![]() This would avoid the loss of valuable energy through braking. Ideally, cars would be slowed down purely as a result of their electric motor converting their kinetic energy into electricity. If hybrid and electric vehicles are to achieve their intended range and fuel efficiency, they must recover as much electrical drive energy as possible when braking. Increasing energy recovery to increase range Over the medium term, it will displace conventional brake boosters in many vehicles. Production of this innovation will start in 2013 for three series-produced models. What is more, the iBooster complements a modular range of components from which Bosch can put together a suitable braking system for any vehicle configuration. “The iBooster makes hybrid and electric vehicles even more efficient, while enhancing safety through shorter braking distances,” says Gerhard Steiger, president of the Bosch Chassis Systems Control division. Now Bosch has developed the iBooster, an electromechanical brake booster that provides situation-dependent support when the driver initiates braking. ![]() Until now, there has been limited scope for recovering braking energy and the driver’s pedal force can only be amplified by a single predetermined degree. Over the same period, however, the standard vacuum-based approach to boosting brake force has remained almost unchanged. ABS and ESP in particular have significantly increased safety. In recent years, car braking systems have become ever more powerful. Bosch has developed an electromechanical brake booster that provides situation-dependent support when the driver initiates braking.
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