Porsche 911 GT3 R Hybrid to make Monterey Le Mans Series debut

Porsche’s 911 GT3 R Hybrid will make a return to North American racing as Porsche Motorsport announced today the entry of the 911 GT3 R Hybrid Version 2.0 in the ModSpace American Le Mans Series Monterey presented by Patrón. The six-hour race on September 17 at Mazda Raceway Laguna Seca is the eighth round of the 2011 American Le Mans Series presented by Tequila Patrón.

“The Porsche 911 GT3 R Hybrid represents one of the best examples ever of technology transfer between race track and showroom,” said Scott Atherton, President and CEO of the American Le Mans Series presented by Tequila Patrón. “It brought an entirely new level of relevance to our platform during its North American debut at Petit Le Mans last year; certainly it stands to do the same during its maiden appearance on the West Coast. Porsche is using its involvement in the ALMS to demonstrate that high performance and fuel efficiency are not mutually exclusive achievements. The benefits of this revolutionary development program will no doubt lead to numerous advancements that will be applied to future Porsche road cars. We are proud that our position as the Global Leader of Green Racing enables such technologies to be put to the ultimate endurance test and actively developed in front of our fans.”

Two Porsche works pilots Romain Dumas (France) and Richard Lietz (Austria) will share the cockpit of the orange and white racer from Weissach. Dumas already has driven the world’s most innovative GT vehicle last year at Road Atlanta’s Petit Le Mans. Lietz piloted the 911 Hybrid at the 24-hour races on the Nuerburgring in 2010 and 2011 as well as at various other long-distance races.

“I’m so looking forward to demonstrating the capabilities of this very special car at race speed to the spectators in California,” said Dumas, a two-time ALMS champion in LMP2 for Porsche. “Many Porsche fans live on the west coast of America, and some of them have already discovered the advantages of the hybrid system at the wheel of a Porsche Cayenne S Hybrid. I’m very excited because Mazda Raceway Laguna Seca is one of the most challenging race tracks on earth. Its layout with a series of up and downhill passages should actually suit our 911 GT3 R Hybrid.”

The outing of Porsche’s hybrid racer at the 24 Hours of Nuerburgring last month was more than heartening. The innovative race car achieved the same quick lap times as its top rivals yet used considerably less fuel. Just two broken transmission flanges and a collision thwarted a potential podium spot.

The Porsche 911 GT3 R Hybrid 2.0 - with two 75-kilowatt electric motors on the front axle supplementing the 465 hp four-liter, six-cylinder power unit at the rear - particularly embodies the philosophy of “Porsche Intelligent Performance”: The electric energy is generated during braking and stored in an electric flywheel. During acceleration, this energy is automatically delivered to the front wheels supporting the combustion engine. This leads to a reduction in fuel consumption and increases the cruising range on the circuit.

Moreover, drivers can manually use the stored energy with a boost-paddle on the steering wheel for overtaking. The 911 GT3 R Hybrid has undergone further development since 2010; compared to its predecessor, its weight was reduced from 1,350 kilograms (2,970 pounds) to 1,300 kilograms (2,860 pounds).

This weekend, the American Le Mans Series presented by Tequila Patrón is at Mid-Ohio Sports Car Course for the Mid-Ohio Sports Car Challenge. The fifth round of the 2011 ALMS championship is set for 3:30 p.m. ET on Saturday, August 6 with ESPN2 airing the race starting at 10 p.m. ET on Sunday, August 7. Live video coverage on race day will be available at 3:15 p.m. ET on ESPN3.com in the US, and americanlemans.com for international viewers. Canadian fans may also watch live coverage on Rogers Sportsnet. Worldwide radio coverage will be available on American Le Mans Radio at americanlemans.com.

Porsche Hybrids Then And Now [video]

When you think of Porsche, you think of power, performance...and hybrid technology? Perhaps not, but from the Semper Vivus to the Panamera S Hybrid, Porsche has actually been in the hybrid game longer than any other major car manufacturer -- over 100 years to be exact.

Porsche Le Mans Return Could be a Hybrid Admits Motorsports Boss

When Porsche returns to the 24 Hours of Le Mans in search of its 17th overall victory in 2014 the famed German sports car maker could rely on hybrid power to do so admits motorsports boss Hartmut Kristen.

Commenting in a release issued by Porsche on its return to the top-tier of sports car racing and the future of the program, Kristen said that, “the integration of our hybrid technology in the vehicle concept is one possible option.” Kristen is cautions, however, admitting that the entire plan would rely on exactly what the rules allow, but you can be certain Porsche is already lobbying the sport’s governing body.

Currently the LMP1 class is dominated by Audi’s R18 diesel race cars, with the only serious rivals coming from Peugeot with diesel technology as well. The reason for their success is fuel economy, with the diesels taking fewer pit stops to refuel. Porsche has already proven with its GT3 R Hybrid race car that it can achieve similar success using hybrid technology, taking the overall win in round four of the Nürburgring Long Distance Championship by requiring one fewer pit stop than the rest of the field. the GT3 R Hybrid uses a modified version of the original GT3 R hybrid powertrain, making 470-hp from a naturally aspirated six-cylinder boxer engine, with an additional 200-hp of electric boost available on demand.

Baring a miracle breakthrough in internal combustion engine technology between now and 2014, look for Porsche to take to the the LMP1 class with a hybrid race car.

Perhaps the bigger question would then be who Porsche will compete against. While Audi is the dominant force in the series right now it’s unlikely the two will square off on the track, considering they are both owned by Volkswagen. Does Porsche’s LMP1 success depend on the end of the Audi program?

