Mercedes-Benz CLS Shooting Brake (2013)

Mercedes CLS Shooting Brake

The new Mercedes-Benz CLS Shooting Brake once again sets an example when it comes to creativity of design, and as such highlighting its leading role in this area: in terms of its proportions, the new CLS is quite clearly a coupé, but with five doors and a roof which continues through to the rear, it promises some remarkable new possibilities. The idea of the four-door coupé - successfully introduced in 2004 with thefirst CLS and long imitated in the meantime - has now been taken to new heights and to innovative effect. The result is automotive independence at its most beautiful.

According to CEO Dr. Dieter Zetsche: "Any memorable machine is equal parts art and science. A car has to first deliver in function - the ticket of entry - and then in fascination: the ticket to real excitement. The Mercedes-Benz CLS Shooting Brake excels on both accounts - unlike any other car in the market".

The proportions of the Mercedes-Benz CLS Shooting Brake are surprising but clearly those of a coupé, and create a basic stance which makes it look ready for the off: the long bonnet, narrow-look windows with frameless side windows, and dynamic roof sloping back towards the rear. It is only when taking a second look that it becomes clear that the Shooting Break actually has five doors and offers "more" in terms of function.

In essence it represents an unprecedented version of a sports car with five seats and a large tailgate. It is a special proposition for people looking to differentiate themselves from the mainstream, and who do not wish to compromise on either sportiness or stowage space when it comes to travelling in style. The Shooting Brake is a further highlight in the innovative luxury vehicle series from Mercedes-Benz and, like the CLS Coupé, has the potential to become the role model for a new market segment.

"The CLS Shooting Brake is based on the great tradition of stylish sportiness which has always characterised Mercedes, and takes these unique icons an exciting step further", explains Gorden Wagener, Head of Design at Mercedes‑Benz. "It stands for the enhanced design idiom of Mercedes-Benz which is oriented towards aesthetic, avant-garde principles". This is seen in the impressive series of market-defining new vehicle concepts, such as the SLK for example, which in 1996 established a genre as the first Roadster with a retractable steel roof, the M-Class as the first premium SUV in 1998, or the first four-door CLS Coupé in 2004.

Exclusive innovation in the interior: wooden luggage compartment floor

The second generation of the CLS set high standards in terms of the design and quality of the interior: straightforward elegance combined with innovative details and handcrafted perfection. The Shooting Brake also applies this same aspiration in the luggage compartment. It is lined with high-quality carpet, and the hand-stitched material is also incorporated into the sideliners in conjunction with leather appointments. Optional designer loading rails made of aluminium give an even more exclusive look.

An extravagant and unique feature for the automotive industry is the designo wooden luggage compartment floor, which serves to underscore the hand-finished nature of the interior. Cherry tree wood is a classic among fine wood species and contrasts perfectly with the inlaid smoked oak and aluminium rails. This affords the luggage compartment a touch of elegance normally found on yachts, combined with the exciting worlds of technology and precision craftsmanship. The wood is characterised by its flexibility and elasticity, as well as its density and fine texture. For the luggage compartment floor made of American cherry tree wood, selected veneer sheets are glued and pressed together by hand in five cross-bonded layers to achieve high dimensional stability. The blanks are milled into their precise shape using a CNC machine, and the surfaces sanded to a smooth finish and waterproofed to maintain the natural beauty of the wood. Inlaid work using darker smoked oak, precisely cut into three millimetre strips using laser technology, helps to enhance the design of the wooden floor. The lavishly produced aluminium rails have a brushed finish and rubber inserts, and not only help to protect the wooden floor but also feature anti-slip properties.

The CLS coupé already set new standards in interiors with its wide variety of individualisation options. The Shooting Brake also offers five interior colours, five trim designs and also three qualities of leather to choose from. Customers have a choice of three exclusive wood types: high-gloss brown burr walnut, high-gloss black ash and satin-finish light-brown poplar. The interior is given an even more progressive look with the addition of piano lacquer or AMG carbon fibre/black piano lacquer trim elements. A completely new addition comes in the form of porcelain interior appointments which afford both CLS models a sense of luxury normally found in the S-Class. The Mercedes-Benz CLS Shooting Brake also lives up to its role as a design icon thanks to the innovative nature of the materials used. These comprise a mixture of satin and high-gloss finishes used on the metal surfaces.

A new dimension in vehicle concepts: the four-door Shooting Brake

No-one likes to have to compromise: even when the focus is not on the practical elements of the design of the Shooting Brake (length x width x height: 4956 x 1881 x 1413 mm), the new CLS model still has some trump cards up its sleeve. With a load volume of between 590 and 1550 litres, the luggage compartment offers a lot of room despite the flat, sporty lines of the roof, and is easy to use thanks to the automatically opening tailgate fitted as standard. A load compartment cover also protects luggage from prying eyes.

The standard air suspension at the rear helps to ensure optimum road holding at all times. For additional flexibility, the rear seat backrests can be folded down from the luggage compartment as standard. The rear seats themselves provide room for three people, with individual seats on the outsides and a third seat in the middle. The three saddle-type head restraints on the rear seats barely affect the view towards the rear, and can be lowered at the touch of a button by the driver. An optional trailer coupling is also available.

Dr. Joachim Schmidt, Board Member of Mercedes-Benz Cars responsible for Sales & Marketing, sums it all up: "The new CLS Shooting Brake represents a new dimension in vehicle concepts and offers discerning customers independence at its most beautiful."

Lightweight construction and aerodynamics: important contributions to efficiency

Intelligent lightweight construction plays a decisive role in bridging the classic conflict between the objectives of low weight and high strength in the Mercedes-Benz CLS Shooting Brake. The model features frameless, all-aluminium doors made from deep-drawn aluminium panels with extruded sections, and in comparison with conventional steel doors, are some 24 kilograms lighter. The tailgate, bonnet, front wings, various support profiles and substantial parts of the suspension and engines are all made of aluminium too.

The aerodynamics also make a significant contribution to the efficiency of the Mercedes-Benz CLS Shooting Brake. With a frontal area of 2.30 m² and a Cd value of 0.29, the drag area is 0.67 m².

Drive system: powerful and efficient

The Mercedes-Benz CLS Shooting Brake is available with four different engine variants - two diesel engines and two petrol engines. Features common to all engines include the 7G-TRONIC PLUS automatic transmission as well as the ECO start/stop function. In addition, two models are available with all-wheel drive: the CLS 350 CDI 4MATIC BlueEFFICIENCY and the CLS 500 4MATIC BlueEFFICIENCY.

