Why Choose SCB13 Dry Type Transformers?

The SCB13 dry type Transformer has become the go-to choice for 10kV/0.4kV power distribution systems, particularly in residential power supply projects. But what makes it so special?

Higher model numbers indicate better performance and efficiency, but also higher costs due to improved materials and craftsmanship. The SCB13 strikes this balance perfectly, making it an ideal choice for most applications.

The SCB13 dry-type transformer, with a capacity range of 30-2500kVA, is widely used in 10kV distribution systems. It can be installed independently in power distribution rooms or integrated into compact substations. Featuring flame-retardant epoxy resin casting, this maintenance-free solution is extensively applied in new factories, residential buildings, and various special installations.

Beyond these advantages, energy efficiency with reduced losses represents another critical selection criterion for users.

The SCB13 demonstrates significant improvements over its predecessor SCB10 models through:

Advanced material technology:

Thinner laser-treated silicon steel sheets minimizing eddy current losses

Optimized grain structure reducing hysteresis losses

Innovative manufacturing processes:

5/7-step progressive core lamination technique

Performance enhancements include:

• 30% reduction in no-load losses

• Over 10% decrease in load losses

These technological advancements establish the SCB13 as a superior energy-efficient solution in dry-type transformer applications.

The SCB13 dry-type transformer features foil-wound low-voltage windings for superior ampere-turn balance and enhanced short-circuit resistance, while its high-voltage windings utilize tightly wound electromagnetic coils with non-woven fabric and resin film composite insulation, manufactured through precision processes including heat drying, vacuum resin casting, and curing. Leading transformer manufacturers can further optimize these production techniques to deliver additional value to customers through improved performance and reliability.