The anatomy of acceleration.
You take a deep breath. Step on the accelerator. You´re pressed firmly into your seat. Experience butterflies in your stomach. Or in short: you accelerate from 0 to 100km/h. In 3.4 seconds. In a luxury saloon. In a four-seater sports car. In the new
A runway at night. The new
You now set the mode switch to SPORT PLUS. With this action, the 4.0-litre twin-turbo V8 engine springs to life, making its presence felt by means of a low murmur.
Launch Control can only be activated in SPORT PLUS mode. A function that ensures maximum acceleration from a standing start. Enables a real racing start. On every
The twin-turbo V8 engine gets ready to deliver its maximum output. Accelerates up to 5,000rpm and begins to vibrate. Its full power at the ready. A real work of art that uses all its energy to maintain this high rpm at a constant level. At the same time, the engine harnesses the manifold pressure and forces it past the engine intake duct. It can therefore apply the full cylinder charge immediately the car moves off, so as to deliver maximum power within a fraction of a second. In the same instant, the transmission presses against the clutch plates ever so slightly. Both the power units – electric motor and combustion engine – provide torque to the clutch. So the
But the sports car is still stationary. You put your left foot on the brake. Place both hands firmly on the steering wheel. The suspension is firmly tuned. The 14kWh lithium-ion battery prepares to supply maximum current. The cooling systems get ready to provide maximum cooling capacity.
The hang-on clutch of the all-wheel drive and electronically-controlled rear differential lock of
"Launch Control active". Not a second has passed since the accelerator was first depressed, in order to activate Launch Control and prime the systems. The
The electric motor immediately provides maximum torque, propelling the vehicle forward and thereby bridging the gap that the turbo engine requires to reach maximum torque. Less than 200 milliseconds. Both respond to the clutch. Endeavouring to transfer all their power to the drivetrain and deliver it to the road via the wheels. The clutch attempts to suppress the two power units. To prevent the wheels from spinning during start-up, the clutch regulates the torque, so as to attain the ideal wheel slippage.
15 to 20 percent wheel slippage should be achieved, because this is when the tyres have most traction. Not easy to do: the 8-speed
The electric motor and combustion engine now fully discharge their combined power. An overall torque of 850 Newton metres. 680hp. Sheer power. In first gear, this rises steeply towards the speed threshold. Up to 6,800rpm.
You now shift into second gear. The new 8-speed
Meanwhile, the car continues to accelerate. Inexorably towards 6,800rpm. But the engine ignores the threshold, trusting the transmission. Remains at maximum torque, which it wouldn't normally do. It knows that the transmission will pull it down to the target second gear speed of 5,000rpm when Launch Control is active. It sucks in air. Expels air. The electric motor also delivers maximum torque. The clutch makes every effort to respond. And manages to close. 400 milliseconds – and the speed drops. The result: no interruption in the flow of power. No loss of speed. On the contrary, the car receives an additional 0.5g of forward thrust.
The combustion engine and electric motor both work flat out at all times. Aim to produce maximum torque. And therefore achieve a perfect balance. Sometimes the combustion engine works harder, sometimes the electric motor. During the entire acceleration process, both deliver maximum power. Always. Even during gearshifts. Optimised for maximum performance by PDK.
The tachometer reads 85km/h. You again shift up a gear, moving into third. Just before the speed threshold. Within a whisker of 6,800rpm. This propels the
A great moment. And because it may have been over too soon, here's another overview of the main features of our protagonist:
Maximum system output: 500 kW (680hp)
4.0-litre twin-turbo V8 engine: 404kW (550hp)
Electric motor: 100kW (136hp)
From 0 to 100km/h: 3.4 seconds
Top speed: 310km/h
* Data determined in accordance with the measurement method required by law. Since September 01, 2017 certain new cars have been type approved in accordance with the Worldwide Harmonized Light Vehicles Test Procedure (WLTP), a more realistic test procedure to measure fuel consumption and CO2 emissions. From September 01, 2018 the WLTP will replace the New European Driving Cycle (NEDC). Due to the more realistic test conditions, the fuel consumption and CO2 emission values determined in accordance with the WLTP will, in many cases, be higher than those determined in accordance with the NEDC. This may lead to corresponding changes in vehicle taxation from September 01, 2018. You can find more information on the difference between WLTP and NEDC at www.porsche.com/wltp.
Currently, we are still obliged to provide the NEDC values, irrespective of the testing method used. The additional reporting of the WLTP values is voluntary until their obligatory use. As far as new cars, (which are type approved in accordance with the WLTP) are concerned, the NEDC values will therefore be derived from the WLTP values during the transition period. To the extent that NEDC values are given as ranges, these do not relate to a single, individual car and do not constitute part of the offer. They are intended solely as a means of comparing different types of vehicle. Extra features and accessories (attachments, tyre formats etc.) can change relevant vehicle parameters such as weight, rolling resistance and aerodynamics. Additionally, weather and traffic conditions, as well as individual handling, can affect the fuel consumption, electricity consumption, CO₂ emissions and performance values of a car.