Nurburgring 24 Hour qualifying report [video]

The further-developed Porsche 911 GT3 R Hybrid (Version 2.0) with its innovative hybrid drive was not able to match the pace of the fastest vehicles after its performance was capped recently by the organizers due to the car winning the recent 4 hour endurance race at the Nurburgring.

Porsche driver Joerg Bergmeister had to contend with heavy traffic during his fastest lap and only managed 14th. He shares the cockpit of the 911 GT3 R Hybrid with his factory pilot colleagues Richard Lietz, Marco Holzer and Patrick Long.

The second and final qualifying takes place on Friday from 16.55 to 18.55 hours. The 24 hour race gets underway on Saturday at 16.00 hours.

Porsche GT3 R Hybrid wins 4-hour endurance race at Nürburgring

The Porsche 911 GT3 R Hybrid has taken its first competition victory in a four-hour endurance race at the Nürburgring. And hybrid efficiency played a key part in the win.

This goes some way to make up for Porsche’s huge disappointment this time last year when the hybrid 911 race car was just two hours from taking victory in the Nürburgring 24-hour race when a mechanical failure saw it grind to a halt.

Since then the 911 GT3 R Hybrid has raced all over the world, including appearances in the US and China. But that its first major win has come at the ’ring following the disappointment last year must be a great boost for the team behind its development.

Porsche refers to this 2011 911 GT3 R Hybrid as the Version 2.0, the 2011 car 50kg lighter than the first version and weighing in at a respectable 1,300kg. Power in the two motors driving the front wheels has also been increased from 60 to 75Kw each.

This equates to a power boost of 200hp for limited bursts when exiting corners or, on demand via a ‘push to pass’ style button, overtaking. Porsche claims that over a lap of the Nordschleife the hybrid system is equivalent to an additional 32hp.

One of the reasons Porsche has been able to keep the weight down is the use of a kinetic generator rather than heavy batteries. Under braking the electric motors drive a flywheel that then spins at up to 40,000rpm, this energy then used to power the motors under acceleration.

A version of the same system also features in the Porsche 918 RSR concept, revealed earlier in the year at Detroit. But while that’s a concept the 911 GT3 R is a very real ‘rolling laboratory’.

And Porsche will be happy that the car’s efficiency was one of the key factors in its victory, the hybrid pitting twice for fuel while rivals were forced to stop three times. As a result the Hybrid came home seven seconds ahead of a conventional 911 GT3 RSR.

This all bodes well for the 911 GT3 R Hybrid Version 2.0’s return to the Nürburgring 24-hour on June 25-26, the improved efficiency and – hopefully – reliability combined with the proven pace enough, Porsche hopes, to challenge for an outright win.

Electric Porsche Boxster E breaks cover @ Challenge Bibendum

The two Boxster E prototypes which Porsche showed off at the Michelin Challenge Bibendum in Berlin last week have proved to be a real attraction to the public. At this forum for sustainable mobility, which was staged for the eleventh time this year, representatives from politics, industry, trade and research discussed the environmentally-friendly mobility and vehicle concepts of the future.

The trips in the electric Boxsters were in particular demand amongst the expert audience. On a sporty circuit, the vehicles demonstrated that a Boxster with electric drive still remains a genuine Porsche in terms of driving dynamics.

In the wake of the GT3 R Hybrid, 918 Spyder and 918 RSR, the Boxster E is yet another sports car concept exhibiting the brand's characteristic combination of research and driving pleasure.

The Boxster E, with one electric motor apiece on front and rear axle, runs on purely electric power with four-wheel drive and is equivalent to a Boxster S in terms of driving dynamics. Together with two other Boxster Es, in which an electric motor drives the rear wheels, the prototype is being used to explore the everyday practicality of all-electric vehicles and how they are used, especially in terms of driving and battery charging. What the researchers are after is an understanding of the requirements facing future products, where to go next with Porsche Intelligent Performance and how to integrate electric vehicles into the infrastructure.

The practical trials with the three Boxster Es are part of the "Model Region Electro-Mobility Stuttgart" large-scale trial. The Stuttgart model region is being sponsored as part of the Federal Government's "Electro-Mobility in Model Regions" project. The Federal Ministry of Transport, Building and Urban Development (BMVBS) is making approximately 130 million euro available from the Federal Government's economic stimulus package II for eight model regions nationwide. The project is being coordinated by NOW GmbH, the National Organisation for Hydrogen and Fuel Cell Technology.

Thanks to its design as a mid-engine sports car, the Porsche Boxster is the ideal vehicle platform for conducting realistic trials with electric-drive systems. The open-top two-seater car is very light, enabling the new components that are the electric motor, battery and high-voltage technology to be accommodated within the vehicle in a crash proof way. Together with the low drag, this reduces driving resistance for optimal range. Also of importance for a Porsche sports car, even one that is electrically driven, is the high driving dynamics potential, not least as a consequence of the balanced axle-load distribution peculiar to the mid-engine design.

The Boxster E is an all-electric vehicle without any additional combustion engine on board. Propulsion is provided by two independent electric motors with constant mesh gearboxes that act on the front and rear axles. The rear drive unit comprising motor and transmission, together with the power electronics for controlling the electric motor is located where the manual transmission and exhaust system are accommodated in the conventional Boxster. In the front end, the space vacated by the 64-litre fuel tank, now redundant, is occupied by the second drive unit. The power electronics unit in the adjacent luggage compartment serves the front axle electric motor. The Boxster E thereby features all-wheel drive without mechanical transmission of power. To ensure maximum driving stability and traction, a central electric control unit looks after the synchronisation of the two electric motors and controls the drive torque distribution to the front and rear axle.

