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Audi Crosslane Coupe Concept is bursting with interesting tech

Audi has lifted the sheet on its newest concept car at the Paris Motor Show, a vehicle called the Crosslane Coupe Concept that hits just about every concept car meme that we know of. The angular Audi is, at once a coupe, a convertible and a crossover; it is a two-seater and a 2+2, it has a hybrid powertrain with a small, efficient gasoline engine and no less than two electric motors; the whole structure is made from advanced materials. As a matter of fact, the car’s interior – usually a showplace for concept car “stuff” – is perhaps the tamest sector of the Crosslane.

Audi has used an exotic mix of aluminum, carbon fiber-reinforced polymer and fiberglass-reinforced polymer to create the concept’s “multimaterial” space frame. The result is a vehicle that offers a rigid, yet lightweight structure. The total weight of the Crosslane is a reasonable 3,064 pounds.

The coupe concept is powered by a combination of a 1.5-liter three-cylinder engine, a smaller electric motor that acts primarily as a starter and alternator and a second electric motor that adds quick to the Audi’s giddy-up. Total system power averages out to 176 horsepower, giving the vehicle a 0-62 sprint of 8.6 seconds and a top speed of 113 miles per hour. The electric motor can also work alone in this plug-in hybrid system, using a 17.4-kWh lithium-ion battery for a range of around 53-miles worth of pure electric driving.

As you might expect, this cocktail of electric motors and gasoline power work together in a number of different ways. The larger electric motor delivers driving power from 0-34 mph. Over 34 mph, all of the motive forces work together to propel the vehicle, until about 80 mph where the three-cylinder becomes the main source of power, with the smaller motor working to support if needed.

The Crosslane has an interesting movable trunk space, which can push forward to allow easy access from inside of the cabin, or move backwards to open up space for two rear seats. When the concept car’s removable top is stowed, it also serves as a cover for this cargo space.

To read all of the details, scroll down for the press release.

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Audi crosslane coupé concept

The Multimaterial Space Frame

The dual-mode hybrid concept

The exterior design

The boot

The interior design

The equipment and data specified in this document refer to the model range offered in Germany. Subject to change without notice; errors and omissions excepted.

AUDI CROSSLANE COUPE CONCEPT MAKES ITS PARIS SHOW DEBUT

– Dual-mode three-cylinder petrol/electric hybrid study provides pointers to the design language of future Audi Q models

– Coupe concept to debut at the Mondial de l’Automobile in Paris (September 29 to October 14)

Multi-material aluminium, Carbon Fibre Reinforced Polymer (CFRP) and Glass Fibre Reinforced Polymer (GFRP) space frame construction

– Three-cylinder 1.5-litre TFSI engine combines with two electric motors to deliver 177PS – purely electric propulsion possible at speeds of up to 80mph for up to 53 miles

– Potential for the equivalent to 256.8mpg with CO2 output of just 26g/km

This week at the Paris Motor Show Audi provides a glimpse of the future shape of design, along with automotive and drive concepts, through its Audi crosslane coupé concept car. This vehicle is an entirely new fusion of technology, engineering and design, and provides pointers to the design language of future Audi Q models.

With a Multimaterial Space Frame, the vehicle concept breaks new ground in terms of weight, costs and energy usage over its lifecycle, and is an evolutionary stage of Audi ultra – the lightweight construction principle from Audi.

An innovative and efficient plug-in hybrid drive based on a purpose-designed 1.5-litre three-cylinder TFSI and two electric motors redefines the benchmark, with potential fuel economy returns equivalent to 256.8 mpg and CO2 emissions of just 26 grams per km.

The result is a sophisticated vehicle that will appeal to young customers in particular thanks to its removable roof and the customisable services available under the Audi connect concept.

Pioneering concept: the Multimaterial Space Frame

The Multimaterial Space Frame of the compact Audi crosslane coupé comprises three materials – aluminium, carbon fibre-reinforced polymer (CFRP) and glass fibre-reinforced polymer (GFRP). The concept car has an unladen weight of about 1,390 kg, including the large lithium-ion battery.

The aluminium profiles form a continuous, rigid structure around the occupant cell. Beams beneath the front lid join the single-frame grille, which performs a supporting function and is also made from aluminium, with the occupant cell.

The front and rear crash structures are made from CFRP and the supporting CFRP structures inside the occupant cell include the inner sills, the centre tunnel, the bulkhead and the cross-members in the floor. Surface GFRP components with partial CFRP reinforcements complete the body concept.

Audi is convinced that the highly integrated Multimaterial Space Frame is the right path to the future. Its weight is of the same magnitude as a monolithic body of CFRP. It also offers convincing advantages in terms of costs to the customer and its energy usage in a life cycle assessment.

Innovative: dual-mode hybrid concept

The plug-in hybrid drive of the Audi crosslane coupé, which is described as a dual-mode hybrid, is as innovative as it is efficient. It comprises a combustion engine, two electric motors and a single-stage transmission; its system power is 177PS. The Audi crosslane coupé sprints from zero to 62mph in 8.6 seconds, and in pure electric mode takes 9.8 seconds. The car’s top speed is 113mph. It offers the potential for up to 256.8mpg and emits 26 grams per km of CO2. The lithium-ion battery has an output of 17.4 kWh, sufficient for an operating range of around 53 miles in the electric mode.

