Automobili Pininfarina confirms record-breaking Battista performance
Luxury Italian carmaker Automobili Pininfarina’s Battista hyper GT has set record-breaking official acceleration and braking figures.
The pure-electric Battista’s unique launch control technology contributes to Formula 1 car-beating acceleration, with 0-60 mph achieved in 1.79s, 0-100 km/h completed in 1.86s, 0-120 mph executed in 4.49s and 0-200 km/h obliterated in just 4.79 seconds. A car as fast as Battista demands strong stopping power and official tests confirm Battista is the fastest braking EV in the world, completing 100-0 km/h in just 31 metres.
The confirmed figures have been revealed as the Battista made its debut in the Middle East, showcasing its unrivalled dynamic capabilities on track at the Dubai Autodrome in the United Arab Emirates.
Paolo Dellacha, Automobili Pininfarina Chief Product and Engineering Officer, said: “I am proud that our new electric hyper GT delivers on the promises we made when we set out or development plan. In Battista, we have achieved performance beyond our original, extreme targets.
“Perfectly optimized weight distribution and low centre of gravity are at the heart of this result. The combination of bespoke chassis and suspension tuning, tyres proven over many thousands of test miles and four-motor torque vectoring delivering unprecedented power enables Battista to be the fastest accelerating road-legal car in the world.
“Battista’s incredible technical package includes a carbon ceramic brake system, helping the Italian hyper GT become the fastest braking electric car in the world. Our discerning clients here in the UAE have been overwhelmed by the Battista driving experience, which is as breathtaking as its award-winning design.”
Automobili Pininfarina says its electric hyper GT is the most powerful Italian car ever made with 1,900 hp and 2,340 Nm of torque. The hyper GT has a top speed of 350 km/h, a WLTP range of up to 476 km and is priced from €2.2 million plus local taxes. Battista’s performance credentials were recorded and verified at Nardò, in Italy, as part of its global test and development programme earlier this year.