2015 Audi R8 E-Tron

After the E-tron concept and the E-tron Detroit Show car , Audi has brought us the e-tron technology platform based on the R8 from the 24 Hours of Le Mans race . This has turned out to be more than just a publicity stunt or science experiment. Audi is serious about bringing this car to market and has taken the time to develop a completely new ideology behind this electric R8 and the normal gasoline version.

Having the exterior design of the car already completed and in supercar form it was an easier job for the Audi engineers to develop an electric version than if they would have had to start from scratch. The mid-engine design of the R8 provides the perfect location to store heavy batteries without distorting the weight balance that Audi wanted to achieve. In essence, this electric version should be able to compete on the same levels as its V8 and V10 brothers, but will it be as exhilarating?

That all depends on what the driver sees as excitement – The V10 version will provide an unbridled amount of power and harmonious soundtrack to go along with it, but the electric version will incorporate some of the most innovative technology available today. Being able to reach high top speeds in the least amount of time is the most important thing that a sports car can deliver, if it can do it by using batteries than we don’t really see a problem. If Audi can truly create an exciting Quattro experience with its new E-Tron R8 than they will have accomplished something truly special in this emerging market.

Hit the jump for more details on the Audi R8 E-Tron.

Update History

UPDATE 06/29/2012: Even though the Audi R8 e-tron hasn’t officially been launched yet, it is already a world record breaker. With a lap time of 8:09.099 minutes, the R8 e-tron has just become the fastest production vehicle with an electric drive system around the Nurburgring. The car was driven to success by racing driver Markus Winkelhock.

"The R8 e-tron has given a magnificent demonstration of its potential on the toughest race track in the world," said Michael Dick, Audi AG Board Member for Technical Development. Dick, who completed a fast lap himself in the R8 e-tron, added: "The record-setting drive confirmed that we are on the right track. To us, electric mobility has never been about sacrifice, but rather is about emotion, sportiness and driving pleasure."

UPDATE 08/07/2012: It’s been a little over a month since the Audi R8 e-Tron lapped the Nurburgring in record time (see previous update), but Audi has just released the video of the epic achievement. Check out Markus Winkelhock and the Audi R8 e-Tron as the record is created by clicking on the image above.


Length4,431 mm (14.54 ft)
Width2,029 mm (6.66 ft)
Height1,252 mm (4.11 ft)
Wheelbase2,650 mm (8.69 ft)



Output2 x 140 kW
Maximum torque2 x 410 Nm (2 x 302.40 lb-ft)
Battery capacity48.6 kWh
0 – 100 km/h (62.14 mph)4.2 s
Operating range in NEDC cycle215 km (133.59 mph)
Top speed200 km/h (124.27 mph)






Audi R8 E-Tron

The idea behind the E-Tron R8 was not to change the look and feel of the vehicle, but how it performed. That being said, Audi has done very little in the way of exterior or interior changes to the car except for the wild paint job shown on the car at Le Mans. All of the right supercar parts are still apparent and it looks like the E-Tron means business on the track. Out front the large grill and air intakes on the front bumper will still help to cool the brakes. Signature Audi LED daytime-running lights flow beautifully around the teardrop headlights. This form of lighting has made its way from humble beginnings into nearly every manufacturers tool bag, but Audi still does it best. As your eyes move towards the rear of the car it is hard to miss the large air intakes behind the doors that were mainly for cooling a very hot engine. The engine is missing, but the batteries produce plenty of heat on their own. Nothing in the rear has really changed except for the delete on the exhaust exits.


Audi R8 E-Tron

The R8 E-tron is powered by four motors – two on the front and two in the rear axles that each connect to their respective wheel by the use of a small shaft. By using the four motor setup this R8 delivers 313 hp and 4,500 Nm (3,319 lb-ft) of torque. It is capable of accelerating from 0 to 62 mph in 4.8 seconds. The true four-wheel drive system allows the Audi to become a full fledged Quattro car. The system is capable of delivering balanced power to the front and rear wheels, but prefers to give 70% to the rear and 30% to the front wheels when conditions are right. By having four completely separate motors the onboard computer is also able to make the smallest adjustments to power outputs so that understeer and oversteer can be corrected.