The two electric motors develop a total power output of 180 kW and a maximum total torque of 540 Nm at a maximum engine speed of approximately 12,000 rpm. That means that the two electric motors in tandem deliver significantly higher drive power than what is available from present day hybrid vehicles' electric-power units. Not only does the Boxster E's all-electric drive produce no emissions – it also offers a completely novel form of driving pleasure. The electric drive's maximum torque kicks in virtually from the first turn of the engine. The Boxster E moves almost silently while at the same time developing powerful propulsion from the very outset. The two motors enable the two-seater to sprint to 100 km/h (62 mph) in 5.5 seconds from a standing start. Its top speed, limited to 200 km/h (124 mph) is achieved without any gear change at all – whether automatic or manual. The two machines' high power output offers a second advantage into the bargain: It means more recovered power is available because more energy can be recovered during braking. This increases efficiency of the drive unit.

In the case of the two other Boxster Es with rear wheel drive there is no front electric motor, which means that they deliver a power output of 90 kW and a rated torque of 270 Nm. They manage the sprint from a standing start to 100 km/h (62 mph) in 9.8 seconds with their top speed being achieved at 150 km/h (93 mph). Because all Boxster Es are comparatively quiet on the road, Porsche engineers have designed an Active Sound Design system that provides drivers with acoustic feedback as well as alerting any passersby.

Irrespective of variant, the heart of every Boxster E is manufactured by Porsche. This lithium-iron-phosphate based traction battery is fitted in place of the combustion engine. Each of its cells has a nominal voltage of 3.3 V and an individual capacity of 20 Ah. Based on the NEDC, the combined energy from 440 individual cells is good for approximately 170 kilometres (107 miles) of driving pleasure in the Boxster E with its ready-for-the-road weight of a mere 1,600 kg. For an overall weight of 341 kg, the battery's energy content is 29 kWh of which for inherent physical reasons approximately 26 kWh are available for use – an outstanding performance for a battery. Its maximum power output is 240 kW, or 60 kilowatts more than the all-wheel Boxster E draws under full load. The battery and power unit components are connected to two water cooling circuits. As with the conventional power unit, the heat exchangers are accommodated behind the front air intakes.

The battery is anchored to the same points on the body structure as the combustion engine in the Boxster S. There are numerous advantages to this, especially in the event of a crash, because by using the same load paths as in the Boxster S, the battery is optimally retained within the vehicle while at the same time being protected from damage by the surrounding body structure thanks to its central position within the vehicle. As with the combustion engine in the production vehicle, the traction battery is installed in the Boxster E from below and can be swapped out very quickly if so required. This is also facilitated by special motor sport fasteners that enable the battery to be disconnected from the cooling circuit without air getting into the system.

The traction battery is charged via a charging cable. Any conventional socket can be used as an energy source. The charging port on the vehicle features an illuminated ring and as with any Porsche sports car the vehicle is recharged at the front end. The charger is accommodated at the front of the car. It converts alternating current from the socket into direct current, enabling the traction battery to store the electric energy. Its charging capacity is a maximum of 3.3 kW meaning that is takes approximately nine hours for a full charge. The charging time can however be reduced using a rapid charging function. There is enough space left over for luggage in the front luggage compartment despite the electronic components; the Boxster E's rear luggage compartment remains unchanged.

It goes without saying that all of the production models' important safety and comfort features are replicated in the Boxster E as well. The new brake system enables an optimal melding of the braking forces of the electrical generators and the mechanical brake system, the Porsche Ceramic Composite Brake (PCCB). The electrically powered air conditioning compressor accommodated in the front luggage compartment ensures comfortable temperatures inside the vehicle.

Not only are the clutch pedal and gearshift lever absent in the Boxster E, there is no rev counter either. In its place is a special E-Power meter in the central instrument cluster display. A swing to the right indicates power call-off and to the left power recovery. Recuperation – namely the recovery of energy by using the electric motors as generators – can be modified by means of the push buttons in the steering wheel. The effect: a sort of on-demand engine brake. Otherwise, when the driver lifts his foot off the accelerator, the Boxster E simply sails on, using the moving vehicle's kinetic energy. Among its other functions, the instrument cluster's right-hand TFT display acts as an intelligent range management system, displaying useful driving information: the range remaining or how many miles can be gained by switching off the air conditioning system.

Porsche 918 Spyder Plug In Hybrid goes on Sale for $845,000

Porsche has today opened the order book for its new 918 Spyder plug-in hybrid supercar - and set the price at $845,000, excluding destination and handling charges.

To ensure the 918 Spyder's worldwide exclusivity, Porsche will produce no more than 918 examples. Start of production at Porsche's famed factory in Stuttgart-Zuffenhausen is planned for Sept. 18, 2013. The first car arrives in November 2013.

The U.S. base manufacturer's suggested retail price is $845,000 (excluding destination and handling charges) or 645,000 euros (£563k) plus VAT and local taxes in Europe.

Unlike the Geneva Motor Show concept car, the Porsche 918 Spyder two-seat production version, based on a carbon fiber-reinforced plastic monocoque, will feature a manual roof system with removable panels that can be stored in the front luggage compartment.

The 918 Spyder will be powered by a unique plug-in hybrid system that will include a high-revving, mid-mounted V8 engine with capacity of more than 4.0 liters and producing at least 500 horsepower.

Two electric motors – one each on the front and rear axles – together will provide approximately 218 additional horsepower. This configuration also will offer an innovative, variable all-wheel drive system with independent control of the drive forces on both axles. Electrical energy will be stored in a liquid-cooled lithium-ion battery that can be recharged from a standard household outlet. Electric-only driving range is expected to be more than 16 miles on the NEDC. Recharge time will depend on each country's electrical power network, but charging is expected to take about seven hours at 110V/10A in the United States. A quick-charge option is being evaluated to further reduce charging times.

