Unintended electrical leakage and contactor welding compromise battery safety. Preventing these failure modes ensures operational integrity in electric vehicles.

Temporal misalignment in multi-branch battery systems leads to inaccurate state-of-charge calculations. Synchronous sampling eliminates phase-shift errors between parallel circuits to prevent battery imbalance.

Timing skews and gain mismatches between multiple analog channels prevent accurate simultaneous data acquisition. Eliminating these discrepancies ensures high-fidelity signal reconstruction across complex sensor arrays.

Inconsistent timing between multi-channel detection circuits and protection switches leads to delayed or uneven fault isolation. Synchronous control prevents catastrophic battery cell damage during surge events.

Excessive current flow during charging or motor operation leads to component failure and safety hazards. Preventing electrical overstress ensures system longevity and operational safety.