How Forlinx Embedded Board Handles Vibration
In practical applications, embedded boards are often subjected to various vibrations, which may come from device operation, vehicle movement, or external environmental disturbances. The impact of vibration on boards cannot be ignored, as it can cause loose connectors, damage to structural components, and even lead to functional instability and performance degradation.
Forlinx Embedded has three R&D labs: the Physical Environment Lab, the Electromagnetic Compatibility Lab, and the Stability Lab. These labs conduct 10 major test items, each designed to simulate extreme conditions that products might encounter in real-world applications, ensuring they can operate stably in complex environments.
To ensure the stability and reliability of embedded boards in vibrational environments, professional vibration testing becomes crucial. Forlinx's physical lab is equipped with an advanced vibration testing system that provides accurate test data during the design phase.
In the vibration tests, Forlinx precisely sets vibration parameters such as frequency range, amplitude, and acceleration according to the standards of specific application scenarios. The vibration table simulates real-world vibration environments.
During the test, the embedded board is securely placed on the vibration table, and high-precision sensors continuously monitor the vibration waveforms to ensure they strictly comply with the preset parameters. The test also pays close attention to any resonance or abnormal occurrences. Additionally, Forlinx closely monitors the real-time operation status of the board to comprehensively assess its stability and reliability under vibration.
After testing, Forlinx's test engineers conduct detailed visual inspections, structural verifications, and functional performance tests on the board. For specific user scenarios, supplementary mechanical shock and impact tests may also be required to further verify the durability and practicality of the board design.
Through these scientific and rigorous testing methods, we ensure that the embedded board can exhibit outstanding performance and rock-solid stability even when facing vibration challenges, providing strong technical support for various electronic devices.
Originally published at www.forlinx.net.
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