Even though the batteries weigh 1,212.54 lbs, this new Audi is able to come up with a final curb weight of 3,527.40 lb. This is thanks in large part to the aluminum body and Audi space frame technology. The special package of the Audi E-Tron technology platform provides a 42:58 weight distribution between the front and rear axles and therefore ensures perfect balance and driving dynamics. There is a triangular double wishbone suspension positioned in the front while the back gets a trapezoidal-link rear suspension. This is balanced on 19" wheels.

Audi R8 E-Tron

The power for the electric motors will be supplied by liquid-cooled, lithium ion batteries which can be powered by your household current of 230 volts/16 amperes. Charging time is about 6-8 hours when the battery has been completely depleted and goes down to about 2.5 hours when high voltage is used. These charged up motors offer an autonomy of 155 miles. During braking the car is able to convert the energy provided into a useful source for the electronic systems helping to extend the range.

Pricing and Availability

Audi has announced the R8 E-Tron will be brought to the United States market in 2013 and should be releasing more details and pricing in the coming months.


Audi R8 E-Tron

Several manufacturers have been toying around with the notion of a high-end sports car powered solely by electric batteries, but few have made a commitment to act. Audi will most likely introduce the first mainstream product in this category with the likes of Mercedes in its rearview mirror. The Mercedes E-cell SLS is as far along in the development stage as Audi, but Mercedes is reluctant to make the car available to the consumer. On the smaller end of the spectrum Fisker and Tesla have been developing this technology for years and are finally getting production models on the road. The larger Fisker Karma which will be introduced this year is poised to take over the luxury electric car segment, but will not invade the Audi E-Tron market too much.

Audi R8 E-Tron

- High Performance Maintained
- Four Motors
- Short Charge Time

- High Price
- Weight could be an issue
- Still want a V10

Press Release

The Audi R8 e-tron demonstrates how emotional and dynamic electric mobility can be. Its two electric motors, supplied with energy by a large 48.6 kWh battery, develop 280 kW (380 hp) along with 820 Nm (604.80 lb-ft) of torque. They accelerate the high-performance sports car from 0 to 100 km/h (62.14 mph) in 4.2 seconds and to a governed top speed of 200 km/h (124.27 mph). The battery charge is good for an operating range of 215 kilometers (133.59 miles). Through the R8 e-tron, Audi has acquired extensive expertise that will benefit its electrified production models.

Audi R8 E-Tron

The Audi R8 e-tron weighs in at 1,780 kilograms (3,924.23 lb). Its body structure, including the side sections, weighs just 199 kilograms (438.72 lb), 23 kilograms (50.71 lb) less than that of the R8 Coupé, which already sets the bar very high with its aluminum-based ASF principle (Audi Space Frame). Here, Audi presents a new stage in the development of its ultra lightweight construction technology – a Multimaterial Space Frame, in which large parts made of carbon-fiber-reinforced polymer (CFRP) supplement the aluminum frame.

The CFRP components contribute 23 percent and the metal parts 75 percent of the bodyshell weight; miscellaneous materials make up the remainder. The forward structure of the R8 e-tron is a classic aluminum design. The dominant material in the occupant cell is CFRP, with the tail end using a blend of both materials. The supporting trunk insert of CRFP incorporates corrugated crash structures that mean the rear module can absorb five times as much energy as an aluminum lattice structure. For the B-posts and rear bulkhead, a new sandwich concept reduces the weight by 11.5 kilograms (25.35 lb).

Every single part of the outer skin, which is made almost entirely of CFRP, is tailored specifically to its position and purpose. In certain zones of the front lid, for instance, there are seven layers of carbon fiber matting one on top of the other. For the inner shells of the rear side sections, on the other hand, two layers incorporating nonwoven material are adequate.

