BYD

Last updated February 1, 2026

720

Innovation Areas

34,443

Inventors

189

Collaborations

Anti-pinch motor torque modulation: BYDRecent Research Landscape

Mechanical obstruction during automated closure causes passenger injury risks and motor burnout. These systems regulate current and torque thresholds to ensure safe, responsive obstacle detection.

What technical problems is BYD addressing in Anti-pinch motor torque modulation?

Unintended closure entrapment risk

(34)evidences

Automatic closure systems pose a physical safety hazard if obstacles are not detected during movement. Preventing injury or mechanical damage during door operation ensures regulatory compliance and user safety.

Obstruction induced passenger injury

(16)evidences

Uncontrolled window closure poses a significant safety risk of crushing or pinching limbs. Mitigating this failure mode prevents physical harm and ensures regulatory compliance.

Inadvertent passenger entrapment risk

(12)evidences

Unintended physical obstruction during automated closure of vehicle apertures. Preventing injury or mechanical damage through precise detection of resistance improves safety compliance and user protection.

Unintended closure entrapment hazards

(10)evidences

Mechanical closure systems pose a risk of crushing or injuring occupants when obstacles are present in the travel path. Eliminating this failure mode ensures passenger safety and regulatory compliance for automated vehicle components.