Function: When the circuit breaker disconnects the circuit, quickly extinguish the arc generated between the contacts to prevent the arc from continuing to burn and causing equipment damage or circuit failure
Through precise arc energy control technology, we significantly improve the overall energy efficiency of our customers' equipment. Optimized maintenance cycle design minimizes lifecycle costs.
The 13-plate spiral layout creates a six-level arc energy gradient dissipation zone, improving magnetic blowout efficiency by 42% compared to a linear layout.
✅
The steel-coated insulation paper utilizes a double-layer steel-coated sandwich structure, with an insulation strength of ≥18kV/mm
Applications:
Widely used in wind turbine converter overload protection, semiconductor device power modules, smart grid sectionalizers, and other applications.
Through precise arc energy control technology, we significantly improve the overall energy efficiency of our customers' equipment. Optimized maintenance cycle design minimizes lifecycle costs.
The 13-plate spiral layout creates a six-level arc energy gradient dissipation zone, improving magnetic blowout efficiency by 42% compared to a linear layout.
✅
The steel-coated insulation paper utilizes a double-layer steel-coated sandwich structure, with an insulation strength of ≥18kV/mm
Applications:
Widely used in wind turbine converter overload protection, semiconductor device power modules, smart grid sectionalizers, and other applications.
