Saturday, February 12, 2011

Rolls-Royce Phantom, 2009

Rolls-Royce Phantom, 2009

 



The Rolls-Royce Motor Cars announced details of a product update to the 2009 model year Rolls-Royce Phantom and Phantom Extended Wheelbase. Building on a successful sales year in 2008, the phased introduction of a number of subtle model year enhancements will reinforce Rolls-Royce Phantom's position as the pinnacle product of the super luxury segment.

Harmonising the front appearance of the car with that of the Rolls-Royce Phantom Drophead Coupé and Rolls-Royce Phantom Coupé, a new streamlined front bumper has been designed and integrated with a shallower grille, finished in stainless steel.

Other new exterior features include LED door handle illumination and the fitting of 21-inch cast aluminium wheels as standard. Two further wheel options exist, both manufactured in forged alloy and available in either painted or part polished finishes.

The Inside, the updated Rolls-Royce Phantom, rear passengers will benefit from a new RCA component input which provides auxiliary audio and visual connectivity to the 12-inch monitors mounted within the picnic tables. Further features include new front and rear door cappings with integrated grab handles and new bi-directional double reading lights in the C-pillar provide additional illumination. Rear climate control, volume control and electric window switches are now conveniently repositioned, housed in a wood veneer panel in the door.
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Rinspeed E2, 2009

Rinspeed E2, 2009


What is Rinspeed E2? It is round, small and cuddly, has eyes to fall in love with, a sexy behind - and on demand 60 or 160 hp as necessary. It is Rinspeed's answer to the fast changing requirements of the market and sociopolitical perception about the tuning industry.' Rinspeed boss Frank M. Rinderknecht hits the nail on the head: "Just like the auto industry has to adjust to the demands of a new era, tuners have to look for new ways to do business as well." The Swiss automobile visionary Rinderknecht, who has his roots in the tuning business, observes a change in people's attitude, at least in the western world: "We need an intelligent use of our fossil resources, especially of our energy".

Rinspeed's creation is based on the Abarth version of the Fiat 500. Its name 'E2' signals the fact that the nimble little Italian car is equipped with two different power levels: The 60-hp 'Commuting' level is more than sufficient to move along with city traffic while saving energy. In this mode the Rinspeed E2 consumes just some four liters of fuel per 100 kilometers. Outside the city, the 'Highway' mode provides driving fun and added power for fast and safe passing. In 'Highway' mode the engine produces 160 lively horsepower and transforms the Italian flea into a venerable hornet. Fuel consumption in 'Highway' mode is in the neighborhood of seven liters per 100 kilometers. The energy management system of the Rinspeed E2 is controlled by a small button in the cockpit that affects the engine electronics.

Rinderknecht believes he is on the right path with his new interpretation of automobile customizing. With the Rinspeed E2 and his Rinspeed iChange Concept, which is much further removed from production, he wants to nudge the automotive as well as the tuning industries in a new direction, to leave well trodden paths and creatively look for new ones: "I don't believe in eco tuning. Many drivers are not willing to miss out on driving fun and don't want to drive a something that announces to the world that they do without. But the number of people who want to use our energy supply responsibly not in the least because they want to protect our environment will grow quickly."
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Friday, February 11, 2011

Land Rover Range Rover Sport, 2010

Land Rover Range Rover Sport, 2010


 
 

The Land Rover Range Rover Sport reaffirms its status as the most exciting and dynamic member of the Land Rover range with a comprehensive package of engineering and design changes for the 2010 model year. The vehicle's stylish new appearance signals the transformation under the skin, which includes two powerful and efficient new engines - the LR-V8 naturally aspirated and

LR-V8 5.0-liter Supercharged, enhanced levels of interior craftsmanship and refinement, and significant improvements to both on-road and off-road driving dynamics.
A comprehensive program of chassis system modifications has transformed the Land Rover Range Rover Sport's on-road dynamics, while also delivering a substantial improvement in its off-road capabilities.

