After a hugely successful unveiling at Geneva, the F12berlinetta, the first in a new generation of Maranello’s flagship12-cylinder cars, makes its Asian debut at the Beijing International Motor Show. The event will also host the world premiere of the evolution of the HY-KERS laboratory concept, coupling hybrid technology with mid-rear architecture to cut fuel consumption and CO2 emissions on the combined cycle by 40 per cent whilst boosting performance.
With a Fiorano lap time of 1’23’’, 0-100 km/h acceleration in 3.1 seconds and 0-200 km/h covered in 8.5 s, the F12berlinetta delivers absolutely benchmark performance. The handling balance achieved ensures maximum driving involvement even at low speeds, a feature thus far the sole domain of mid-rear-engined cars. The sporty handling is equally nimble and responsive on the road as on the track.
Great attention was paid to reducing fuel consumption and emissions which have been slashed by 30 per cent, with the result that the F12berlinetta tops its segment in terms of efficiency with 15l/100 km and 350 g/km of CO2.
The other important unveiling at Beijing is the evolution of the HY-KERS project adapted to a mid-rear engine layout. The powertrain on display consists of a 12-cylinder engine and dual-clutch gearbox coupled to an electric motor. A second electric motor is dedicated to the auxiliary systems and is located in front of the V12. The two electric motors are connected to the batteries which can be positioned in the car in line with the available space and final configuration.
The objective of this configuration is to create a sports car that, thanks to the integration with the electric motors, increases power while at the same time reducing emissions. The KERS features new, smaller and lighter electronic components which come close to achieving the declared target of 1 KW per kg of extra weight added by the hybrid system.
The HY-KERS’ electric motor delivers power using one of the gearbox’s two clutches and is mated to one of the two main shafts. The result is instantaneous, continuous power delivery between the electric motor and petrol engine. During braking, the electric motor acts as a generator, using the kinetic energy from the negative torque to recharge the batteries. This crucial task is managed by a dedicated ECU, also F1-derived, which not only controls the electric motor, but also governs the power to the auxiliary systems (power steering, brake servo, air conditioning, onboard systems).
Work on the system has now reached the end of the experimental phase and the development phase will commence in the coming months. With the same nominal power output of a normal ICE, the HY-KERS system will enable Ferrari to reduce emissions by 40 per cent over the combined cycle.