Fluctuations and transients during high-load switching events compromise electrical system integrity. Stabilizing these transients prevents component failure and ensures reliable power delivery across vehicle subsystems.

Small, creeping quiescent currents often bypass standard overcurrent protection, leading to battery drainage or latent component damage. Identifying these subtle failures prevents unexpected vehicle immobilization and long-term hardware degradation.

Sensor drift and signal noise in electrical machine feedback loops lead to degraded motor control. Resolving these errors ensures precise torque delivery and prevents system instability.