The introduction of new systems such as Adaptive Dynamics, working in conjunction with existing Dynamic Response on Supercharged models, and the addition of the road-focused Dynamic program to the Terrain ResponseTM system help enhance agility and ride quality. Further improvements to the Terrain ResponseTM system ensure that off-road capability is kept at the expected class-leading level.

The Land Rover Range Rover Sport's stylish, muscular exterior has been updated to provide a cleaner, more sculpted feel. Striking signature LED headlamps combine with a new two-bar grille, front bumpers and fenders to create a more sporting and aerodynamic stance. At the rear, new light clusters and a revised bumper design mirror the smoother front-end.

The interior has been comprehensively redesigned, using higher quality materials, soft-touch finishes and superior craftsmanship to create a premium environment which is truly worthy of the Range Rover brand.

New engines deliver exceptional performance and refinement.
The most significant changes on the 2010 Range Rover Sport are to its powertrains. The vehicle benefits from two powerful new engines: 510bhp LR-V8 5.0-liter supercharged and a 375bhp LR-V8 5.0 liter naturally aspirated engine.

The LR-V8 engines are all-new and designed by the Jaguar Land Rover powertrain team using an impressive collection of state-of-the-art technologies. They were developed with an emphasis on delivering a smooth, refined and responsive performance, without a corresponding increase in fuel consumption. Both meet the stringent ULEV2 emissions standards.

The performance of the all-new naturally aspirated LR-V8 is now a virtual-match for the outgoing 4.2L supercharged engine The new naturally aspirated vehicle completes the 0-60 mph sprint in 7.2 seconds (just 0.1 seconds off the pace of the outgoing supercharged unit). For those who want the ultimate performance Land Rover Range Rover Sport, there is now the all-new LR-V8 5.0L Supercharged, which is propelled from rest to 60 mph in an impressive 5.9 seconds.

The engines were developed in conjunction with Jaguar - the first time engines have been designed from the outset with the requirements of both brands in mind. Shared primary objectives included the highest possible torque and fast response from low revs.

The basic engine architecture is the same for each brand, Land Rover engine requirements differ to satisfy demanding all-terrain needs . For example, they feature a deeper sump to accommodate the extreme tilting angles that Land Rover Range Rover Sport may be subjected to off-road. In addition, belt drives are waterproofed, as are the alternator, air conditioning compressor, power steering pump and starter motor.

Direct injection - increased power and torque, low emissions.
One of the key features of the new LR-V8 is an industry first, centrally-mounted, multi-hole, spray-guided fuel injection system, delivering fuel at a pressure of up to 150bar (2175 psi) directly to the cylinder. The positioning of the injectors ensures fuel is precisely delivered to the center of the combustion chamber, maximizing air-fuel mixing, and improving combustion control.

Fuel is delivered by twin, high pressure fuel pumps driven via an auxiliary shaft in the all new engine block. Delivery of fuel direct to the cylinder has substantially contributed to improved low speed, dynamic response which is particularly useful off-road while adding to driving pleasure on-road. The charge cooling effects of the direct injection fuel system have allowed the compression ratio of the naturally aspirated engine to be raised to 11.5:1, further improving the engine economy.

During the engine warm-up phase, the combustion system employs multiple injection mode strategies to deliver 50 percent more heat for fast catalyst warm-up and reduced emissions.

New variable camshaft timing system boosts engine torque, saves energy.
A new type of variable camshaft timing system (VCT) introduces another industry first. The four VCT units are activated by the positive and negative torques generated by opening and closing the intake and exhaust valves, instead of by oil pressure. This has allowed the engine oil pump to be reduced in size, saving energy and reducing fuel consumption.

VCT units work independently on all four camshafts with 62 degrees of authority on the inlet cams and 50 degrees of authority on the exhaust cams. Timing is optimized by the engine control unit for torque, power and economy at every point in the engine's speed range.