The lithium-ion battery, too, is a reflection of the development expertise of Audi – it was designed and built in-house. Bolted to the structure at 40 points, it functions as a supporting element that more than doubles the rigidity of the Multimaterial Space Frame. The battery incorporates 530 prismatic flat cells. Taking the shape of a T, the battery is 235 centimeters (92.52 in) long, 135 centimeters (53.15 in) wide and, control unit included, 71 centimeters (27.95 in) high. Around the tunnel there are two floors with cell modules one above the other; at the rear end there are four floors.

Audi R8 E-Tron

Plates 12 millimeters (0.47 in) thick made from high-strength aluminum alloys separate the floors, while forming the battery’s supporting structure. The coolant circulates through narrow channels cut into these, with a total length of several hundred meters. A hydraulic distributor maintains a precisely calculated, smooth flow serving all cells equally.

The battery management system is housed together with the high-voltage switches and power fuses in the electrics box, which is located on the traction battery. The main tasks of the battery management system involve monitoring the battery system’s safety and, if need be, taking appropriate measures to prevent danger. It also determines the charge status and performance of the HV battery and transmits the readings to the electric motors’ drive controllers. To do that, the battery management system, for example, accesses a battery-internal network of cell electronics, to gage cell voltages and temperatures. If the battery’s charge level falls towards the threshold of 15 percent SOC (state of charge), the controller correspondingly reduces the amount of electrical power that can be taken from the battery. In addition, the functioning and safety of the high-voltage electrical system are permanently monitored; in the event of an accident, the battery is deactivated.

There are two options available for charging the battery: A full charge with 230-volt alternating current from the domestic mains takes about twelve hours. Charging with direct current cuts the time required to less than one hour, depending on the connected load. The driver can control and monitor a wide range of functions and information remotely by smartphone app, including the charge status, the interior heating and the range display. This is a customized service from Audi connect, which is also used in a very similar form in models such as the A3 Sportback e-tron.

Audi R8 E-Tron

The battery is also recharged while on the road by means of energy recovery during retardation phases. The driver chooses the degree of energy recovery in three stages (plus freewheeling) at paddles on the steering wheel. The rate is especially high when braking because up to about 0.3 g the electric motors normally handle retardation on their own. Beyond that the front brake system then gradually comes into play, and the electric motors can recover up to 0.45 g. The newly developed electric individual-wheel traction control (eASR) maintains excellent stability when braking, and provides compelling traction when accelerating.

The two electric motors on the rear axle of the Audi R8 e-tron enable electric torque vectoring, the targeted braking and acceleration of individual wheels for on-demand torque distribution during fast cornering. Thanks to the separate activation of the electric motors and their spontaneous behavior, this function is highly variable and fast; in theory the high-performance sports car can brake one wheel while powering the other with high torque.

With a total of 280 kW and 820 Nm (604.80 lb-ft) available virtually from off, the electric motors give the Audi R8 e-tron impressive performance. They catapult it from 0 to 100 km/h (62.14 mph) in 4.2 seconds, and top speed is limited to 200 km/h (124.27 mph). In the test-bench cycle, one battery charge is sufficient for driving over 215 kilometers (133.59 miles).

The electric motors achieve over 95 percent efficiency over a wide range; ungoverned, they could rev up to 12,500 rpm, which would make them capable of a speed of more than 250 km/h (155.34 mph). Designed as permanently excited synchronous machines, they deliver a high performance and torque density and can also run efficiently on a small amount of electricity. The stator temperature is controlled by a water jacket, and the air additionally cooled by an air flow. The single-stage planetary gears are incorporated into the cooling circuit.

Each electric motor is supplied by separate power electronics, which are likewise temperature-controlled. The pulse inverters that convert the battery’s direct-current voltage into alternating-current voltage redefine the benchmark for compact, lightweight design. The driveline’s control concept has designed-in redundancy and satisfies the highest possible safety standards – the controllers of the power electronics communicate with each other and with the drive controllers.