With anticipated combined fuel consumption of just 78.4 mpg (3.0 L/100 km) on the NEDC, this equates to CO2 emissions of only 70 g/km or 112 g/mile. On the other hand, the Porsche 918 Spyder will deliver super sports car performance. It is estimated that the final production version will accelerate from zero to 60 mph in about 3.1 seconds on its way to an estimated top track speed of 199 mph. It should also tackle Germany's famed Nurburgring Nordschleife in less than 7 minutes and 30 seconds, two seconds faster than the Porsche Carrera GT. Under the right conditions, the 918 Spyder will be able to drive on electric power alone at speeds up to 94 mph for limited distances.

Customers who order the 918 Spyder also have the opportunity to acquire a special-edition 911 Turbo S Coupe or Cabriolet. Also limited to no more than 918 units, the 911 Turbo S Edition 918 Spyder will have exterior and interior design elements echoing the plug-in hybrid 918 Spyder supercar's styling. It features similar exterior colors, carbon-fiber elements inside and out, enhanced leather equipment and numerous acid-green accents on items such as the brake calipers, illuminated sill plates, interior stitching and instrument cluster needles. A limited-edition badge on the glove compartment door will feature the same production number as the customer's 918 Spyder.

Worldwide 918 Spyder customers can begin ordering this special edition 911 Turbo S sports car today, and customer deliveries will start later in 2011. The U.S. base manufacturer's suggested retail prices for the Coupe and Cabriolet versions are the same as the standard 911 Turbo S models, $160,700 and $172,100 respectively, excluding destination.

Porsche Takes on Nurburgring 24 with 911 GT3 R Hybrid v2.0

Porsche AG will enter the Nürburgring 24 hour race on June 25, 2011, with a more advanced version of the Porsche 911 GT3 R Hybrid. The priority for this latest edition was improvement of efficiency through the targeted optimization of hybrid components, which also resulted in a 20 percent weight reduction. Version 2.0 of the 911 GT3 R Hybrid is intended to achieve the same lap times as its predecessor but with less fuel consumption.

The general layout of the hybrid was adopted from the 2010 model. A portal axle with two electric motors drives the front wheels and supplements the four-liter - depending on the balance of performance classification - approximately 470 hp, six-cylinder boxer engine at the rear. The output of both electric motors has increased from 60 to 75 kilowatts each. For bursts of multiple seconds at a time, drivers now have almost an additional 200 hp at their disposal with the 911 GT3 R Hybrid 2.0. Depending on the programming, this power is automatically activated through use of the throttle pedal. Moreover, pilots can manually call up this extra power, for instance when overtaking.

The electric flywheel accumulator, with its rotor spinning up to 40,000 rpm and storing energy mechanically as rotational energy, is now housed with the other hybrid components in a carbon fiber safety cell on the passenger's side.

At first glance, the new GT3 R Hybrid is clearly distinguishable from the 2010 model. Thanks to the optimization of the hybrid system's high voltage components, the large louvers in front of the rear fenders were no longer necessary. This reduces drag and also lowers fuel consumption. All in all, the weight of the vehicle decreased from 1,350 to 1,300 kilograms.

"We've collected a great deal of information from our races on the Nürburgring, at the ALMS race at Road Atlanta, as well as from the ILMC race on China's Zhuhai circuit. The data was invaluable for the further development of our racing laboratory," says Hartmut Kristen, head of Porsche motorsport. "The emphasis of our work was on improving efficiency. That means we want to keep the lap times consistent with 2010 but use less energy, hence less fuel. In this way, we support future developments of road-going, sporting hybrid vehicles."

The cockpit of the 911 GT3 R Hybrid has also been completely revised. Most of the displays and controls have moved to the steering wheel. Drivers can operate the rest of the functions via backlit buttons now situated on the centre console. Priority was placed on the ergonomics and the clear layout for pilots – particularly in darkness.

The new 911 GT3 R Hybrid is a perfect example of the 'Porsche Intelligent Performance' philosophy, a principle found in every Porsche - more power on less fuel, more efficiency and lower CO2 emissions – on the race track and on the road.

Porsche 911 GT3 R Hybrid Version 2.0

Porsche has announced that they will be entering an improved version of the Porsche 911 GT3 R Hybrid into the upcoming Nürburgring 24 hour race on June 25, 2011. Priority of the new car’s development was given to the improvement of efficiency through the targeted optimization of hybrid components, which also resulted in a 20 percent weight reduction. Version 2.0 of the 911 GT3 R Hybrid is intended to achieve the same lap times as its predecessor but with even less fuel consumption.

The Porsche 911 GT3 R Hybrid Version 2.0 is powered by a hybrid system that combines a 480 HP 4.0 Liter flat six engine placed in the rear with two electric motors that drive the front wheels. The two motors will add an extra 200 HP (100 hp each) as opposed to the 150 HP offered on the first model. This power is automatically activated through the throttle pedal and can be quickly called upon when zipping around a competitor. Other than situations where the extra power can be used to overtake the competition for a few seconds, the Porsche will rely on the 4.0L engine for its stamina.

The other main difference with the new hybrid system is that the flywheel accumulator and other hybrid system components will be housed in a new carbon fibre safety cell positioned in the passenger-side area of the interior. This means these components, previously exposed to heat, won’t need to be cooled by aerodynamic-hindering large vents in the rear haunches. This means Version 2.0 will more slippery through the air.