The response rate of the new VCT units is 25 percent higher than before with actuation rates in excess of 150 degrees per second. This delivers a more immediate engine response to the driver's demand.
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Land Rover Range Rover, 2010

Land Rover Range Rover, 2010


  

Powerful new engines, advanced interior technologies and enhanced driving dynamics reinforce the position of the 2010 Land Rover Range Rover as Land Rover's most complete luxury all-terrain vehicle. Land Rover's flagship has been comprehensively updated to deliver more refined and efficient performance, along with the ultimate in interior comfort and craftsmanship.

The 2010 Land Rover Range Rover has two brand new 5.0-liter LR-V8 engines - the top of the range 510 bhp supercharged unit, and the 375 bhp naturally aspirated version. Both engines were developed in-house by the Jaguar Land Rover powertrain team, with the requirements of the Land Rover Range Rover in mind from day one.

The LR-V8 engines have been developed to deliver more power and refinement but without a corresponding increase in consumption and emissions. The result is a pair of lightweight direct fuel injection engines with class-leading efficiency, which provide significantly more usable low end torque and superior dynamic responses without compromising power at higher RPM. Both engines are compliant with stringent U.S. ULEV2 emissions regulations.

The performance of the all-new naturally aspirated LR-V8 is now a virtual-match for the outgoing 4.2L supercharged engine. The new naturally aspirated vehicle completes the 0-60 mph sprint in 7.2 seconds (just 0.1 seconds off the pace of the outgoing supercharged unit). For those who want the ultimate performance Land Rover Range Rover, there is now the all-new LR-V8 5.0L Supercharged, which is propelled from rest to 60 mph in an impressive 5.9 seconds.

The 2010 improvements include subtle exterior revisions, featuring discrete changes to the headlights, grille and bumper which enhance the classic Land Rover Range Rover design with more contemporary detailing. The interior benefits from more luxurious materials and finishes which add further refinements to the premium cabin ambiance.

More significantly, the 2010 Land Rover Range Rover uses some revolutionary new interior technologies which enhance the experience for both driver and passengers alike.

A dramatic innovation is found in the instrument cluster. Here, traditional physical instruments are replaced by a 12" Thin Film Transistor screen which presents all essential driver information via cleverly designed 'virtual' dials and graphical displays.
The vehicle incorporates state-of-the-art Adaptive Dynamics technology (optional on LR-V8 naturally aspirated) to further improve the Land Rover Range Rover's peerless ride quality. All-terrain performance is also enhanced by updates to the Terrain Response and Stability Control systems.

The Land Rover Range Rover gets an all-new engine line up with a choice of two 5.0-liter LR-V8 units in supercharged and naturally aspirated guise. The two engines were developed in conjunction with Jaguar, which is the first time engines have been designed from the onset with the requirements of both brands in mind. Shared primary objectives included the highest possible torque and fast response from low revs.

Though the basic engine architecture of both engines is the same for each brand, Land Rover engine requirements differ to satisfy demanding all-terrain needs. For example, the engines feature a deeper sump to accommodate the extreme tilting angles experienced when driving the Land Rover Range Rover off-road, and to accommodate the front differential which attaches to it. In addition, belt drives are waterproofed, as are the alternator, air conditioning compressor, power steering pump and starter motor.

The supremely powerful supercharged LR-V8 delivers 510 bhp and 461 lb/ft of torque, while the naturally aspirated version produces 375 bhp and 375 lb/ft of torque. Two of the most advanced engines ever built, they are packed with innovative features to ensure that they are also two of the most efficient in their class.

Both derivatives were developed with an emphasis on delivering a smooth, refined and responsive driver experience, with excellent power characteristics. Compared to the current 4.2-liter V8 the supercharged engine increases power and torque outputs by 29 percent and 12 percent respectively.

Yet when it comes to regulated emissions both engines are incredibly clean, meeting the stringent American ULEV2 (ultra low emissions vehicle) regulations.

