Sensor offsets and monitoring failures lead to incorrect feedback in motor drive systems. Eliminating these errors prevents torque ripple and ensures operational safety.

Excessive electrical and thermal stress on switching components leads to premature hardware failure. Mitigating this load extends operational lifespan and prevents catastrophic system shutdown.

Energy dissipation and switching losses during DC-to-AC inversion limit drive unit efficiency. Reducing these losses extends operational range and minimizes thermal stress on electrical components.

Inaccurate current tracking and signal oscillations in closed-loop systems lead to torque ripple and thermal inefficiency. Stabilizing these signals ensures precise motor response and prevents hardware damage.