The entry-level model is the CLS 250 CDI BlueEFFICIENCY producing 150 kW (204 hp). Combined fuel consumption is 5.3 litres of diesel per 100 kilometres, an excellent level for this performance class and equivalent to CO2 emissions of 139 grams per kilometre. Coming in above this are the two six-cylinder models: the CLS 350 CDI BlueEFFICIENCY producing 195 kW (265 hp) and the CLS 350 BlueEFFICIENCY producing 225 kW (306 hp). The top-of-the-range model is the CLS 500 BlueEFFICIENCY with a V8 biturbo engine producing 300 kW (408 hp).

Efficiency is also increased by the standard electro-mechanical power steering EPS (Electric Power Steering). EPS is a radical move in the relationship between the driver, car and road surface. This is because for the first time, it gives engineers the freedom to choose and programme many of the parameters that influence steering feedback. So they defined a Mercedes-Benz feeling behind the wheel. In addition to fuel economy, the result is a considerable improvement in handling and agility. The electromechanical power steering also enables another innovation to be implemented - Active Park Assist. The Mercedes-Benz CLS Shooting Brake is not only able to detect parking spaces, but can also park automatically.

Another world exclusive: dynamic full LED headlamps

The CLS was the first passenger car in the world to offer optional dynamic full LED High Performance headlamps, which combine the exciting colour elements of LED technology - similar to those of daytime driving lights - with the performance, functionality and energy efficiency of today's bi-xenon generation. Some 95 percent of all customers have opted for these lights in the CLS Coupé. Of course, as the world's second car to feature this optional extra, the Mercedes-Benz CLS Shooting Brake also offers the new light system. For the first time ever, it provides the Intelligent Light System already proven in Mercedes models fitted with bi-xenon headlamps in combination with LED technology. The headlamps, with their 71 LED lamps in total, look exciting; and they serve to underline the unmistakable appearance of the CLS. The light specialists from Mercedes-Benz have for the first time been able to use LED technology in the innovative Adaptive Highbeam Assist, resulting in an entirely new quality of illumination when driving at night.

In contrast to the first vehicles equipped with LED headlamps, no compromises are now necessary with respect to the functionality and performance of the lighting technology. There are further arguments for LED-based lighting technology: the average operating life of an LED is around 10,000 hours, around five times longer than that of a xenon light; moreover, LED headlamps most closely approximate to the colour of daylight. This means that LED light is in keeping with the normal human perception patterns and that the driver experiences significantly more brightness on the road at night. Studies have shown that the closer the colour of artificial light comes to daylight, the less the strain on the eyes. With a colour temperature of 5500 kelvin, LED light is closer to daylight (6500 K) than xenon light (4200 K).

More than a dozen driving assistance systems help to prevent traffic accidents and reduce the severity of an accident. Active Blind Spot Assist and Active Lane Keeping Assist are available as part of the Driving Assistance package Plus, in combination with DISTRONIC PLUS, BAS PLUS and the PRE‑SAFE® Brake. Both assistance systems are not only able to detect an unintentional lane change or vehicles in the blind spot, but can also correct the direction of travel by gentle brake intervention if the driver ignores the visual or audible danger warnings.

It's all in a name: the origins of the name "Shooting Break"

Break, or the homonym Brake, was the name once given to carriages used to "break" in wild horses and also to restrict (or "brake") their urge to move, so that they could be put to use as work horses. Since the carts could easily be broken as part of this process, people tended not to use ones which they may have urgently needed for other purposes. Where necessary, "Brakes" were often fitted out with variable bodies, which were only really used to carry along anything that may have been necessary for the hunt, for example. Any such vehicle which was used when going out shooting was called a Shooting Brake or Shooting Break. Motorised Shooting Brakes were popular in England in the 60s and 70s - exclusive two-door sports cars, which combined the luxury and style of a coupé with a larger load compartment and large tailgate.

Cadillac ATS (2013)

Cadillac ATS

Cadillac introduced the 2013 ATS, an all-new compact luxury sports sedan intended to challenge the world's best premium cars. Developed on an all-new, lightweight vehicle architecture, Cadillac's entry into the world's most significant luxury car segment goes on sale in summer 2012.

The rear-drive ATS brings Cadillac's blend of technologically driven performance, elegance and design to a new audience of spirited drivers. Its sophisticated driving experience is enhanced with Cadillac CUE, a comprehensive, in-vehicle user experience that merges intuitive design with industry-first controls and commands for information and media data.

"Designed with quick, nimble and fun-to-drive dynamics, ATS expands Cadillac's portfolio into a crucial global segment," said Don Butler, vice president of marketing for Cadillac. "For a new group of luxury consumers, this is a car that will fit their lifestyle and challenge the segment's status quo."

The Cadillac ATS is a new expression of Cadillac's Art & Science execution philosophy, built on a foundation of driving dynamics and mass efficiency. It is the most agile and lightweight Cadillac, with one of the lowest curb weights in the segment - less than 3,400 pounds (1,542 kg).

Germany's famed Nürburgring served as one of the key testing grounds, along with additional roads, racetracks and laboratories around the globe, ATS engineers balanced performance with Cadillac's trademark refinement. Contributing components and features include:

• Nearly 50/50 weight balance
• Cadillac's first five-link independent rear suspension using lightweight, high-strength steel and efficient straight link designs
• A multi-link double-pivot MacPherson-strut front suspension with direct-acting stabilizer bar
• Driver-adjustable FE3 sport suspension with Magnetic Ride Control real-time damping
• Underbody aerodynamic shields
• Premium (belt driven) electric variable-effort steering gear from ZF Steering Systems
• Four-channel ABS with available Brembo performance brakes
• Available all-wheel drive

"More than just another new entry, the Cadillac ATS aims to change the status quo of the European-dominated segment," said Butler. "That is why our approach in all elements of its development is so extensive and focused."

A broad lineup of engines - including two four-cylinders and a V-6 for North America - delivers strong power to the Cadillac ATS and capitalizes on the car's lightweight structure to complement its performance with efficiency. The optional engines include an all-new 2.0L turbocharged four-cylinder rated at 270 horsepower (201 kW) and Cadillac's award-winning 3.6L V-6, estimated at 318 horsepower (237 kW).