Direct injection - increased power and torque, lower emissions
One of the key features of the new LR-V8 is an industry first, centrally-mounted, multi-hole, spray-guided fuel injection system, delivering fuel at a pressure of up to 150bar (2,175 psi) directly to the cylinder. The positioning of the injectors ensures fuel is precisely delivered to the center of the combustion chamber, maximizing air-fuel mixing, and improving combustion control.

Fuel is delivered by twin, high pressure fuel pumps driven via an auxiliary shaft in the all new engine block. Delivery of fuel direct to the cylinder has substantially contributed to improved low speed, dynamic response which is particularly useful off-road while adding to driving pleasure on-road. The charge cooling effects of the direct injection fuel system have allowed the compression ratio of the naturally aspirated engine to be raised to 11.5:1, further improving the engine efficiency.

During the engine warm-up phase, the combustion system employs multiple injection mode strategies to deliver 50 percent more heat for fast catalyst warm-up and reduced emissions.
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Land Rover Freelander 2 Sport, 2010

Land Rover Freelander 2 Sport, 2010

 
 

In showrooms early 2010, the Land Rover Freelander 2 Sport will be available with two derivatives and two colours - Santorini Black and Lago Grey. Both will feature exclusive 19" limited edition diamond-turned alloy-wheels, a unique two-tone interior together with a rear spoiler, colour-keyed exterior trim and matching door handles and mirror casings.

There is a standard model available in both Black and Lago Grey with cloth interior and one with a sports styling pack available only in Lago Grey.

A unique two-tone interior is introduced on both derivatives, in contrasting Ebony and Storm. The derivative featuring the sports styling pack will offer a leather interior and the standard version with a cloth/leather interior. The sporty theme continues through the cabin, with an Ebony-coloured centre-console and lower fascia complemented with two-tone door casings.

The Sport emblem is embossed on the front and outer rear seat head restraints, with Storm coloured stitching on all seats and unique Ebony interior carpet mats with contrast piping feature throughout.

The Land Rover Freelander 2 Sport is available with the powerful and economical 2.2-litre TD4 diesel power unit. The manual diesel comes with Stop/Start technology delivering an 8% improvement on CO2 emissions compared to the previous manual diesel Land Rover Freelander 2 (from 194g/km to 179g/km) and fuel consumption is reduced (from 37.7 to 42.2mpg - an improvement of 4.5mpg).
The Land Rover Freelander 2 Sport goes on sale in January 2010, priced from £26,695 on-the-road.
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Thursday, February 10, 2011

Ferrari 599 GTB HY-KERS Concept, 2010

Ferrari 599 GTB HY-KERS Concept, 2010

 

Ferrari at the 2010 Geneva Motor Show gives the public its first glimpse of the HY-KERS vettura laboratorio which can reduce CO2 emissions by 35 per cent on the combined cycle (ECE + EUDC). The HY-KERS is based on the 599 GTB Fiorano but importantly, the technology may one day be fitted to all future Ferraris, 8- and 12-cylinders alike, regardless of their engine position. Thanks to ongoing research combined with experience gained in Formula 1, the new technology developed at Maranello actually accentuates the cars' sporty character and driving involvement.

One of the principle objectives of the project is ensuring that Ferrari will be in a position to comply with future CO2 emissions standards, particularly in terms of the urban cycle. City driving is traditionally where sports cars are most penalised as their engines are designed for maximum efficiency and performance at high revs, whereas the urban cycle involves low revs and low engine loads.

There are many original aspects to the new Ferrari hybrid transmission, starting with its architecture. Firstly, weight distribution has not been altered. This is thanks to positioning the batteries below the floorpan of the car, and the use of a compact electric motor coupled to the rear of the F1 dual-clutch gearbox. Not only does this layout not affect dynamic performance, it actually improves it, by lowering the centre of gravity. Cockpit room and luggage space are also unaffected.

Maranello's engineers also employed Ferrari's track experience in the design, engineering and manufacture of this innovative electric motor which produces over 100 hp. The algorithms and control logics controlling the torque, traction and braking distribution functions are directly derived from Formula 1.