Audi R8 E-Tron

The chassis of the Audi R8 e-tron, too, features new solutions. The coil springs are made from glass-fiber-reinforced polymer (GFRP) and weigh only 1.2 and 1.3 kilograms (2.65 and 2.87 lb) respectively, about 40 percent less than steel springs. The rear wheel hubs are of forged titanium, saving 0.6 kilograms (1.32 lb) of weight. For the anti-roll bar at the front, wound layers of CFRP form the tube, and the shanks are made from aluminum – the component weighs just 2.5 kilograms (5.51 lb), a saving of 35 percent.

The Audi R8 e-tron is fitted with size 225/35 and 275/35 tires with optimized rolling resistance. From about 50 km/h (31.07 mph), adjustable flaps close the apertures in the 19-inch wheels by centrifugal force; at low speeds they open again. The active aerodynamic wheels trim about 0.02 off the cD value.

The wheel brakes at the rear are electromechanical screw brakes. Electrically actuated and controlled ball screw drives (“by wire”) press the pads against the disks with lightning speed. There is a hydraulic brake system on the front wheels, with two vacuum pumps generating the required partial vacuum. Here, the disks are made from carbon fiber ceramic.

With a weight distribution of 42:58, the R8 e-tron is equipped with just the right basis for sporty handling. The battery is located between the axles, with a low installed position that lowers the vehicle center of gravity. Racing driver Markus Winkelhock established two new records for electric-drive production vehicles with the R8 e-tron on the Nürburgring North Loop. He clocked up 8:09.099 minutes for the fastest single lap and 16:56.966 minutes for two successive laps. For the single lap he drove on sports tires approved for a top speed of 250 km/h (155.34 mph), and used standard tires with a 200 km/h (124.27 mph) speed limit for the double lap.

The Audi R8 e-tron looks similar to the Audi R8 with gasoline engine, but the two vehicle body versions share only nine common parts. The drag coefficient of the electrically powered high-performance sports car is cD = 0.27. The absence of a combustion engine, transmission and exhaust system permit a smooth underbody. At its rear end a long, relatively steeply raked diffuser deflects the air in a way that harmonizes with the air flow around the tail end. The spoiler edge is slightly higher than on the R8, and there is no spoiler.

The electrically powered high-performance sports car does not have an oil cooler, nor does it need intake air. Its side air inlets at the front as well as the sideblades are sealed. Cooling air is only admitted through the lower part of the Singleframe grille. It is required for the thermal management. It flows through the forward structure in a duct and emerges again through an opening in the front lid.

In the shape of the multi-source heat pump, Audi has realized a high-performance thermal management solution for the R8 e-tron that will be of great benefit to future production models. The highly complex system keeps all important driveline components – the battery, the electric motors, the transmissions and the power electronics – at the ideal temperature level. The heat that it draws off is used to regulate the interior climate. The efficient use of electrical energy boosts the range by up to 20 percent.

The heat pump is based on the principle of the classic refrigerant circuit. As a new component, it incorporates chillers (elements which handle heat exchange between two fluids), the front condenser/evaporator, electrically operated expansion valves and an additional heater controller in the air conditioning unit.

Audi R8 E-Tron

A heat coordinator developed by Audi manages how the subsystems interact; depending on the situation, it chooses the best from 43 variants. The heat pump in the R8 e-tron, which also operates independently, heats up the interior faster than a conventional heating or air conditioning system. With an electrical output of 1 kW, it can supply up to 3 kW of heating performance.

When the system operates as an air-source heat pump, it draws heat from the ambient air. Heat is transferred to the refrigerant circuit via the front condenser, which in this instance operates as an evaporator. At low outside temperatures the heat pump makes use of the waste heat from the electric motors and high-voltage battery via special evaporators, the chillers, which simultaneously cool the assemblies. The heater controller usually heats up the interior by transferring the thermal energy stored in the refrigerant to the fresh air drawn in. An electric PTC auxiliary heater only cuts in if maximum heating speed is required.

