Introduction In the world of internal combustion engines, turbochargers have become a popular method of increasing power and efficiency. This gas compressor, often referred to simply as a turbo, is a form of forced induction that forces air into the engine, resulting in more power for a given displacement. In this blog, we will explore the inner workings of turbochargers and their impact on engine performance. The Components of a Turbocharger At its most basic level, a turbocharger consists of three major components: the turbine, the compressor, and the bearing system that supports the turbine shaft connecting the turbine and compressor wheels. The turbine is located on the hot side of the turbocharger and is bolted onto the engine's exhaust manifold. As the engine runs, the exhaust gases pass through the turbine, spinning a fan called the turbine wheel. This spinning motion converts heat and pressure into rotational force, which in turn spins the compressor wheel. The compres
Autonomous Emergency Braking (AEB), also known as Automatic Emergency Braking or Collision Avoidance System, is an advanced safety feature in vehicles designed to prevent or reduce the severity of collisions. AEB systems use sensors, cameras, radar, lidar, or a combination of these technologies to detect obstacles, vehicles, pedestrians, or other potential hazards in the vehicle's path. The main purpose of AEB is to intervene when the driver does not react quickly enough or forcefully enough to avoid a potential collision. When the system detects an imminent collision, it can initiate automatic braking to either reduce the impact speed or bring the vehicle to a complete stop. Some AEB systems also include collision avoidance capabilities by steering the vehicle away from the obstacle if there's enough room to do so safely. Check Essential Car Accessories AEB systems typically operate in multiple stages: Warning Alert: If the system detects a potential collision, it may