Overall, the new 911 GT3 R Hybrid Version 2.0 now weighs 1300kg, a 50kg reduction from the previous car's weight of 1350kg. The interior has also been updated, with the displays and controls moved to the steering wheel. According to Porsche, drivers can operate the rest of the functions via backlit buttons now situated on the centre console.





Press Release

Nürburgring 24 hour race

Porsche lines up with an even more efficient 911 GT3 R Hybrid

Stuttgart. Porsche takes up the Nürburgring 24 hour race on 25 June with a further developed version of the Porsche 911 GT3 R Hybrid. Priority of the development was given to the improvement of efficiency through the targeted optimisation of hybrid components, which also resulted in a 20 percent weight reduction. Version 2.0 of the 911 GT3 R Hybrid is intended to achieve the same lap times as its predecessor but with less fuel consumption.

The general layout of the hybrid was adopted from the 2010 model. A portal axle with two electric motors drives the front wheels and supplements the four-litre, depending on the balance of performance classification approximately 470 hp, six-cylinder boxer engine at the rear. The output of both electric motors has increased from 60 to 75 kilowatts each. For seconds at a time, pilots now have almost an additional 200 hp at their disposal with the 911 GT3 R Hybrid 2.0. Depending on the programming, this power is automatically activated through use of the throttle pedal. Moreover, pilots can manually call up this extra power, for instance when overtaking.

The electric flywheel accumulator, with its rotor spinning up to 40,000 rpm and stor-ing energy mechanically as rotational energy, is now housed with the other hybrid components in a carbon fibre safety cell on the passenger's side.

At first glance, the new GT3 R Hybrid is clearly distinguishable from the 2010 model. Thanks to the optimisation of the hybrid system's high voltage components, the large louvres in front of the rear fenders were no longer necessary. This reduces drag and also lowers fuel consumption. All in all, the weight of the vehicle decreased from 1,350 to 1,300 kilograms.

"We've collected a great deal of information from our races on the Nürburgring, at the ALMS race at Road Atlanta in the USA, as well as from the ILMC race on China's Zhuhai circuit, which was an invaluable help for the further development of our racing laboratory," says Hartmut Kristen, head of Porsche motorsport. "The emphasis of our work was on improving efficiency. That means we want to keep the lap times consis-tent with 2010 but use less energy, hence less fuel. In this way, we support future developments of road-going, sporting hybrid vehicles."

The cockpit of the 911 GT3 R Hybrid has also been completely revised. Most of the displays and controls have moved to the steering wheel. Drivers can operate the rest of the functions via backlit buttons now situated on the centre console. Priority was placed on the ergonomics and the clear layout for pilots - particularly in darkness.

The new 911 GT3 R Hybrid is a perfect example of the ‘Porsche Intelligent Perform-ance' philosophy, a principle found in every Porsche: More power on less fuel, more efficiency and lower CO2 emissions - on the race track and on the road.

Porsche releases new Cajun in detail

The new Porsche Cajun baby SUV will be built alongside the Cayenne and Panamera at the company's factory in Leipzig, Germany.

Since its inauguration in 2002, this plant has been producing the Cayenne. After its first expansion, the four-seater Panamera Gran Turismo has been built there since 2009, which is produced in a model mix with the Cayenne. With the plans for the plant to become a full-fledged production for the Cajun along with body assembly line and paint shop, it is said that it will create about 1000 new jobs at Porsche in Leipzig along with even more opportunities created in Zuffenhausen and Weissach.

The Cajun is expected to be derived from the platform of the Audi Q5. Engines are said to include a pair of 3.0-liter V6s, with the normally aspirated version developing 290 horsepower and the twin-turbo unit making 350 hp.

The new "light and easy to handle" Cajun will be released in late 2012 or early 2013.




Press Release

Porsche builds the new "Cajun" in Leipzig

Stuttgart/Leipzig. The decision about the production site for the fifth model line of the Dr. Ing. h.c. F. Porsche AG, Stuttgart, has been taken: The new vehicle with the project designation "Cajun" will be manufactured at the Porsche plant in Leipzig. This was decided by the supervisory board. The monitoring body authorised the board of management to finalise plans for the Saxony plant to become a fully-fledged production site for the "Cajun" including body assembly line and paint shop. Within the context of the Cajun production, at least one thousand new jobs are to be created in Leipzig, and additional new jobs at Porsche in Zuffenhausen and Weissach. Subject to approval by the authorities, construction work at the 400 hectare (1.54 square miles) site is scheduled to begin in 2011.

"During the production of the Cayenne and the Panamera, our Leipzig plant has impressively proved that it can produce premium vehicles of highest quality," says Matthias Müller, chairman of the Porsche AG board of management. "The decision in favour of this location is proof of our trust in the skills and qualifications of our Leipzig associates, and at the same time another contribution to the economic advancement of the region."

Uwe Hück, chairman of the group works council, said: "I am happy that I can sit back now. We had tough but fair negotiations. The employees' representatives have always been convinced that it is worthwhile to make the "Cajun" at our Saxony plant. At the end of the day, the high flexibility and productivity of our colleagues, male and female, has convinced the management board and the supervisory board to produce the "Cajun" in Leipzig. We are therefore very happy that the supervisory board authorised the board of management to plan the expansion of the Leipzig plant and turn it into a fully-fledged factory. The production of the Cajun is a very good sign for Leipzig. However, we cannot rest now but have to start talks about a further expansion of the Zuffenhausen plant in order to adapt our parent plant to future growth, too."

Burkhard Jung, mayor of the city of Leipzig, said: "The decision of the Porsche AG proves yet again that Leipzig with its professional city administration is an attractive, cosmopolitan city and, therefore, an international business site with a future."