The interior of the Audi R8 e-tron features elegant CFRP surfaces, soft leather and Alcantara. The sport bucket seats have a CFRP chassis; each of them weighs only 17.6 kilograms (38.80 lb). In the instrument cluster, LED strips indicate the coolant temperature and battery charge level. The large powermeter presents the level of power output and energy recovery on a scale from 0 to 100 percent. There is a 7‑inch color monitor for the driver information system; together with the MMI monitor it shows all important facts about electric driving. These include power consumption (in kW/h per 100 km), the chosen energy recovery level, the amount of energy recovered and an animated graphic of the energy flow. In addition, the range is displayed graphically in the navigation system’s map view.

The digital interior mirror is another innovation in the Audi R8 e-tron. A high-resolution display measuring 6.8 inches diagonally, in AMOLED technology (active matrix organic light emitting diode), takes the place of the interior mirror. A small, very high-performance camera captures the image across a wide field of view and with high sensitivity. A control unit ensures that the image appearing on the display always has high contrast and brilliance. The AMOLED display, a mere 7 millimeters (0.28 in) thick, offers ten times the contrast and 30 percent better energy efficiency compared with an LCD monitor.

Audi has equipped the R8 e-tron with a synthetic e-sound, which is audible up to about 60 km/h (37.28 mph). A small computer generates the frequencies from data supplied by the drive controller, and a sturdy speaker system on the underbody directs it to the road surface.


i think that this market: high end electric cars will be very interesting. and we - regular users - will have lots to win, because it will aid and influence street cars very much.

john, you do realize i was joking, right? even a plane can fly with only one engine out of 4 working, i imagine a car can do the same.

although i heard fisker has got some financial problems, i still think it’s a good competitor. and so is tesla. remember that zonda was a no-name until it started kicking ass. and high-class especially.

midocar, that might or might not be true. although sony is a bigger company, i would still buy a nikon photo camera. because that’s what they do: cameras. same with tesla.

i don’t think the audi is a real competition for tesla. actually, this is true the other way around. audi is a far better established manufacturer. it inspires more confidence.

otto, you do realize that it will drain the power from the other 3 engines. but what happens when your petrol car has a problem with its ONLY engine.

there are lots of petrol cars that can’t go that fast around the ’Ring. way to go, audi!

my only question is: what happens if one of the 4 electric engines fails? will it limp?

I’m not really fond with the style and platform of this E-tron. It seems not a sports car, but I love the angst on the front headlights of this car.

It would certainly be a good competitor to the Tesla. And I think that it will probably have an edge over that roadster, since this one will incorporate a lot of new tech.

Well, it’s a good thing that Audi is indeed moving with the E-Tron concept. I am really looking forward to it since it would usher in a lot of developments.

I would agree; it would certainly be a good competitor to the Tesla. And I think that it will probably have an edge over that roadster, since this one will incorporate a lot of new tech.

I must say that e-tron is so cool on its exterior appearance. However, I would truly hope that its electric motor could absolutely give on it, a better and a great speed performance and I will be looking forward to seeing that.

Yeah! I have to agree with that. It will only be too hassle for a sports car if it is on an electric motor. However, I hope that they could really prove that this will still have a nice figure performance even though it is a hybrid vehicle.

Even though it only has a short time to charge this vehicle, it will still be hassled on it for the fact that it is a sports car. Well, I would as yet prefer the gas engine for a race car.

I just really don’t like the fact that this sports vehicle is an electric motor, very unreliable! It will surely a hassle for this sports car when it is on the race road.

I have to agree with that, but to be honest it really amazed me with its figure performance! Well, for an electric vehicle, that specification has been already quite impressive.

Yeah! I don’t think either that electric motor would really work for a sports car. However, I’m still impressed with its specification, and I hope that they would release a video of this e-tron.

Well, I don’t think that electric motor would really work for a sports car like this one. We know for a fact that it needed to be fully charged first, before we could drive it, which only consumed more time.

E-Tron is absolutely a good-looking car, and it is truly very appealing on its aesthetic design and to its other detailing but the fact that it is a sports car, I don’t think that its electric motor could be good enough for it.

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