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Scenario: Intense electromagnetic interference generated by high-power charging and discharging within the storage station can be misinterpreted as a "level signal" by sensors with weak immunity. •
Consequence: The system mistakenly believes the coolant level is abnormal, triggering false alarms or even shutdowns, affecting plant operation and causing power generation loss.
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Scenario: The sensor's performance drifts and sensitivity decreases due to long-term exposure to high temperatures and thermal cycling. When coolant leakage actually occurs, the sensor fails to trigger the signal accurately and promptly. •
Consequence: This is the most dangerous situation. Batteries continue to generate heat while cooling fails, easily leading to thermal runaway, fire, or even explosion.
1.
Targeting False Alarms: Patented anti-interference technology ensures activation only upon real level changes, making it "immune" to EMI. 2.
Targeting Failure to Alarm: High-precision chips and robust algorithms guarantee accurate signal output without drift throughout the sensor's lifecycle, ensuring it "alarms when it must."