The solution adopted for the HY-KERS represents just one of the possible technologies for the future, but in the meantime Ferrari continues to evolve its models and increase their overall efficiency. Thus research continues into reducing drag, improving rolling resistance of tyres and lowering weight as well as working on reducing engine friction to increase efficiency.

Ferrari's research into reducing energy consumption has not been focused merely on its cars but also extends to the various production methods employed throughout the Maranello factory where the entire manufacturing process is carried out, from the foundry to the final assembly. In the course of 2010, Ferrari will cut CO2 emissions by 30,000 tons (-40 per cent) and Particulate Matter (PM) levels by 65 per cent. This will be achieved thanks to the company's photovoltaic system and Italy's largest trigeneration plant (which produces electricity, hot and cold water), making Ferrari entirely self-sufficient from an energy point of view. The reduction also means that Ferrari will meet the Kyoto protocol objectives a full 10 years ahead of schedule and with double the figure imposed on Europe.
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Ferrari 599 GTB Fiorano HGTE, 2010

Ferrari 599 GTB Fiorano HGTE, 2010

 

When it first debuted, the Ferrari 599 GTB Fiorano set a new standard in terms of performance that remains a benchmark for new sports car development to this day. Now Ferrari is introducing the new Ferrari 599 GTB Fiorano HGTE (Handling Gran Turismo Evoluzione) package for the model to further underscore its sportiness and handling.

The package includes a modified set-up with stiffer springs and rear anti-roll bar as well as new calibration settings for the magnetorheological shock absorbers when the manettino is at its sportier settings. The ride height has also been lowered which in turn lowers the car's centre of gravity. This combined with the new set-up helps improve body control. The package also includes specifically optimised tyres featuring a compound that offers even better grip.

The car's electronics have also evolved to ensure even more prompt response to driver commands. The F1 gearbox's shifts are now even faster in high-performance settings, while a new engine software strategy has improved accelerator response.

The exhaust silencer has also been modified with the result producing an even more marked and thrilling sound under hard usage whilst still delivering just the right comfort levels at cruising speed.
The new seats are trimmed in a new two-tone combination of leather with black Alcantara inserts, and the seat backs are trimmed entirely in carbon-fibre. Embroidered in contrasting stitching on the headrest are a Prancing Horse and the words "Handling GTE".
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Honda Odyssey Concept, 2010

 Honda Odyssey Concept, 2010

 

 The Honda Odyssey Concept, on display at the 2010 Chicago Auto Show, introduces a sleek and distinctive exterior styling direction for the next generation of the industry's best-selling minivan, set to debut this fall, American Honda Motor Co., Inc., announced today.

The Honda Odyssey Concept dramatically departs from conventional minivan styling with its low and wide stance, highlighted by a "lightning-bolt" beltline that further distinguishes the vehicle's profile. Compared to the 2009 Honda Odyssey, the Concept's slightly lower roofline (-1.0 inch) and wider stance (+1.4 inch) contribute to a sleeker, stronger and more dynamic presence with improved aerodynamics that help increase fuel economy. Forthcoming improvements to the production Honda Odyssey's interior are designed to further enhance the current model's accommodating space for people and cargo.

The steeply raked front and rear roof pillars, unique side-glass profile, chamfered roof line, and tapered rear cabin shape combine to create a dynamic and distinctive appearance from any perspective. The lightning-bolt beltline dives toward the rear of the vehicle emphasizing the new Honda Odyssey's sporty appearance while enhancing outward visibility for third-row passengers. Aggressive body-to-wheel proportions reduce the perception of vertical height common to most minivan designs. Fender flares further accent the vehicle's securely planted and stylish persona. The concept vehicle's projector beam headlights, LED taillights and form-fit fog lights further heighten the sophisticated quality of the design.

Enhanced aerodynamics and advanced powertrain technologies will contribute to the next-generation Honda Odyssey's increased fuel efficiency. The all-new 2011 Honda Odyssey is expected to achieve an EPA-estimated fuel economy rating of 19 city/28 highway miles-per gallon on select models (preliminary estimate determined by Honda).

