Views: 2 Author: Site Editor Publish Time: 2025-07-12 Origin: Site
The accuracy of fish finders is not "set in stone." Lucky utilizes a combination of hardware-level anti-interference and adaptive algorithms to keep errors within a reasonable range. However, the complexity of aquatic environments directly influences data fluctuations. Taking the Lucky FF718LIC-WT as an example, its error patterns need to be analyzed by specific scenarios:
1. Water Temperature Error: ±0.5°C-Level "Thermal Radar", but Hot-Cold Currents Are Hidden Pitfalls
Test Data: In still lakes, Lucky maintains a water temperature error within ±0.3°C (compared with high-precision probes). However, in areas where hot and cold currents mix (e.g., reservoir discharge outlets), the error may widen to ±0.5°C.
Technical Support: Equipped with a built-in NTC thermistor and dynamic calibration five times per second, the device filters out brief temperature spikes. Still, if the probe is in fast-moving whirlpools, mixed water flows can cause noticeable sensor data “jitter.”
Tips for Use: Anglers should avoid measuring temperature near inlets or rapids. In calm water zones, the actual error is typically under 0.4°C—precise enough to target active layers of crucian carp or mandarin fish.
2. Depth Error: "Jumping" Values in Dynamic Terrain Are Normal; Ideal Accuracy Reaches 0.2–0.5 Meters
Test Scenario: In a flat 30-meter-deep lakebed, if the probe passes over a 5-meter-deep pit or mound, the depth reading can “jump” between 7.2 meters (pit edge) and 4.8 meters (pit bottom). In rough waves, swinging can cause up to ±1 meter of error.
Technical Logic: Lucky’s high-precision sonar penetrates muddy bottoms and maps out underwater terrain changes. However, users must apply their judgment to determine whether a “jumping” value represents a true fish layer.
Ideal Conditions: If the bottom is free of holes or reefs and the probe remains level, depth error can be compressed to 0.2–0.5 meters—accurate enough to pinpoint bass or grouper schools.