With the efficient and agile "Cajun", Porsche extends its SUV segment which is in high demand all over the world. In addition to the new generation of the Cayenne which has clearly managed to strengthen its market position as one of the most successful sporty off-road vehicles in the premium segment, the light and easy-to-handle "Cajun" so typical of a Porsche will create further momentum. As an attractive entry-level modeI, it is expected to pave the way for new, even younger customers to enter the world of Porsche, in addition to the Boxster as the market leader among the two-seat mid-engine sports cars.

Since its inauguration in 2002, the highly modern plant in Saxony, Germany, has been producing the Cayenne. After its first expansion, the Gran Turismo Panamera four-seater has been built there since 2009. It is produced in a model mix with the sporty off-road vehicle. Up until today, Porsche has invested around 280 million euro in Leipzig.

Porsche Panamera S Hybrid 2012 TEST DRIVE [video]

Porsche have released a video of the hybrid version of its Panamera four-door sedan due to be unveiled at the 2011 Geneva Motor Show next month.

Porsche launches field tests with electric Boxster

Porsche has introduced an electric version of its Boxster roadster as part of an e-mobility pilot programme in the southwestern German city of Stuttgart.

The three fully electric prototypes of the small sports car are intended to be “rolling laboratories” that will help engineers gauge the practicality of electric vehicles’ everyday use.

“Electric mobility will be one of Porsche's central challenges in the coming years, and our engineers are ready to meet the challenge with their usual high standards,” said Porsche boss Matthias Müller in a statement released on Thursday.

The e-Boxsters are part of a larger scheme to maximize electric cars in Stuttgart and the surrounding state of Baden-Württemberg.

Scientists will also use the cars to learn about the infrastructure needed to support electric mobility on a mass scale, Müller said.

Stefan Mappus, the premier of Baden-Württemberg, added that the Porsche pilot project is an important one in a state known for automotive prowess.

“Together with the auto industry, we want to further develop methods of sustainable mobility in Stuttgart and surrounding regions,” he said. “Porsche is an important partner in this endeavour.”

Stuttgart is one of eight “model regions” of electric mobility in Germany, where projects for electric vehicles and infrastructure are being tested through mid-2011.

The Federal Ministry of Transportation has committed about €130 million total for the eight regions to research electric mobility.

Transportation Minister Peter Ramsauer praised the progress Porsche has made.

“We need marketable products that excite the consumer and win him over with their functionality,” he said. “That is why we support research into electric vehicles’ everyday use.”

The Porsche Boxster roadsters each have two electric motors with a combined 240 horsepower, and are intended to perform at a level similar to Porsche’s traditional internal-combustion engines. The electronic components used in the cars were manufactured by Volkswagen, which recent took over the sports carmaker.

While BMW, Mercedes, VW and Audi already offer several electric hybrid models, Porsche currently has only one consumer vehicle, the sports-utility Cayenne, available in hybrid form.

Porsche Will Debut New Hybrid Next Month @ Geneva Auto Show

Porsche will likely unveil a hybrid version of its Panamera four-door sedan at the 2011 Geneva Motor Show next month, with possible plans to start selling the car in the U.S. later this year.

The Panamera already has a brake energy recuperation system as standard.

Porsche started making a hybrid version of its Cayenne SUV available in the U.S. late last year. That car, with pairs a V-6 with an electric motor, can drive solely on electric power at speeds up to 37 miles per hour and gets an EPA-rated 21 miles per gallon in combined city and highway driving, compared with an 18 MPG rating for the convention Cayenne S.

Bigger steps towards Porsche's electrification are likely to follow the two hybrid models, as the European Union has given Porsche five years to cut its CO2 emissions by about 15%. Porsche will produce its first electrically-powered sports car, the 918 Spyder, in three to four years.

Last October, new Porsche Chairman Matthias Mueller told reporters at the 2010 Paris Auto Show that the German automaker is testing a plug-in electric concept version of the Panamera sedan, though it has no plans to show the car publicly. The company will also field-test three electric-powered Boxsters starting next year, Porsche said in July.

Porches 918 RSR hybrid will be developed alongside Spyder road car

Porsche’s development boss has insisted the Detroit show-stopping 918 RSR hybrid race car will be developed alongside the open-topped Spyder road project, instead of replacing the 2010 Geneva concept.

The 756bhp RSR mixes the hybrid systems from Porsche’s 911 GT3 R hybrid project, the engine from the RS Spyder race car and the bodywork of the 918 Spyder, modified for vertically opening doors and a roof.

The RSR’s launch at Detroit — marking Porsche’s return to the show after a four-year gap — prompted speculation that the 918 project as a whole had evolved into a hard-top.

But Porsche’s outgoing board member for development, Wolfgang Dürheimer, insisted that the hard-top development would be focused on motorsport. “The road application of this car is the 918 Spyder, There is no decision taken that the coupé type will be available on the Spyder. We learned from the Carrera GT that the driving pleasure of the car is enhanced when you have the possibility to drive open or closed.

“We have always told people interested in the 918 Spyder that it will have a roof concept similar to the Carrera GT’s, with a lightweight carbonfibre panel. A closed car is better for motorsport, though.”

Porsche is said to be in talks with race series organisers about making the car eligible, although sources suggest it could struggle to gain entry to a major event in 2011.

Dürheimer also said the firm is preparing to offer petrol-based hybrids across its entire range in future.

Green Overdrive: Test Drive the Porsche Cayenne S Hybrid [Video]

It's not the greenest battery-powered car on the planet (at between 21 to 25 MPG) but it’s a Porsche so still does 0 to 60 in 6.1 seconds.

ICE + EV gives 380 hp and 428 ft/lb of torque. The Porsche SUV Hybrid retails for $67,700.