Currently in its third generation, the Honda Odyssey's unique array of features, including its superior driving dynamics, 3rd-Row Magic Seat and efficient i-VTEC V-6 engine with three-mode Variable Cylinder Management™ (available) all combine to offer a sophisticated environment with room for up to eight people (seven on Odyssey LX). The Odyssey has been America's best-selling minivan since 2008 and is produced exclusively in Alabama by Honda Manufacturing of Alabama (using domestic and globally sourced parts). Both the concept and production vehicles, along with all development activity for the 2011 Odyssey, are being designed at Honda R&D Americas in Torrance, California, and Raymond, Ohio.

The Honda Odyssey has won numerous awards and critical acclaim. Recent accolades include the Edmunds.com 2010 "Top Recommended" minivan award, U.S. News and World Report 2010 "Best Minivan for the Money" award, Automotive Lease Guide 2010 "Best Minivan for the Money," the Kelley Blue Book award as one of the ten "Best New Family Vehicles of 2009" and "2009 Best Resale Value Award" in the van category, which recognizes vehicles that are expected to have segment-leading resale value after five years of ownership.

Honda Odyssey Concept Basic Dimensions
    * Length: 202.8"
    * Width: 78.5"
    * Height: 68.3"
    * Wheelbase: 118.1"

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Wednesday, February 9, 2011

Opel Astra, 2010

Opel Astra, 2010




The new Opel Astra brings into the compact class its own interpretation of the brand's award-winning design language of combining sculptural artistry with German precision first seen in the Opel Insignia. Its strong sporty lines and elegant details add to a new handsome look.

The exterior of the new generation Opel Astra, which debuts in September 2009 at the IAA in Frankfurt, boasts a strong cab-forward, fluid silhouette. Inside, high quality materials and a total re-think of the design add to the excitement of driving a compact car. Moreover, Opel has added innovative extras - higher quality materials, more storage, improved seats and safer bumpers - to give the Opel Astra comfort, health and safety features not usually seen in the compact class.

The exterior design gives Opel philosophy a new twist
Designers have given Opel's new philosophy an interpretation fitting for the compact class using the same wing and blade styling cues first introduced on the mid-sized Insignia. Sculpted into the side panels of the new generation Opel Astra, the blade sweeps rear ward and upward, connecting with the side window line, giving the car balance and harmony. Eagle eye-shaped headlamps that encompass the prominent signature wing daytime running lights give the Opel Astra face a low, sporty character.

A graceful flowing silhouette connects the muscular shoulder lines with an expressive rear to make it sporty yet elegant. On the front fascia, the next generation Opel Astra re-interprets the new Opel face by using the small upper grille to frame the new Opel logo, while emphasizing the bigger, bolder lower opening so as to create a sportier look.

The inside, design cues used to create driver-focused styling
Echoing the flowing forms of the bodywork, the hallmarks of the interior are sweeping lines and shapes that are executed with care. Interior designers achieve that, for instance, by creating bold, dynamic shapes that use materials intelligently. Everything drivers and passengers touch has been given a refined, high quality feel. In addition,
The interior also continues Opel's recurring wing and blade motifs. In this execution, the blade theme is expressed in details like the shape of the door grab handles and the trim for gearshift molding and steering wheel. The wing design cue is immediately evident in the warm, inviting wraparound instrument panel that embraces front seat occupants. It arcs across the cabin into the top of the door moldings.

Health, safety and comfort added via storage, seats and bumper improvements
The Opel Astra has added practicality through greatly increased storage and clever solutions for a compact class car that include a mini glove box on the driver's side and a drawer under the front passenger seat.
New, high quality seat technology brings added comfort and help to backs. In addition, safety was a major consideration in design. A new, intelligent bumper is intended to minimize damage in front and rear collisions, reducing injury to pedestrians and passengers and saving money in repairs and insurance.