At 135hp/L, the new 2.0T is one of the most power-dense engines in the industry, topping engines from European competitors. Cadillac ATS will offer both manual and automatic transmission options, along with rear-wheel and all-wheel-drive configurations.

The Cadillac ATS will deliver peak highway fuel economy of more than 30 mpg.

A spirit of lightness and balance

Making the Cadillac ATS one of the segment's lightest cars was a fundamental criterion for and the guiding principle during its development, but it was done in a nuanced manner that ensures a refined driving experience.

"Low weight gives the Cadillac ATS a more nimble and controllable feel, while also optimizing the performance and efficiency of the powertrains," said David Masch, ATS chief engineer. "But we were careful to manage the weight while maintaining Cadillac's signature levels of refinement."

Optimizing the Cadillac ATS's mass was the result of a four-pronged philosophy that included strict adherence to original architectural goals, measured load management throughout the vehicle, benchmarking components to see if lighter solutions were available and an overall culture that "weighed" the mass of every component in the car against all aspects of its development.

An aluminum hood, magnesium engine mount brackets and even lightweight, natural-fiber door trim panels contribute to the Cadillac ATS's low overall mass - and reflect the systematic approach of evaluating every gram that went into the car. But some weight was deemed not only beneficial, but essential to the Cadillac ATS's driving experience. An example is the cast iron differential: Engineers found they could improve fuel economy with a cast iron differential rather than a lighter aluminum version.

And while the rear suspension is mostly steel, the focus on load management and straight links enabled significant weight savings without using alternate materials. This helps offset the weight of the engine and transmission at the front of the vehicle, helping the Cadillac ATS deliver its near-perfect 50/50 weight balance, while also contributing to lower noise and vibration. A similar approach was taken on the wheels, where extra structural aluminum was strategically added to further reduce vibration.

"We approached development by counting all the grams in the ATS," said Masch. "We minimized them where we could and put them to the best use where they were needed."

Tailored design weaves in signature style and refinement

The 2013 ATS interprets Cadillac's Art & Science design language in a new proportion, tailoring the signature styling and refinement cues for the most compact Cadillac while upholding - and advancing - the exemplary attention to detail and technological elements for which the brand is known.

A long, 109.3-inch (2,775 mm) wheelbase and wide front/rear tracks are the cornerstones of the Cadillac ATS's firmly planted stance, which is enhanced by short overhangs and taut sheet metal that appears to wrap tightly around the tires. Seventeen-inch wheels are standard and 18-inch wheels are available.

Bold vertical lighting elements - including new LED front signature lighting detail - as well as illuminating door handles and active grille shutters lend technologically advanced style and function to the Cadillac ATS. The grille shutters close at certain highway speeds to reduce aerodynamic drag and enhance fuel economy.

A driver-focused interior with integrated technology and crafted materials complements the exterior elements and supports the ATS's driving experience. Everything from the placement of the pedals to the position of the shifter is designed for effortless and intuitive performance driving. Available performance seats have power-adjustable bolsters to optimize lateral support during high-load cornering.

Contributing to the interior's intuitive feel is an instrument panel that wraps into the doors and a center stack in the mid-instrument panel that flows into the center console. LED lighting for the bold gauge cluster enables clear, at-a-glance viewing in all lighting conditions, while ambient lighting accents functional elements of the console and doors.

Real wood, plated metal plating and carbon fiber trim and Cadillac's cut-and-sew instrument panel, console and doors enhance the emotional connection to the Cadillac ATS. Choices of many interior color themes, each with unique accent trim material, cover a wide range of flavors - from light, open and warm to black and serious, to bold, technical and sporty.

CUE and ATS technologies

The ATS is offered with Cadillac CUE, a comprehensive, in-vehicle experience that merges intuitive design with auto industry-first controls and commands for information and entertainment data. It is designed to be unique for each consumer, from the "simple user" to the fully connected "super user."

CUE, which stands for Cadillac User Experience, pairs entertainment and information data from up to 10 Bluetooth-enabled mobile devices, USBs, SD cards and MP3 players with a vehicle infotainment system that reduces complexity through customized information, voice commands and fewer buttons and larger icons. For example, most of today's luxury cars have around 20 buttons controlling the radio and entertainment functions. CUE has only four.

The heart of CUE is the eight-inch LCD multi-touch sensitive screen, seamlessly integrated into the top of the central instrument panel and a motorized fully capacitive faceplate at the bottom concealing a 1.8L storage area. The vibrant LCD screen displays CUE's home page, which resembles a smart phone's screen by using large, easy-to-target icons to execute commands. Capacitive technology refers to using electrodes to sense the conductive properties of objects, such as a finger.

In addition to CUE, the ATS is offered with other technologies, including:

• Bluetooth phone connectivity with voice recognition
• USB, auxiliary and SD memory card ports
• SiriusXM Satellite Radio with three-month trial subscription
• Keyless access and keyless push-button start
• Reconfigurable 5.7-inch instrument panel cluster display
• Full-color reconfigurable heads-up display.

The Cadillac ATS is offered as a well-equipped standard model and in Luxury, Performance and Premium Collections. A Bose® Cabin Surround audio system is offered on the standard model, as well as Luxury and Performance Collections. It is standard with the Premium Collection. A navigation system is also available with Luxury and Performance Collections and standard with the Premium Collection.

'Control and alert' safety strategy

Safety in the ATS is based on Cadillac's "control and alert" strategy that employs advanced technologies - including radar, cameras and ultrasonic sensors - to help prevent crashes.

The safety features bolster driver vision and awareness of road hazards, and intervenes to help the driver avert potential crashes. In some cases, Cadillac's advanced crash-avoidance systems will act without the driver, such as automatic braking, which will activate based on information indicating potential hazards.

Among the most sophisticated of the features is Front and Rear Automatic Brakes. This relies on short-range radar technology and ultrasonic sensors to help the driver prevent front and rear low-speed collisions via a progression of alerts that extend to complete braking, if necessary.

Optional advanced safety features include:

• Full Speed Range Adaptive Cruise Control
• Intelligent Brake Assist
• Forward Collision Alert
• Brake Pre-Fill Automatic Collision Preparation
• Lane Departure Warning
• Side Blind Zone Alert
• Rear Vision Camera With Dynamic Guidelines
• Adaptive Forward Lighting
• Hill Hold/Start Assist (Standard, manual transmission)

The advanced technology safety features complement the Cadillac ATS's roster of other safety features, including eight standard air bags (10 with optional features), safety belt pretensioners and load limiters, StabiliTrak electronic stability control system with traction control and four-wheel disc brakes with four-channel ABS.

