The presentation of the Mission E Cross Turismo from Porsche at the Geneva Motor Show is a concept study of an electrically-powered “Cross-Utility Vehicle.” Designed for individuals with an active lifestyle, the demand-controlled all-wheel drive easily handles varied weather conditions for practical year-round use.
The interior offers plenty of cargo space while an exterior mounting system offers a solution for larger items like surfboards or bicycles.
The four-seater features an emotional design with striking off-road elements as well as a new display and control concept with touchscreens and eye tracking.
The concept vehicle, which is 194.8 inches long, uses 800-volt fast-charging and can also be charged via induction or a charging dock and integrates seamlessly with a Porsche home energy management system.
The road-ready Mission E Cross Turismo is a continuation of the Mission E study that Porsche presented at the Frankfurt International Motor Show (IAA) in 2015. (Read Porsche to launch an electric vehicle (EV) in India in the beginning of 2020)
With a low hood between powerfully curved fenders, the front of the Mission E Cross Turismo has ties to the Porsche 911. The vertical air intakes at the front, known as “air curtains,” provide one of the striking design features. Matrix Design LED headlights represent another style highlight. The typical Porsche four-point daytime running lights have been developed into narrow, three-dimensional glass elements. Embedded in four floating fenders, these lights also feature the new four-point turn signal. Off-road design elements include rugged wheel arches and door sills, a striking front spoiler and rear fascia, and a ground clearance indicative of the ability to travel on and off paved roads.
The flyline is marked by a sporty roofline that tapers towards the rear, echoing the Panamera Sport Turismo. The dynamic design of the side windows is typical of Porsche style. The broad fenders and three-dimensional sidewalls with air outlets behind the front wheels reinforce the sporty crossover character of the 78.3-inch-wide concept vehicle. Distinctive side skirts with an off-road look and 20-inch wheels with 275/40 R 20 tires are among the vehicle’s other defining features.
With its exclusive Light Grey Metallic paint, the study is also immediately recognizable as a Porsche from the back. In addition to the flow-through roof spoiler, the vehicle also features a full-length light strip. The Porsche lettering illuminated in white is embedded in a three-dimensional cover with a circuit path graphic. The “E” in the “Porsche” lettering pulsates when the vehicle is charging, and the circuit paths illuminate, giving customers a tangible sense of the energy flow. The large panoramic glass roof extending from the windshield to the tailgate delivers a generous feeling of spaciousness.
The powertrain: Sporty e-performance in excess of 600 hp
Two synchronous electric motors with a system output of over 600 hp (440 kW) accelerate the Mission E Cross Turismo to 100 km/h (62 mph) in less than 3.5 seconds and to 200 kmh (124 mph) in under twelve seconds. This performance is in addition to a continuous power level that allows for multiple launches in succession without losing performance, which is unprecedented among electric vehicles. Demand-controlled all-wheel drive with Porsche Torque Vectoring, which automatically distributes torque to the individual wheels, transfers the power to the road.
Charging: Fast and effortless
The 800-volt architecture in the vehicle ensures that the lithium-ion battery is charged for an NEDC range of approximately 250 miles (400 kilometers) in around 15 minutes. The concept vehicle allows flexible charging both on the move and at home, and is compatible with the fast-charging network that is being established on European roads as part of the IONITY joint venture. At home or the workplace, the Mission E Cross Turismo can be charged via induction technology, and at home with a charging dock that can work in conjunction with the Porsche home energy management system. The latter option can be combined with the home’s own photovoltaic system to recharge using solar energy.