term operating costs.
Product Features
High Energy Efficiency
The no-load loss of oil-immersed amorphous alloy transformers is reduced by 70%–80% compared to traditional silicon steel transformers, and the no-load current is reduced by about 85%, significantly improving energy efficiency. It is especially suitable for applications requiring long-term stable power supply.
Low Temperature Rise & Long Lifespan
Due to low loss characteristics, the temperature rise during operation is lower, effectively slowing down insulation aging. The service life of oil-immersed amorphous alloy transformers is typically over 20 years, reducing maintenance and replacement costs.
Environmentally Friendly & Low Noise
Made with environmentally friendly materials, the transformer operates with relatively low noise, making it suitable for noise-sensitive environments such as residential areas, commercial zones, and hospitals.
High Safety & Reliability
The oil-immersed cooling method ensures efficient heat dissipation, minimizing the risk of overheating. These transformers can withstand high impact and short-circuit currents, ensuring long-term stable operation.
Compact Design & Space Saving
Compared to traditional silicon steel transformers, the design is more compact, saving installation space. It is ideal for space-limited applications such as high-rise buildings, underground facilities, and old grid upgrades.
Fast Return on Investment
With ultra-low energy consumption and long service life, oil-immersed amorphous alloy transformers significantly reduce operating costs and typically achieve a faster payback period, delivering greater long-term economic benefits.
Main Parameters
Rated Capacity
10 kVA ~ 5000 kVA
Rated Input Voltage
10 kV, 35 kV, 110 kV
Rated Output Voltage
400 V, 230 V
No-Load Loss Reduction
70%~80%
No-Load Current Reduction
Approx. 85%
Implementation Standard
IEC 60076 SeriesApplicable to all types of power transformers
GB/T 1094 SeriesChinese national standards for power transformers
GB/T 18655Special requirements for amorphous alloy transformers
GB 4208Enclosure protection rating standards for transformers
GB/T 2820Limits for transformer noise emissions
Technical Advantages
R&D Cloud Platform
An integrated digital platform combining electromagnetic optimization design, parametric modeling, performance analysis, structural optimization, and automatic drawing generation. It enables transformer design resource sharing and efficient data management, including search, modification, and version control.
Simulation Analysis
Comprehensive multi-physics simulation covering fluid flow, thermal field, electric field, leakage magnetic field, transient processes, and short-circuit forces. Each transformer series is optimized through thermal and flow analysis to accurately control winding temperature rise and hotspot distribution, ensuring reliable and stable performance.
Smart Operation & Maintenance Platform
By collecting key data such as temperature, current, voltage, vibration, and grid harmonics, the system enables real-time power quality analysis and fault alarms. It also supports mobile access for remote monitoring and intelligent O&M management.