2013 Cadillac ATS also features OnStar standard for one year. It can use GPS and cellular phone technology to automatically call for help in the event of a crash. OnStar service also includes myCadillac and OnStar myLink mobile apps, which offer vehicle information, controls and OnStar services via the customer's iPhone or Android smart phone.

ATS Delivers New Levels of Control and Refinement

The 2013 Cadillac ATS delivers a driving experience that advances the brand's performance legacy with a balance of racetrack-honed control and uncompromising refinement.

That experience is supported by new chassis and suspension systems, excellent power-to-weight ratios across ATS's power-dense powertrain lineup and a robust body structure that enables finer chassis tuning and greater crash protection. Highlights of the chassis and suspension features include:

• Cadillac's first five-link independent rear suspension, using high-strength steel and efficient straight link designs
• A multi-link, double-pivot MacPherson-strut front suspension with direct-acting stabilizer bar
• Driver-adjustable FE3 sport suspension with Magnetic Ride Control real-time damping
• Premium electric variable-effort steering gear by ZF Steering Systems
• Four-channel ABS with available Brembo performance brakes
• Available all-wheel drive.

Before selecting even the first fastener, engineers launched targeted research projects that helped determine the best design and optimal geometries for the front and rear suspensions. Early suspension prototype vehicles were constructed and tested in diverse environments, before complete Cadillac ATS prototypes hit the pavement at GM's global proving grounds, as well as highways and racetracks around the world.

"ATS engineers built on the legacy of the acclaimed CTS-V Series and picked up the challenge of well-established competitors to create an American sports sedan to rival Europe's finest," said Chris Berube, lead development engineer. "More than the roster of its chassis components, the Cadillac ATS's driving experience is derived from the whole of the car - a low curb weight, optimal balance and excellent dynamics refined during countless hours of racetrack testing."

Proportion and balance are definitely on the ATS's side, with a low curb weight of less than 3,400 pounds (1,542 kg) and power-dense powertrains that are also lightweight to achieve a 50/50 weight distribution and a greater power-to-weight ratio. They complement wide front and rear tracks - 59.5-inch/1,512mm (front) and 60-inch/1,548mm (rear) - for a lower center of gravity that promotes greater stability.

The low curb weight also helped engineers optimize performance by not having to go big on components that contribute to unsprung weight, including the wheels, tires and brake components.

"A heavy car needs larger wheels and tires and larger brakes to account for its overall mass," said Berube. "With the ATS, its low weight meant we didn't have to spec the largest wheels and brakes in the segment - the performance is among the best in the segment with smaller, optimized parts that save weight and enhance efficiency."

Low vehicle mass and optimal brake sizes are expected to give the ATS's braking performance that is among the best in the segment, with Brembo brakes contributing to 60-0 performance of approximately 129 feet (39.3 meters).

A strong body structure is the backbone for the Cadillac ATS's driving experience. It ties the chassis and suspension elements together with great stiffness that enabled a higher degree of tuning precision.

"This is a rock-solid architecture that supports a rock-solid driving experience," said Berube. "But even the stiffest body can't ensure great ride and handling. That comes from an optimal suspension geometry and advanced damping control - and the ATS packs both."

Dual ball joints, five links and a limited-slip diff

Up front, a multi-link double-pivot suspension - based on the MacPherson strut design - is used for a more precise feeling of control, including more linear and communicative steering, and a smoother ride. It also improves impact isolation on bumps and rough surfaces.

The double-pivot system incorporates a pair of ball joints and lower control arms - one in tension and the other in compression - to replace a conventional wishbone at each wheel. The control arms, the spindle and the body form an effective four-bar link for each side of the front suspension, creating virtual pivot points for greater camber control. There is also a direct-acting stabilizer bar.

The front suspension's design also enables a longer spindle, larger pivot center and positive-offset steering geometry for optimal steering control, excellent straight-line stability and a more refined ride. High-durometer rubber and hydraulic bushings are used with the front suspension for an excellent balance of ride comfort and precise response when corning.

"The kinematics of the ATS's front suspension are more complicated, but the payoff is worth it in the way the car drives," said Berube. "The driver will feel directly connected to what the front wheels are doing, but with a comfortable degree of isolation that makes the Cadillac ATS a great touring car for long drives."

At the rear of the ATS is the first five-link independent suspension in a Cadillac. It's a design that helps reduces roll center motion, enables positive lateral control, reduces "squat" during acceleration and promotes excellent dynamic stability. In short, it helps keep the tires planted on all surfaces and during all hard-cornering maneuvers.

Four handling links (upper and lower control arms) are used at each side to control wheel motion and a toe link at each wheel provides additional horizontal control - particularly during hard cornering. The upper and lower links create an effective double-wishbone design, although the links are mounted independently.

As with the front suspension, the five-link design creates virtual pivot points that the ATS's engineers used for geometry optimization. The stiff links are mounted on a cradle that contributes to a smoother, quieter and more isolated ride. The cradle is made of steel (with hydroformed side rails) to help optimize the car's structural stiffness and mass.

"Using an aluminum cradle would have reduced the ATS's overall weight, but we found a few extra pounds at the rear suspension helped get the front/rear weight balance closer to the optimal 50-50 ratio," said David Masch, ATS chief engineer. "We also added mass to other areas of the car where it was necessary to achieve performance."

Seventeen-inch (17x8-inch) wheels used with 225/40-series tires are standard and 18x8-inch wheels and 255/35-series rubber are offered on the Cadillac ATS, with run-flat tires. Models with the FE3 suspension feature 18x9-inch rear wheels.

A mechanical limited-slip differential is a feature not matched by all other competitors and gives the ATS an edge when it comes to ensuring all of the powertrain's torque is applied to the tires during hard cornering. It is standard with the six-speed manual transmission and included with the FE3 sport suspension package. It is housed in a robust 8.6-inch carrier. Other models feature a 7.67-inch carrier.

MRC, electric power steering and other advanced control systems

Supporting the ATS's new suspension designs are advanced damping, steering and braking systems, including Magnetic Ride Control.

Magnetic Ride Control (MRC) is the heart of the FE3 Sport Suspension package, which is included on the Premium Collection and also includes a mechanical limited-slip differential, high-capacity cooling system and 18-inch summer-performance tires. MRC is a real-time damping system that delivers more precise body motion control. It "reads" the road every millisecond and can change damping in only five milliseconds.

