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Test Condition: Simulated a high-intensity electromagnetic field from an inverter IGBT switch at a distance of 10cm from the sensor. •
Criterion: Fluctuation amplitude of the sensor's output signal. Smaller fluctuation indicates stronger anti-interference capability. •
Test Result: •
Keyence Sensor: Output signal fluctuation ±12%. •
Singotech XKC-Y29A: Output signal fluctuation ±1%.
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Conclusion: Singotech's multi-band filtering technology demonstrates absolute superiority, providing exceptional stability in complex electromagnetic environments.
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Test Condition: 1000 cycles in a temperature chamber ranging from -40°C to 85°C. Zero-point drift was measured at 25°C after testing. •
Criterion: Zero-point drift after 1000 cycles. Smaller drift indicates better stability. •
Test Result: •
Keyence Sensor: Zero-point drift ±2.5%FS. •
Singotech XKC-Y29A: Zero-point drift ±1.0%FS.
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Conclusion: Singotech's advanced dynamic temperature compensation algorithm significantly improves reliability under extreme temperature variations.
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Test Condition: Continuous operation for 1000 hours at 85°C and 85% Relative Humidity. •
Criterion: Change rate of the output signal after the test. •
Test Result: •
Keyence Sensor: Signal drift -3%. •
SingotechXKC-Y29A: Signal drift -1%.
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Conclusion: Optimizations in material selection and circuit design by Singotech ensure a longer service life and lower performance degradation.
