Hydraulic retarders play a critical role in modern vehicle braking systems by converting kinetic energy into thermal energy through the fluid dynamic interactions within the retarder system. Their ...

Continuing just-auto’s series of interviews with tier one suppliers of electronic braking systems, Matthew Beecham talked with Dr Sören Kirchner, Head of Segment Electronic Parking Brakes within the ...

This summary presents a comprehensive examination of train dynamics and braking systems—a field critical to ensuring the safety, efficiency and reliability of modern rail transport. Central to this ...

Motors should not coast more than a few shaft revolutions after being deenergized. Critical applications use electromechanical clutch and brake devices to stop loads when motor power is removed.

The automotive industry continues to be a hotbed of innovation, with activity driven by road safety, autonomous braking systems and advancement in sensors, and growing importance of technologies such ...

Pop quiz! What’s the difference between Automatic Emergency Braking, Collision Imminent Braking, Autonomous Emergency Braking, Collision Intervention, Autonomous Braking, and a Dynamic Brake System?

Tesla has spent years arguing that a camera‑centric approach to driver assistance can match or surpass the performance of rivals that lean on ultrasonic sensors and radar. The company’s latest ...

TITLE: Automatic Deceleration/Collision Detection – Dynamic Braking System. DESCRIPTION: New York City Transit/MTA Bus (NYCT/MTAB) is seeking an expression of interest in order to identify and obtain ...

Use individual and team exercises to build skills for a dynamic systems approach. Engineered systems increasingly must exploit complex interactions between multiple domains—mechanical, electrical, ...