With MRC, the conventional mechanical-valve shocks and struts are replaced with electronically controlled units filled with a magneto-rheological fluid, which contains minute iron particles. Under the presence of a magnetic charge, the iron particles align to provide damping resistance almost instantly. Sensor input determines the amount of resistance required, varying the magnetic charge to optimize damping.

Adjustable settings for the FE3 suspension allow the driver to select different ranges of damping for Magnetic Ride Control, including a competitive mode that also adjusts the intervention of the stability control and traction control systems.

All Cadillac ATS models come with a premium electric, variable-assist power steering gear from ZF Steering Systems. It is designed to deliver excellent response and on-center characteristics, while also saving fuel because engine power isn't directly required to assist gear movement - as is the case with conventional hydraulic systems.

The steering gear has great torsional stiffness and lower operating friction, which enhance the steering feel with almost perfect linear response. Additionally, the steering column and intermediate shaft feature stiff, direct-acting and low-friction ball bearing designs. That means there is almost no "lash" in the entire steering system, for a more immediate and connected-to-the-road feel for the driver.

Four-wheel disc brakes are standard on all models, with Brembo performance brakes available on the standard model and included on the Luxury, Performance and Premium collections. They are matched with a four-channel ABS system that is integrated with standard StabiliTrak stability control and full-function traction control.

All-wheel drive is available, for even greater traction assurance on wet and icy road surfaces.

2013 Cadillac ATS Priced from $33,990

The all-new, rear-wheel-drive Cadillac ATS compact luxury sport sedan, with a fuel-efficient 2.5L engine and next-generation six-speed transmission, is priced from $33,990, including destination charges. Highway fuel economy will be greater than 30 mpg.

"The ATS enters a vehicle segment this year that's one of the most competitive in the market, from both a price and performance standpoint," said Don Butler, vice president of Cadillac Marketing. "ATS will bring a distinctive presence and compelling value while offering quick, nimble, fun-to-drive dynamics that will appeal to the lifestyles of modern luxury buyers and challenge the segment's status quo."

A mid-level model, with a lightweight and powerful 2.0L turbocharged engine, costs $35,795 including destination and will offer automatic and manual transmissions, as well as rear- or all-wheel drive.

Topping the engine range is a 3.6L V-6 rated at 321 horsepower (239 kW), costing $42,090 including destination. It is equipped with an automatic transmission and standard content that includes CUE, leather eight-way power seats with memory, adaptive start and more. All-wheel drive is available.

Mitsubishi Outlander (2013)

Mitsubishi Outlander

Eleven years after it first coined the term "crossover", Mitsubishi Motors Corporation (MMC) unveiled its third embodiment of this concept with the all-new next generation Mitsubishi Outlander at the 2012 International Geneva Motor Show.

After a total of over 950,000 sales (as of end of December 2011 - including Airtrek - the first generation Mitsubishi Outlander) for the first two generations since June 2001, this all-new mid-size crossover is meant to comply with the times - a strategic and innovative premium vehicle, developed around a versatile global platform and borne of a harmonious balancing of:

• Low environmental impact
• Advanced safety
• Comfortable driving
• Clever utility
• Added convenience

This unveiling will confirm the start of an all-new generation of global products for Mitsubishi Motors, consistent with the ambitions set in MMC's "Jump 2013" smart business plan for a greener and more global Mitsubishi Motors.

New language

Fittingly, MMC's complete family of Passenger Vehicles / Crossovers / SUVs will also see a gradual transition to a re-focused design language, as seen with the all-new Mitsubishi Outlander. While still being formulated, it is envisaged as an open concept meant to be flexible enough to suit specific vehicle requirements whilst staging Mitsubishi's famous Three Diamond logo accordingly. This new engineering-driven look can be understood as the new expression of Mitsubishi's near century old tradition of technology tailored for today's world.

New shape

Similar in size to the current car, the 4655mm Next Generation Mitsubishi Outlander follows a clear design brief where in true Mitsubishi fashion, key directions were for an "engineer's car" with a "Solid - Safe - Simple" shape, blending substantial look with clean surfaces, as previewed in the Concept PX-MiEV and Concept PX-MiEV II show cars.

Whether its high flanks, raised beltline, uncluttered surfaces, strong shouldering or soft-contoured fenders, the all-new Outlander offers a very comforting sense of quiet protection and safety to its occupants - a quality car of substance devoid of cheap styling thrills and designed for the long-haul travelling its innovative power-train will allow.

Understated yet assertive, Mitsubishi Outlander's exterior design is further enhanced by a slim front aerodynamic grille with stylish hockey-shaped chromed strips seem to be milled directly from solid brass as if to shield the three-diamond logo, in-between the feline look of the sculptured wrap-around headlamps.

This same quality look continues inside the car with high grade premium materials (padded surfaces, soft-touch finish, silver or wood accents, gloss black appliqués) gracing a dashboard designed for better driver concentration, including ergonomic steering wheel controls as well as high-resolution and easy-to-read instrument displays.

New harmony

In keeping with Mitsubishi Outlander's forte, the all-new next generation Outlander will continue to carry five or seven people in comfort and safety, supported by a powerful electronic architecture. The new Outlander now comes with a finer blend of:

Low Impact:

• With a development of our Mitsubishi petrol and Clean Diesel engines. In Europe, the new Outlander will be made available with a choice of two different engines:
  • MMC's "4J11" - a 110 kW (150ps) 2.0 l MIVEC petrol now fitted with an all-new valve train
  • MMC's "4N14" - a 110 kW (150ps) 2.2 Clean Diesel with many innovative features to include an ultra-low 14.9:1 compression ratio. Further improvements allow for high performance and low emissions.
• With an all-new Automatic Stop & Go system
• With an all-new 6-speed automatic gearbox.
• Through weight reduction (optimisation of the body structure, further use of high-tensile strength steel pressings).

All improvements leading to a much better fuel economy and emissions, down to a minimum target of below 130 g/km.

Advanced Safety:

• With the introduction of Adaptive Cruise Control system. This system maintains a safe distance to the vehicle in front, even at very low speeds when experiencing heavy traffic congestion.
• With the introduction of Forward Collision Mitigation system. This system detects obstacles on the road ahead of the vehicle and automatically applies the brakes to help preventing a collision.
• With the introduction of Lane Departure Warning system. This system warns the driver that their vehicle is about to depart from its lane through a visual warning display and a buzzer.
• With the introduction of Super-HiD "Wide Vision" xenon headlamps. Approximately 1.4 times more powerful than conventional HID headlights, they provide a 1,350-lumen beam that shines over an extremely wide area of 80°x 2 in total, instead of the 42° x 2 of conventional HiDs.

