How to solve this problem fundamentally?
Two key optimizations for the BMS are essential. First, add vibration-resistant design: adopt flexible circuit boards and shock-absorbing brackets for battery modules to reduce the impact of vibration on internal components, ensuring stable connections even under severe jolting. Second, optimize the pre-charge function: when the BMS detects sudden current surges caused by vibration or appliance startup, it releases a small, controlled current to stabilize the power supply, avoiding false triggering of protection mechanisms while meeting the startup needs of multiple on-board appliances.
For RV manufacturers and travelers, choosing lithium energy storage batteries with optimized BMS vibration protection and pre-charge functions is crucial. High-quality BMS that meets ISO 16750-3 (automotive electrical equipment environmental standards) can ensure stable power supply for RVs in complex road conditions. As lithium batteries become the mainstream of RV energy storage, optimizing BMS functions for mobile scenarios will remain the key to enhancing travel comfort and safety.
Post time: Dec-13-2025