Porsche unveils 918 RSR flywheel hybrid racer @ Detroit [Video]

Playing on past glory and hinting at possible future Le Mans ambitions, Porsche have unveiled the 918 RSR at the North American International Auto Show.

The Porsche 918 RSR is a high-end synthesis of successful Porsche hybrid concepts: a medium-sized coupe: it's got kinetic energy storage.

Porsche AG, Stuttgart, is continuing to extend its performance and high efficiency competence via intensive development work in the field of hybrid technology. With the Porsche 918 RSR, the manufacturer of sporty premium vehicles is presenting a high-end synthesis of 2010's successful hybrid concepts. The two-seater mid-engine coupé 918 RSR clearly reveals what happens when the technology fitted in the 911 GT3 R hybrid and the design of the 918 Spyder are transferred to a modern, innovative super sports car.

With its highly-efficient flywheel accumulator, the 911 GT3 R hybrid racing car proved to be an attention magnet during competition racing on the Nürburgring Nord schleife circuit, during the American Le Mans Series races (ALMS) in Road Atlanta/USA and the ILMC run in China's Zhuhai. It demonstrated its massive performance potential under realistic motor racing conditions against top competitors. The 911 GT3 R Hybrid, referred to internally as the "Race Lab" actually surpassed the high expectations of Porsche Motorsport. Competi tive ness, high reliability and exemplary fuel efficiency combined with top performance underscored the Porsche technicians' basic idea of generating additional power in an intelligent manner.

The 911 GT3 R Hybrid obtains its additional power from its own vehicle dynamics when braking. Porsche is now transplanting this technology into the mid-engine coupé 918 RSR, the motor sports version of the 918 Spyder concept car.

From the tradition established by classic Porsche long-distance race cars such as the 908 long-tail coupé (1969) and the 917 short-tail coupé (1971), the Porsche designers created a link to the postmodernism of the "form follows function" philosophy. In the 918 RSR, the lines' elegant flow is dominated by muscular wheel arches, dynamic air intakes and a pulpitlike cockpit. A visible fan wheel between the ram air intake tubes and a rear spoiler with RS Spyder dimensions additionally emphasise the racing laboratory function. The new "liquid metal chrome blue" colour which has been created underscores the sculptured curves of
the forms, whilst the typical Porsche hybrid orange colour on brake calipers and the body's longitudinal stripes lends remarkable touches.

Motor racing technology also dominates within the particularly light, torsionally stiff carbon fibre reinforced plastic (CFRP) monocoque. The V8 engine is a further development of the direct injection engine from the successful RS Spyder race car and now offers an output of precisely 563 hp at 10,300 rpm in the 918 RSR. The electric motors on the two front wheels each contribute 75 kW, i.e. a total of 150 kW, to the peak drive power of exactly 767 hp.

This additional power, which is generated during braking, is stored in an optimised flywheel
accumulator.

In the 918 RSR, the two electric motors offer a torque vectoring function with variable torque distribution to the front axle. This additionally increases agility and improves steering response. Mounted upstream of the rear axle, the mid-engine is integrated with a racing transmission also based on the RS Spyder race car. This further developed six-speed constant-mesh transmission with longitudinally mounted shafts and straight-toothed spur gears is operated using two shift paddles behind the racing steering wheel.

The vehicle's functional equipment underscores its puristic motor racing character. Whether it be the characteristic doors which open obliquely upwards, the air intake in the roof between the wing doors, the quick-action locks on the front and rear CFRP lids, the two roof-mounted aerials for pit radio and telemetry, the RS Spyder-like small, lateral front flics or the air splitters beneath the front lip or no-profile racing slicks on 19" wheels with central locking, the vehicle can be clearly recognised as an experimental racing laboratory.

In contrast to the 918 Spyder concept car, unadorned racing atmosphere predominates in the interior of the 918 RSR. The figure-hugging bucket seat's brown leather covering cites the history of the gentleman driver; the gear flashes on the racing steering wheel and a recuperation display on the steering column in front of the display screen supply the pilot with information. Instead of the futuristic, ergonomically avant-garde centre console with touch-sensitive user interface from the 918 Spyder concept car, the 918 RSR's cockpit is split by a minimalistic console with rocker switches. Instead of a second seat, the flywheel accumulator is positioned to the right of the console.

This flywheel accumulator is an electric motor whose rotor rotates at up to 36,000 rpm to store rotation energy. Charging occurs when the two electric motors on the front axle reverse their function during braking processes and operate as generators. At the push of a button, the pilot is able to call up the energy stored in the charged flywheel accumulator and use it during acceleration or overtaking manoeuvres. The flywheel is braked electro magnetically in this case in order to additionally supply up to 2 x 75 kW, i.e. a total of 150 kW, from its kinetic energy to the two electric motors on the front axle.

This additional power is available for around eight seconds when the system is fully charged. In the successful 911 GT3 R Hybrid, this additional power can also be used as a consumption aid depending on the racing situation, e.g. to delay pit stops or reduce the fuel tank volume and therefore the weight of the vehicle.

With the new 918 RSR racing laboratory, Porsche is now elevating this motor racing hybrid concept to an experimental level. In the 918 RSR, "Porsche Intelligent Performance" equates to research into methods for further sustainable efficiency improvement under the intensified conditions of the race track, lap times, pit stops and reliability – a metier in which Porsche has been demonstrating its success for over 60 years.