Comfortable Driving:

• With now a dual zone air conditioner.
• A quieter cabin thanks to improved NVH (noise, vibration and harshness).
• A wide and comfortable 3rd row 50/50 split seating, replacing today's jump seats.
• High grade quality materials for a more premium D-Segment look & feel.

Clever Utility:

• With a 1.69m long floor when the 2nd and 3rd seats are folded down (+ 335 mm versus the previous Outlander).
• With a flat floor when all seats are folded down.
• And the adoption of a one-piece power tail gate.

Convenience:

• With a display audio incorporating the rear view monitor system.
• As so often requested - a tilt & telescopic steering column.

After the Geneva unveiling, the all-new next generation Mitsubishi Outlander will be launched first in Russia in summer 2012, prior to European (late summer), Japanese, Oceania, Chinese and North American debuts.

New frontier

During the course of 2012, MMC will also take advantage of the built-in possibilities of Mitsubishi Outlander's versatile platform & powerful electronic architecture to add an EV-based plug-In hybrid power-train to the ICE Outlander range.

This will be a fully integrated solution, based on MMC's EV technology and also, making the best use of MMC's extensive 4-Wheel-Drive expertise, offering a choice of driving modes including:

• Pure (Twin Motor 4WD EV).
• Series (Twin Motor 4WD EV supported by ICE generator).
• Parallel (Twin Motor 4WD EV supplemented by ICE at higher speed - Electric motors assist in powerful acceleration without any gear shift).

When fitted to the new Mitsubishi Outlander, the Mitsubishi Plug-in Hybrid EV system will allow for a range and very low CO2 emissions similar to that of MMC's Concept PX-MiEV II (over 800 km and a target of below 50 g/km).

Mercedes-Benz A-Class (2013)

Mercedes A-Class

The new Mercedes-Benz A-Class is opening up a new chapter in the compact segment: markedly emotive in design, with powerful engines ranging from 80 kW (109 hp) to 155 kW (211 hp), extremely efficient with emissions from just 98 g of CO2/km and a best-in-class drag coefficient of 0.27. At the same time the new model underlines that for Mercedes-Benz, safety is not a question of price - the standard specification includes, amongst other things, the radar-based COLLISION PREVENTION ASSIST system. Prices in Germany start at €23,978.50 (incl. 19% VAT) for the A 180 BlueEFFICIENCY.

"Mercedes-Benz is becoming the most dynamic premium brand in the world. As part of this development, the A-Class represents an important milestone. The A-Class is completely new, down to the last detail. In automotive development, it's not often you get the chance to start with a clean sheet of paper. Our engineers have made the very most of that opportunity", explains Dr Dieter Zetsche, Chairman of the Board of Management of Daimler AG and Head of Mercedes-Benz Cars.

Exterior design: The most progressive design in the compact class

Standing as much as 18 centimetres lower on the road than the preceding model, the new A-Class communicates design and dynamism at the very first glance. This radical form language, presented and enthusiastically acclaimed around the world with the A-Class Concept, was consistently implemented in the series production car. The appearance of the new Mercedes-Benz A-Class reflects this new Mercedes-Benz design strategy. The result is what is known as a two-box design with a distinct character of its own, a sportily emotive exterior and an exceptionally high-quality feel to the interior.

"Translating the new dynamic style of Mercedes-Benz into the compact class was a challenge that was great fun to tackle", explains Gorden Wagener, Head of Design at Mercedes-Benz. "No other car in this segment is as progressive as the Mercedes-Benz A-Class. Absolutely typical for Mercedes is the sculptural shape of the A-Class. The character lines, in particular on its sides, lend the Mercedes-Benz A-Class structure and terseness. The new dynamic style is perceptible at first glance in the interior as well."

Defined edges and tautly drawn surfaces mark out the exterior design of the new A-Class. The constant interplay between concave and convex surfaces creates a characteristic play of light, particularly along the sides of the car, which contributes to its unique appearance.

Typical features of the long, sporty front are its pronounced V-shape, the separate headlamps, the radiator grille with central Mercedes star and double slats to either side of the star, as well as the additional air intakes on the sides. The "dropping line" apparent in the side profile dissipates towards the vehicle's front end. The design of the headlamps, together with the configuration of the light functions within them, are a key element of the design concept.

The light modules and LEDs behind the headlamp cover glass have been arranged in such a way as to create the characteristic "flare effect" for the daytime driving lights and indicators. The so-called "flare" is made up of the feature line within the headlamp, the LED modules for the daytime running lamps and the bulb sets for the indicators. This signature effect gives the car its energetic look and so helps to define a new, youthful face for Mercedes.

The perfect interplay of dynamic design and excellent aerodynamics is nowhere more apparent than in the roof, with its smooth surfaces and taut, arcing curve. The silhouette reveals smooth, flowing lines finishing in a flat edge. The roof spoiler, which conveniently hides all the aerials, provides an extra sporty touch and gives structure to the roof assembly. The beltline rises to the rear to form a pronounced wedge-shape. The side view is distinguished by sensuously moulded sculptural side panels and crisp lines. The front structural edge, above the wing, falls in what is known as a "dropping line" in a gentle arc towards the rear. The powerfully-shaped shoulder muscles above the rear axle serve to emphasise the car's coupé-like character. A further line sweeps up from just in front of the rear wheel arch, then gently fades away. All these lines give depth and dynamism to the car's profile. Dynamic side sill panels provide a final finishing touch towards the bottom of the car, enhancing the appearance of elegant light-footedness.

The broad emphasis of the tail end is revealed in an interplay of convex-concave surfaces and edges. The tail lights continue the line of the muscular shoulders back towards the rear, while their horizontal orientation emphasises the car's powerful breadth. The light functions are provided optionally by fibre-optic cables and LED modules. Here, too, the interaction between design and aerodynamics is very clear: the surface finish of the tail lights is not only an interesting design feature, but also improves the airflow around the vehicle thanks to defined airflow break-away edges in the rear section.

Interior design: Extraordinary perceived value

The starting point for the interior design was the interior sculpture "Mercedes-Benz Aesthetics No. 2" presented at the Detroit Motor Show in 2011 and which directed attention to the new Mercedes-Benz design language in the vehicle interior, too. The first concrete implementation of this was shown in April 2011 with the A-Class Concept.

