•
Limited Actuation Life: The internal reed switch has a physical lifespan, typically failing after several hundred thousand cycles due to contact fatigue. •
Friction and Jamming: Repeated movement of the float along the stem can lead to sticking or complete jamming from scale, debris, or wear over time. •
Magnet Demagnetization Risk: High temperatures can weaken the permanent magnet in the float, causing erratic switch signals. This mechanical wear is irreversible, meaning the failure rate of float switches increases significantly with time and usage frequency.
•
No Moving Parts: The sensor contains only chips, capacitive sensing circuits, and sealed materials. No moving parts mean no mechanical wear or jamming. •
Long-Life Electronics: Core electronic components are rigorously selected and tested, offering a Mean Time Between Failures (MTBF) far exceeding mechanical parts, ensuring stable operation for tens of thousands of hours. •
Strong Noise Immunity: Built-in intelligent algorithms effectively resist interference from temperature fluctuations and power supply noise, ensuring stable output signals.
•
Lower Failure Rate: Eliminates root causes of failures like dry running or overflow due to sensor jamming, drastically reducing unit return rates. •
Reduced After-Sales Expenditure: Fewer failures mean less repair labor, part replacements, and logistics costs. •
Enhanced Brand Reputation: Stable performance leads to better user experience, strengthening brand loyalty and market reputation. Investing in XINGKECHUANG's high-reliability sensors is not merely a cost addition but a strategic investment in long-term brand stability and profitability.