The execution matched by great components and perceptual quality
Opel designers and engineers believe quality execution also must be matched by what the customer sees and feels. Such perceptual quality is particularly important in the interior, where the appearance and tactile properties of all materials must be on a par with their high standard of fit and finish.

The quality of the materials used in the new Astra is evident in such things as the grained, soft-touch surfaces, the textured panels, the quality of the décor, the chrome trim elements, and the feel of operating buttons and switches.
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Opel Insignia Hatchback, 2009

Opel Insignia Hatchback, 2009

 
 

The new Opel Insignia highlights breathtaking design: Both body styles boast a flowing, muscular yet elegant silhouette with a coupé roofline. Designers of the new car deliberately created similar versions to retain the beauty of Opel's latest mid-sized car. The length of both the notch and hatchback, at 4,830 mm, and the wheelbase of 2,737 mm remain the same.

The Insignia's fuel consumption, CO2 emissions and driving dynamics benefit from the aerodynamic efficiency that was perfected during more than 650 hours in the wind tunnel. The result: A class-leading drag coefficient of 0.27.

Offering both the notchback and hatchback from the start is particularly important for markets such as the U.K. and France, where 5-door sedans traditionally enjoy a high market share of the mid-size class segment. German and Spanish customers, on the other hand, generally prefer notchback sedans. Prices for the U.K., Ireland, Germany, Austria and Switzerland will be announced July 22 in London and cars will hit German dealerships before the end of the year. Opel expects both models to sell in about equal numbers.

From the beginning, the Insignia will be launched with a broad line-up of motors. Seven engines will be available; all meet Euro 5 emissions standards and come coupled with six-speed transmissions. The four gasoline engines range from a four-cylinder 115 hp unit to a V6 with 260 hp. Three new direct-injection turbo-diesels exclusively developed for the Insignia feature a displacement of 2.0 liters and power outputs spanning from 110 to 160 hp.

The newly developed chassis can be enhanced with the innovative, integrated FlexRide mechatronic system, as well as the sophisticated Adaptive 4x4. Its lightning-fast distribution of torque over the four wheels ensures top stability and traction while improving dynamic handling performance.
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Opel Insignia, 2009

Opel Insignia, 2009

 

The Opel Insignia elegant styling can be summed up as sculptural artistry meets German precision - a mantra that will be chanted in Opel models moving forward. With the Insignia, Opel successfully has brought the sporty coupé design to the mid-size sedan class without making any concessions in interior space. The Insignia offers three centimeters more knee room than the Vectra. The car also proves to be particularly efficient aerodynamically with a spectacular Cd of 0.27 which positively influences the economic, dynamic and acoustic qualities of the car. Both body variants have identical 4.830 mm length and share the same wheelbase of 2,737 mm.

The new car will hit dealerships in Germany before the end of 2008 and other markets as of January 2009 with a line-up of seven engines. All meet Euro 5 emissions standards and come with six-speed transmissions, either manual or automatic. The four gasoline engines range from a four-cylinder 115 hp unit to a V6 with 260 hp. The three new direct-injection turbo-diesels exclusively developed for the Opel Insignia feature displacement of 2.0 liters. They offer outputs spanning from 110 to 160 hp and excellent torque values ranging from 260 to 350 Nm. All combinations compare competitively in CO2 emissions.

Powerfully Sculpted Lines Give Opel Insignia its Dynamic Look
The design of the new Opel Insignia signals a paradigm shift for Opel by adding emotion back to the brand. Both the notch and hatchback of Opel's new car feature a flowing, muscular silhouette with a sporty roofline. The designers created a powerfully sculpted shape for the body and used the same design cues in the interior, giving the Insignia a premium feel.

Opel has a long successful tradition of building very aerodynamic cars. Just remember the spectacular 1990 Calibra and its Cd of 0.26. With a drag coefficient of 0.27, the Opel Insignia is more streamlined than competitors with underbody shields. The Insignia's fuel consumption and driving dynamics benefit from its sleek, flowing styling which was optimized during more than 650 hours in the wind tunnel.