"The inspiration from aircraft design is continued in the A-Class", explains designer Jan Kaul. "The instrument panel is clearly divided into an upper part inspired on a wing profile and a muscular lower section. This creates the impression that the upper section is supported by a muscle."

The process used for the production of this muscle allows diverse soft surface textures. It is thus possible to create different surface appearances with an attractive play of lights thanks to three-dimensional structures embedded in foil.

"The interior of the A-Class represents a big step forward in terms of quality - both in the materials used and in the consistency of the design" says Kaul. Both objectives have been achieved with the help of a specific design idiom and through the various combination options possible with the high-quality materials selected. All trim elements have been given an electroplated finish, resulting in real metal surfaces with "cool touch" effect. The work has been executed with considerable care and attention to detail, so that they appear to have been moulded in one piece.

The instrument panel incorporates five round vents. "Like brilliant jewels they underscore the superior quality of the vehicle interior", explains Kaul. The outer rings of the round vents have a high-quality electroplated finish. The airflow direction is governed by an insert that is reminiscent of an aircraft turbine and reveals a meticulous attention to detail. This too has an electroplated finish in silver-chrome. The free-standing display screen features a black piano-lacquer-look front panel and a flush-fitting silver frame.

The instrument cluster comprises two large round instruments, each with a small dial set within it. When at rest, the dial needles stand at 6 o'clock. The pointer inlays are in white, although with the sportier design and equipment lines such as Urban and AMG Sport they are in red. The dials on the sporty equipment lines and packages are coloured silver with a chequered flag effect. The 3-spoke steering wheel comes with 12 function buttons and an electroplated bezel.

The centre dome and console, as well as the positioning of the various elements such as the head unit, lower control panel, air conditioning operating unit, stowage compartments, rotary pushbutton and armrest, reflect the findings of the ergonomics experts at Mercedes-Benz.

An extensive range of seat coverings, in terms of material (e.g. leather, fabric, ARTICO/fabric), colour combination and also geometry, provides scope for a broad range of individualisation options. Sports seats with integrated head restraints are available with all optional design and equipment lines. The sporty nature of the seats is emphasised by the opening between the upper edge of the seat backrest and the head restraint. On the back of the front seats this opening is edged with a frame in silver chrome and, in conjunction with the Light and Sight package, can also feature ambient lighting.

Designer Jan Kaul sums up: "If you were to take a seat in the A-Class with your eyes closed - you would never think, upon opening your eyes, that you were sitting in a compact-class vehicle."

The chassis and suspension: Agility and refined sportiness

Refined sportiness means maximum agility combined with the sense of safety, unspoilt driving stability and high levels of ride comfort which are all typical of the brand. The suspension of the new Mercedes-Benz A-Class has a four-link rear axle, electromechanical power steering with assistance functions and ESP® with "Extended Traction Control" (XTC). During development, the suspension experts made intensive use of simulations and the driving simulators at the Mercedes development centre in Sindelfingen as part of the so-called digital ride and handling test.

The preconditions for achieving dynamic handling are excellent in the Mercedes-Benz A-Class. This is because compared with its predecessor the centre of gravity (24 mm lower) and seating position (174 mm lower) has been reduced significantly. A new feature is the four-link rear axle: forces are absorbed by three control arms and one trailing arm per wheel. This means that longitudinal and lateral dynamics are virtually independent of one another. Wheel carriers and spring links are made of aluminium to reduce the unsprung masses. The goal was to achieve high lateral agility with high driving stability thanks to small sideslip angle on the rear axle.

Three chassis and suspension set-ups are available: the comfort suspension and optional sports suspension for sporty yet comfortable handling (in conjunction with the Dynamic Handling package or the AMG Sport equipment line). In addition, the A 250 Sport has a sporty, "engineered by AMG" high-performance suspension. Altogether this results in low dynamic rolling behaviour and low start-off pitch angle. Furthermore, the vehicle also has a reduced tendency to understeer in the higher lateral acceleration range: the driver is therefore able to control changes in direction with low steering input but high steering precision. When accelerating out of bends taken at speed, the tendency to understeer is reduced even further by "Extended Traction Control" (XTC): with this function, ESP®provides support in the form of directional stability by generating a yaw moment on the front and rear wheels located on the inside of the bend.

Steering: mechanical with electric assistance

The electromechanical steering of the A-Class has been redesigned. The electric motor of the servo assistance system is now located directly on the steering gear as a dual pinion EPS system. The steering system makes an important contribution to the vehicle's overall efficiency, as the steering assist function only requires energy when steering actually takes place. A Direct-Steer system is available in combination with the Dynamic Handling package or AMG Sport equipment line. This provides a noticeably more direct steering ratio over the turning angle thanks to the variable ratio, and enhances the vehicle's handling and agility substantially. The steering conveys a high sense of safety, as the driver experiences a consistent and precise response to all steering movements.

The electric power steering also enables various steering assistance functions which are activated by the ESP® control unit. These include

• Countersteering in case of oversteering
• Corrective steering when braking on road surfaces offering different levels of grip (split-fraction braking)
• Mitigating the extent to which the front-wheel drive influences the steering
• Compensating crosswind and road gradients
• The electric power steering also makes Active Park Assist possible.

With all engine variants, the Mercedes-Benz A-Class comes with disc brakes on all wheels. The callipers on the rear axle and the brake boosters are made of aluminium. A particularly convenient feature is the HOLD function, which is familiar from the larger model series: when stopping, for example at traffic lights, the driver merely has to press the brake pedal slightly more firmly and the brake will remain engaged until he moves off again. The brake is released automatically when the driver steps on the accelerator. On versions with manual transmission, the Hill Hold function automatically prevents the vehicle from rolling back unintentionally when starting on a slope.

The Mercedes-Benz A-Class is equipped with an electric parking brake, which operates by means of actuator motors acting on the callipers of the rear axle. The parking brake is activated via a button under the light switch on the left of the dashboard. This creates additional space in the centre console, as the handbrake lever is no longer required. When the button is pressed at speeds of over four km/h, the parking brake acts as an emergency brake, activating all four wheel brakes via the ESP®'s hydraulic unit.

In conjunction with the 7G-DCT automatic transmission, the parking brake offers a particularly convenient mode of functioning: when the driver accelerates sufficiently after fastening their seat belt, the parking brake is released automatically.

