Although it has not cropped up extensively in the media, braking (in particular brake bias and control) will be an important design consideration for 2014. This is down to the introduction of the new power units, which – due to the additional recovery power of the MGU-K – makes the bias difficult to adjust and control.
Current Braking System and KERS
In this section of this post I am going to break (pardon the pun) down the key characteristics of the current (2009-2013) braking system and how each component affects each other.
Since 2009 (excluding 2010), Formula 1 has utilised the Kinetic Energy Recovery System (KERS) that increases the efficiency of the braking system, transferring the previously lost energy to a battery. This energy can then be used to provide an additional boost of power at the driver’s disposal for 6.67 seconds per lap. The KERS harvests 60kW of power, which equates to about 80bhp – about the same power as a small family hatchback car.
It does this via a Motor Generator Unit (MGU). As the driver brakes, the engine drives the generator of the MGU which acts as a resistive force to the driveshaft connected to the wheels. The MGU transfers the energy recovered from the generator to the battery. When the driver pushes the KERS button the energy is sent back to the motor of the MGU, adding power to the engine.