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
The millisecond-level electromagnetic field response system captures plasma characteristics in real time at the initial stage of arc formation. This predictive protection mechanism transforms traditional passive arc extinguishing into intelligent active defense.
Two plates form 11 gradient magnetic field units (reducing arc energy by 42% compared to traditional structures)
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Red insulating paper produces a gas at a rate of 3.5 ml/μs (with H2/CO mixture)
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Nickel plating enables dual-path heat dissipation from plate to support (reducing ΔT by 38°C)
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The four-support structure passes EN 60068-2-6 vibration testing (10-150Hz)
Applications:
Suitable for modular UPS in data centers, string inverters for renewable energy generation, digital circuit breakers in smart buildings, and rail transit traction converters.
The millisecond-level electromagnetic field response system captures plasma characteristics in real time at the initial stage of arc formation. This predictive protection mechanism transforms traditional passive arc extinguishing into intelligent active defense.
Two plates form 11 gradient magnetic field units (reducing arc energy by 42% compared to traditional structures)
✅
Red insulating paper produces a gas at a rate of 3.5 ml/μs (with H2/CO mixture)
✅
Nickel plating enables dual-path heat dissipation from plate to support (reducing ΔT by 38°C)
✅
The four-support structure passes EN 60068-2-6 vibration testing (10-150Hz)
Applications:
Suitable for modular UPS in data centers, string inverters for renewable energy generation, digital circuit breakers in smart buildings, and rail transit traction converters.
