Oil-immersed Transformer

1. Reduced Energy Loss: The core material is processed using advanced vertical cutting, horizontal cutting, and stacking techniques, and features a stepped-lap core structure with a 3-stage joint design. 2. High Short-Circuit Strength: Designed to withstand lightning strikes and possess high short-circuit tolerance capabilities. 3. Lightning and Surge Protection: Manufactured using advanced assembly lines and processes, and equipped with high-quality, precision-engineered accessories.

1、Safe, Combustion Resistant/Fire Retardant, Without Pollution, Capable of Direct Installation on Load Center； 2、Maintenance Free, Convenient to Install, Low in Composite Operation Cost; 3、 Low Loss, Low Local Discharges, Low Noise, Strong Heat Radiation, Capable of Runing under 150% Nominal Load with the aid of Forced Air Cooling

1. Widely applied in key scenarios such as large substations, industrial enterprise power distribution, new energy grid connection (wind power/photovoltaic power), and urban power grid upgrading. 2. Core design philosophy of High Overload Capacity, Long Service Life, High Reliability, High Safety, and Leak-Free. 3. Ensure efficient energy transmission while achieving long-term stable operation and optimal life-cycle cost.

1、35kV and below high-temperature resistant oil-immersed transformer, with low loss, high-temperature resistance, leak-free and short-circuit resistance, suitable for complex power scenarios. 2、High-quality core components + professional craftsmanship, stable, energy-saving, and durable. 3、Wide application range, complete after-sales support, providing a safe and efficient power guarantee.

High short-circuit strength: Balanced winding structure, strong anti-short-circuit capability, and high operational stability. Fully sealed structure: Corrugated tank, oil-isolated from air, slow insulation aging, maintenance-free for long-term use. No-load tap-changing: Stable voltage regulation, easy operation, reliable power quality. Conforms to GB 20052-2020 energy efficiency standards and international IEC standards.

1.Low Noise,No Environmental Contamination 2.Low Temperature Rise,High Overload Capacity 3.Strong Sudden Short-Circuit Resistance,Safe and Reliable Running 4.Low Losses,Evident EnergySaving Effects 5.High Insulation Level,Low Local Discharges

1.Low Noise,No Environmental Contamination 2.Low Temperature Rise,High Overload Capacity 3.Strong Sudden Short-Circuit Resistance,Safe and Reliable Running 4.Low Losses,Evident EnergySaving Effects 5.High Insulation Level,Low Local Discharges

1.Reasonable structure 2.Low loss and light weight 3.Low noise 4.High overload capacity 5.Cost saving

1.Low Noise,No Environmental Contamination 2.Low Temperature Rise,High Overload Capacity 3.Strong Sudden Short-Circuit Resistance,Safe and Reliable Running 4.Low Losses,Evident EnergySaving Effects 5.High Insulation Level,Low Local Discharges

1.Safe,Combustion Resistant/Fire Retardant,Without Pollution,Capable of Direct Installation on Load Center 2.Maintenance Free,Convenient to Install,Low in Composite Operation Cost 3.Excellent inHumidityResistance,Capable of Runing Normall under 100%Humidity,Capable of Being Putinto Operation atterdleness without 4.Pre-drying Treatment 5.LowLoss,LowLocal Discharges,Low Noise,Strong Heat Radiation,Capable ofRunning under 150% Nominal Load with the aid of Forced Air Cooling.