Redefined design vocabulary
Like the signature crease on the hood, a blade form has been chiseled into the side, signposting a styling element that becomes another defining characteristic of future Opel cars. Other unmistakable design elements include a distinctive radiator grille with a newly-designed Opel emblem as well as sweeping front and rear light forms. The dynamic tapered shape of the wing lighting signature is another Opel Insignia DNA detail.

Echoing the exterior design, the shapes and surfaces of the interior also articulate this promise of exciting mobility and are crafted with high quality materials. The new car's dashboard wraps around from the instrument panel to the door in a very sophisticated way, embracing the occupants. The bold exterior "blade" graphic is echoed in the shape of the interior door grab handle, the steering wheel or the central gear-shift lever.

The designers focused on painstakingly refining the surfaces, carving the crisp intersecting lines and colors; testing the textures, feeling the materials and ensuring all the surface finishes were of the highest quality. At the same time, practical needs - such as good ergonomics and numerous storage compartments - also were given top priority. The orangish-red ambient light that warms the interior also will be found in future Opel models.

Powertrain
The new Opel Insignia launches with a exceptionally broad range of seven engines that all meet Euro 5 emissions standards. The four gasoline engines range from 115 to 260 hp completed with three new 2.0 liter turbo-diesels featuring power outputs of 110, 130 and 160 hp. In the coming months, the powertrain range will be expanded with new, more powerful motors. In addition, an ecoFLEX version with especially low CO2 emissions will join the lineup. In each of their respective power output category, these engines are among the best or the best in fuel consumption and CO2 emissions.

The three diesel and four gasoline engines all come with a six-speed manual gearbox. The top diesel and gasoline units also are available with a six-speed automatic transmission. All-wheel-drive (see chassis chapter) versions, too, can be ordered with the 2.0 Turbo and 2.8 V6 Turbo gasoline engines and later with the more powerful diesel engines.

Opel Insignia Gasoline Engines
The 2.0-liter turbo is new in the Opel mid-size class segment. The 220 hp direct-injection engine is closely related to the sporty unit in the Opel GT. The all-aluminum engine is a powerhouse generating 350 Nm of torque from 2000 to 5200 rpm, with twin balancer shafts to ensure smooth running. Offering strong power allied to economic fuel consumption, it makes a perfect partner for the dynamic, comfortable Insignia. This engine also illustrates the downsizing policy at GM as this 2-liter 4 cylinder can compete with the competitors 5- and 6 cylinders in performance but with lower fuel consumption and emissions.

The entry level gasoline engines are the 1.6 ECOTEC (85 kW/115 hp) and 1.8 ECOTEC (103 kW/140 hp) recently introduced on other models of the Opel range. The top of the line gasoline engine is the 2.8 V6 Turbo developing a generous 191 kW (260 hp) and 350 Nm of torque between 1800 and 4500 rpm.

All gasoline engines feature camshaft phasing - on both intake and outlet sides for the four cylinder units, and on the intake side for the V6. Variable valve timing increases torque at low rpm and plays an important role in reducing fuel consumption as well as meeting new Euro 5 emissions standards.

Opel Insignia Diesel Engines
The new-generation Opel diesel engines in the Insignia feature 2.0-liter displacement, more power and torque, as well as excellent fuel economy. The Opel Insignia launches with 3 versions of the 2.0 CDTI engine developing respectively 81 kW/110 hp, 96 kW/130 hp and 118 kW/160 hp. This last engine variant also powers the Opel Insignia ecoFLEX with lower fuel consumptions and CO2 emissions. All versions come with a maintenance-free diesel particulate filter as standard and meet Euro 5 emission levels.

The engines have two overhead camshafts, four valves per cylinder, and common-rail, multiple fuel direct injection, together with a variable geometry turbocharger for a rapid throttle response at low rpm. Thanks to the large 70-liter tank, the diesel models boast a driving range of over 1200 km between visits to the gas station.
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