The combustion engine is a purpose-developed three-cylinder TFSI with a displacement of 1.5 litres, delivering an output of 130PS and 200 Nm (147.51 lb-ft) of torque. The three-cylinder engine is coupled to an electric motor (EM 1), which acts primarily as a starter and an alternator. It develops an output of 68PS and 210 Nm (154.89 lb-ft) of torque. Electrical traction is provided by the second electric motor (EM 2) developing 116PS and 250 Nm (184.39 lb-ft) of torque. The transmission makes it possible to connect the combustion engine complete with alternator to the remainder of the drivetrain by means of a claw clutch.

The dual-mode hybrid concept enables different operating modes. From 0 up to 34mph, drive power is supplied solely by the EM 2, which draws the energy it needs primarily from the battery. In serial mode, the combustion engine and the alternator (EM 1) produce electrical energy to support, relieve or substitute the battery should it be discharged.

The electric mode is possible up to 80mph. From around 34mph the drive system allows the TFSI engine together with the alternator to couple to the drivetrain – in this hybrid mode, the drive sources combine to optimise both efficiency and performance. Above 80mph, the three-cylinder engine becomes the main drive source but the EM 1 can support it if required.

The driver of the Audi crosslane coupé can choose between the “cruise” and “race” settings. The “cruise” mode prioritises electric driving. The driver does not notice either gear changes or the power source kicking in. When the TFSI is running, its engine speed is always adapted to the road speed – without a “rubber-band” effect. The high efficiency of the transmission makes the dual-mode hybrid drive especially efficient in urban traffic.

Forward-looking: exterior design

The 2+2-seater Audi crosslane coupé is 4.21 metres long, 1.88 metres wide and 1.51 metres high, with a wheelbase of 2.56 metres. Its body design comes across as powerful and striking, and it already provides a foretaste of the design language of a future generation of Audi Q models.

The single-frame grille, which is subdivided into several segments by struts, dominates the front end. Its prominent frame is integrated into the Multimaterial Space Frame as a supporting element. This solution symbolises the philosophy behind the Audi crosslane coupé: a totally new fusion of basic concept, technology and design.

The trapezoidal headlights use Audi Matrix LED headlight technology. Small, individually controllable light-emitting diodes generate all lighting functions, and microreflectors enable their precise positioning. The bumper incorporates large, mainly smooth-surfaced air intakes. Through two narrow openings in the front lid it is possible to glimpse the upper aluminium members of the Multimaterial Space Frame.

Along the sides, the horizontal edges are the dominant feature above the wheels. The low greenhouse tapers into a very flat C-pillar, emphasising the coupé-like character of the Audi crosslane coupé. The doors extend a long way down thanks to the space frame design, which allows very low sills. The doors open to reveal the aluminium structures of the Multimaterial Space Frame.

The tail lights are a variation on the motif of the headlights; the boot lid seam divides them each into two segments. The bumper, the lower section of which is made from CFRP, incorporates an aluminium diffuser that extends quite some way up. The roof element comprises two CFRP shells and weighs slightly less than ten kilograms (22.05 lb). The driver and front passenger can unlatch it by an electric drive, remove it from the body structure and fit it over the load area.

Moveable: the boot

The boot forms a separate pan within the body structure; it is attached to the backs of the rear seats, which are separate from the seat cushions. At the press of a button, the entire unit travels about 40 cm forwards electrically; this is how the latched roof reaches its end position, in which it protects the luggage. At the same time, the level surface under the boot becomes accessible, and it offers a flat storage space for dirty or wet objects.

The driver and front passenger sit on electrically adjustable sport seats with integrated head restraints, the shells of which are made from CFRP. The centre console integrates a large selector lever, which is electrically extended when the car is started; it is used to control the hybrid drive. The spokes of the steering wheel incorporate control surfaces for the thumbs, which the driver can use to carry out most functions. These can also be controlled just as intuitively from a large touchpad on the centre console.

The low dashboard is very clearly turned towards the driver. The air conditioning controls incorporate miniature displays. The virtual displays in the instrument cluster can be toggled between two different levels, and a powermeter visualises the drive system’s operating statuses.

The Audi crosslane coupé introduces new online services under the key word Audi connect. Its passengers are always connected to the Internet community – via Twitter, Facebook or by sending photos and videos recorded on the road. A completely new feature is the “Escape Manager” – a program passengers can use to review and comment on the routes they are driving for their friends.

Geometric clarity: interior design

The interior design of the Audi crosslane coupé continues the design language of the exterior in the geometrical clarity of its basic shapes; instrument covers and the grilles on the air nozzles, for example, take up the trapezoidal theme. The narrow gap dimensions and three-dimensional surfaces reflect Audi’s uncompromisingly high quality standards.

The dominant interior material of the Audi crosslane coupé is CFRP, which is used in a number of different variations. On the dashboard cowl, for instance, the composite fibres are all aligned in a single direction; this unidirectional arrangement is a new departure in the automotive sector. The CFRP parts are slightly lighter in colour in some areas and darker in others, an effect achieved by different clear coat applications.

The aluminium elements, too, are used in a subtly differentiated way. Most of them are machine-polished, but the air nozzles use a black anodised light alloy. The vehicle floor is made from glass fibre-reinforced polymer (GFRP) incorporating sections of a new material: Thick cords are woven with rubber threads to form a hard-wearing carpet.

In their leather selections, Audi designers also employed various material grades. The most widely used grade is soft semi-aniline leather. Velvet leather in black provides an enlivening contrast. It has a robust, slightly coarse surface reminiscent of suede.

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