Main parameters

Small volume：The core adopts a single-phase two-limb structure. The insulation distance1Seffectively controlled by using the simulation software, and a trapezoidal top-typetank is used to place the conservator directly above, minimizing the externaldimensions of the transfommer.

Low loss：The core is crafted from high-quality, low-loss grain-oriented cold-rolled silicon steelsheets. It features a high fill-factor cross-section and is assembled by 45° fullymitered step-lap stacking without punching; the windings are wound with self-adhesive transposed conductors, which effectively reduce the no-load and loadlosses.

High overload capacity：The transformer adopts high-quality oxygen-free copper and a low current densitydesign, By using the simulation software to analyze the hot-spot positions of thewindings and optimize the heat dissipation accordingly, it can effectively reduce thehottest-spot temperature of the windings and enhance the overload capacity of theproduct.

High short-circuit withstand capability：Through electromagnetic field simulation-optimized design calculations, weprecisely adjust winding ampere-tumn balance to minimize leakage flux, whileenhancing mechanical strength to prevent winding deformation/displacement duringfrequent short-circuit events.