Finally, the starting number, 22, pays homage to the anniversary of a further triumph. Back in the days when overall victories in Le Mans were not yet an entirely routine matter within the Porsche racing department, the pilots Dr. Helmut Marko and Gijs van Lennep were the first to cross the finishing line in 1971's 24-hour classic. The distance record set by their Porsche 917 short-tail coupé – 5335.313 kilometres (3315.21 miles) at an average speed of 222.304 km/h (138.13 mph) – did not remain unbeaten for an eternity, but for exactly 39 years until 2010. At the time, the 917 in the Martini colours was also an experiment and far ahead of its time: a magnesium space frame set new standards in Porsche's lightweight
construction domain.

(click on picture for HiRes)

Porsche Admit 918 Spyder plug-in Hybrid Gaming Environmental Law

Germany's Spiegel Auto reports Wolfgang Dürheimer, Executive Vice President of Research and Development at Porsche AG, admits Porsche have designed the 918 Spyder hybrid sportscar to take advantage of European fuel efficiency regulation loopholes.

That would explain why the 918 Spyder has an EV mode range of just 25 km (16 mile), as this is the minimum standard set in regulations for electric cars in Europe. Or as Dürheimer puts it: "We read a regulation and build the car accordingly."

As it happens, a 25km range is just enough to pass the European fuel efficiency test, thereby qualifying the Porsche 918 Spyder as a "3-liter car" (3L/100km or 78mpg), allowing Porsche customers to drive straight through the most favorable automotive regulation loopholes as they power down the autobahn in their 320 km/h (198 mph) roadster powered by a high-revving V8 developing more than 500 horsepower.

New Porsche Panamera PS9 Unveiled At Essen Motor Show

The famous sports car brand, Porsche showed up with its new Panamera PS9 at the Essen Motor Show. The German tuning house releases some of its images of that motor show where the Porsche can be seen embedded with its sports package that bundles aerodynamic add-ons with some performance upgrades and four different power kits for the turbo model.

As usual, the PS9 aerokit includes a front spoiler with an integrated brake cooling system with rigid side skirts, engine hood air vents, air outlets coming through the rear bumper, a fixed rear spoiler and a rear diffuser that houses a twin tail pipes. That's not it. Its a complete package deal. You also get a set of 22 inch alloy wheels along with high performance tires of 265/35 and 305/25 ZR22


Coming to the new Porsche's interior, the steering's covered with leather, pedals of two sizes which are 340 and 365 mm are F1-shift type. You have a choice of selecting the pedals in wood, aluminium or carbon fiber. Door panels and seats are stitched with color threads, exclusive floor mats and carbon fiber decorative trim available in various shades.

The new Porsche Panamera PS9 has an upgraded turbo chargers,sports air filter, sports exhaust system and an effecient ECU. All these upgrades really pimps out the car and results in increased horsepower of 600 to 650 and produces an immense torque of 890 Nm. The new Panamera has an ability of boosting from 0 to 100 km/h in just 305 secs. The manufacturers have not only concentrated on the speed and acceleration. In order to bring a fast moving to a halt, sure require some extra ordinary brakes system. So an upgraded brakes system has been installed with modular 380 mm and 6 piston brake callipers.

2011 Porsche Sport Cars Cayman R

2011 Porsche Sport Cars Cayman R

A couple days ago Porsche released a press statement saying that it will unveil a new “mid-engine sports car” at the 2010 Los Angeles Auto Show, it’s 2011 Porsche Cayman R. The Porsche alphabet reserves the letter R for very special sports cars: R for responsive and refined – but most especially for racy. The new Cayman R combines all these attributes without compromise. 2011 Porsche Sport Cars Cayman R has further developed the car by reducing weight, increasing horsepower and raising agility and handling to new heights.

Weighing 55 kg less than the equivalent Cayman S, and the new mid-engine coupé from Dr. Ing. h.c. F. Porsche AG, Stuttgart, is designed for spectacular road behaviour, the 330 hp Porsche Cayman R has been created for one reason: pure, distilled driving dynamics. With its highly-tuned sports suspension and vigilant attention to weight savings, the new Cayman model offers a driving experience even more precise than that of the acclaimed Cayman S. The 2011 Porsche Sport Cars Cayman R makes its world debut today at the Los Angeles Auto Show.

2011 Porsche Sport Cars Cayman R

Power for the 2011 Porsche Sport Cars Cayman R comes from a tuned 3.4L inline 6-cylinder engine making a total of 330-hp allowing for a 0-62 mph time of 5 seconds when mated to a 6-speed manual and 4.9 seconds when mated to Porsche’s 7-speed PDK transmission. Adding the optional Sport Chrono packages brings the 0-62 mph time down to 4.7 seconds. Top speed for the 2011 Porsche Sport Cars Cayman R comes in at 175 mph with a 6-speed manual and 174 mph with the PDK.

For interior 2011 Porsche Sport Cars Cayman R has features Alcantara and leather upholstery, sport seats, strap door handles and a painted console color-keyed to the exterior. Under the skin, the suspension has been enhanced with shorter, more rigid springs and there are customized anti-roll bars on the front and rear axles (the ride height is about 20 millimeters lower than the Cayman S).

2011 Porsche Sport Cars Cayman R

Tracing its lineage back to the famous mid-engined 904 coupes of the 1960s, the Porsche Cayman R celebrates its world premiere at the 2010 Los Angeles Auto Show on November 17, 2010.

The new 2011 Porsche Sport Cars Cayman R will go on sale from February 2011, priced from £51,731 ( $66,300 ) and the price in Germany will be EUR 69,830 inclusive of 19 percent VAT and country-specific equipment items. Go to www.porsche.com/cayman-r-live to listen to the Porsche press conference broadcast live from the Los Angeles Auto Show starting 7:55 p.m. German Time.

2011 Porsche Sport Cars Cayman R