Situation-dependent support is also possible, for instance during emergency braking. ![]() If the vehicle also offers driving modes such as sport, comfort, or economy, the brakes can be made to react more softly or more aggressively as appropriate. The ability to define characteristic braking curves gives developers the freedom to determine pedal feel and adapt it to the customer's brand-specific wishes. This is particularly compelling for quiet e-vehicles, since ambient sounds are much more noticeable in their interior. The iBooster can also take on the Adaptive Cruise Control’s (ACC’s) job of gently bringing the vehicle to a standstill, and do so comfortably and noiselessly. In emergency situations, therefore, the iBooster can brake the vehicle faster than a driver using a conventional braking system. Should the predictive emergency braking system detect a dangerous situation, the iBooster can build up full braking pressure autonomously in 120 milliseconds or so-three times faster than previous systems. ![]() The electromechanical concept offers further advantages. In addition to saving fuel, it also allows more comprehensive use of fuel-saving functions that stop the engine for periods of time, such as start-stop or coasting. This dispenses with the current costly, continuous process of generating a vacuum using either the internal combustion engine directly or a vacuum pump. The driver does not notice this interplay of motor and brakes, as pedal feel remains absolutely normal, according to Bosch.īosch has integrated a motor into the iBooster to control the degree of brake boosting via a two-stage gear unit for situation-dependent support on demand. If the brakes to be applied harder, the iBooster generates the additional braking pressure needed in the traditional way, using the brake master cylinder.
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