Aerodynamics: Saving fuel the aerodynamic way

With a drag coefficient (Cd) value of 0.27, the aerodynamic experts at Mercedes-Benz succeeded in creating another masterpiece with the Mercedes-Benz A-Class. And the A 180 BlueEFFICIENCY Edition due to follow later is even able to exceed this record for hatchback vehicles: thanks to a number of aerodynamic enhancements, this beacon of efficiency achieves a Cd value of 0.26.

Countless flow simulation studies on the computer and a great deal of fine tuning in the wind tunnel resulted in a clear goal: to enhance the basic shape of the A-Class design further, with a view to achieving an exceptional drag coefficient. This is no easy task, particularly for a hatchback model with a short rear overhang. But an improvement in the Cd value of just one hundredth will reduce fuel consumption by one tenth of a litre per 100 km when driving on the motorway at approx. 120 km/h. Based on NEDC figures, this corresponds to a CO2 reduction of one gram per kilometre.

With a Cd value of 0.27 and a frontal area of 2.20 m2, the drag area (CdA) is less than 0.6 m2 - a benchmark figure for hatchback vehicles in this segment.

The detailed work behind this development is highlighted by the following examples:

• The distinctive side spoilers next to the rear window ("finlets") help to create a run-on design which significantly reduces the disruptive longitudinal vortices generated at the D-pillars.
• Flow losses at the front wheel arches have been reduced substantially with the aid of patented serrated wheel spoilers at front and rear, slots in the wheel arches and optimised hub caps. These measures result in improved wind flow around the wheel arches.
• The Mercedes-Benz A-Class has an adjustable radiator shutter, already familiar in larger model series. The louvres behind the radiator grille are for the most part closed when there is no specific need for cooling air.
• The underbody has also been aerodynamically enhanced: the main floor panel features extensive cladding up to the rear wheel arch, followed by additional cladding of the rear axle. The rear silencer has also undergone aerodynamic optimisation.
• The new A-Class features exterior mirrors which have been optimised in terms of a number of details and already proven their excellent aerodynamic properties in large model series such as the S, E and C-Class, and also the B-Class. The position of the exterior mirror is adjusted in respect of the A-pillar in such a way that the airflow is directed along the side window without any significant interference or disruption.

The exterior mirrors and the low stepped height of the A-pillars reflect the fact that the work conducted in the wind tunnel was not just about optimising the flow conditions, but also about minimising wind noise. And in addition to aerodynamics and aeroacoustics, there is often another discipline to consider: in terms of water management too, the flow around the exterior mirrors and the A-pillars also has to be optimised in the wind tunnel in order to guarantee good visibility is maintained towards the rear and at the sides during wet weather.

More than with previous model series, in the case of the Mercedes-Benz A-Class the aerodynamics experts at Mercedes-Benz made particular use of flow simulation (CFD, Computational Fluid Dynamics): each component was first improved over several cycles using flow simulation before having its aerodynamic properties put to the test in the wind tunnel.

Digital flow simulation is based on so-called finite volumes as a mathematical model. A volume net is formed from around 60 million hexahedrons, or cubes, and is based around the CAD data of the new A-Class. This enables the driving cycle to be simulated over a free area in a large virtual wind tunnel. The Mercedes engineers generate the airflow using a predetermined turbulence level.

Setting new standards in terms of Cd value and consumption: BlueEFFICIENCY Edition

Due to follow later is the A 180 CDI BlueEFFICIENCY Edition boasting even better consumption levels. It is among the most efficient vehicles of its class: thanks to a series of additional aerodynamic optimisation measures, it has been possible to reduce its Cd value from 0.27 (standard model) to 0.26.

These measures include:

• partially covering the upper part of the radiator grille
• aerodynamically shaped spring link coverings to improve the underbody airflow at the rear axle
• lowering of the suspension by 15 mm

Diesel engines: three efficient power bands

The new basic engine in the OM 607 series develops 80 kW (109 hp), delivers 260 Nm to the crankshaft and with a manual transmission consumes 3.8 litres per 100 km, corresponding to 98 g of CO2/km. This is a 22-percent improvement over the only 60 kW (82 hp) preceding model, the A 160 CDI, which consumed 4.9 litres. The new top diesel, the A 220 CDI, is no less than 25 percent better than its predecessor: it develops an output of 125 kW (170 hp) and 350 Nm of torque, and in combination with the 7G-DCT automatic dual clutch transmission it consumes only 4.3 litres/100 km (provisional figure). The figures for the preceding A 200 CDI were 103 kW(140 hp), 5.7 litres, and 149 g of CO2/km.

Petrol engines: turbocharging and direct injection for all

A comparison between the new and previous A 200 demonstrates what has been achieved with the petrol engines: with 115 kW(156 hp) and 250 Nm of torque, the new engine delivers superior performance but consumes only 5.4 litres/100 km (127g CO2/km - figures for the 7G-DCT), which is 26 percent less than its predecessor (100 kW, 185 Nm, 7.4 l/100 km, 174 g CO2/km). Even the new top model with the 7G-DCT and producing 155 kW(211 hp) and 350 Nm is considerably more efficient with a consumption of 6.1 litres and CO2 emissions of 143 g.

The completely new engines and transmissions are not the only decisive factors in this exemplary efficiency. Thanks to the modular system it has been possible to select the optimally designed transmission for each diesel and petrol engine. The overall package is rounded off perfectly with progressive aerodynamics with a Cd figure of only 0.27, as well as a number of other improvements.

"The new four-cylinder models from Mercedes-Benz occupy a leading position by virtue of their performance, high efficiency and very low emissions. They impress with their smooth, superior power delivery and offer customers refinement at the highest level," says Professor Dr Thomas Weber, Daimler Board Member responsible for Group Research and Mercedes-Benz Cars Development.

The 7G-DCT dual clutch transmission: Dynamic and efficient

Drawing on over 50 years of experience in the development and production of automatic transmissions, Mercedes-Benz ventured into new technical territory with the 7G-DCT dual clutch transmission: the new system is an automated three-shaft manual transmission consisting of two subtransmissions, each with its own clutch. Both actuation of the clutches and gear shifting take place fully automatically and without any interruption in tractive power. This allows a particularly comfortable but nevertheless dynamic mode of driving.

Thanks to its seven gears it offers an exceptionally large spread of up to 7.99. This means that a very short transmission ratio is available when moving off on an uphill slope with a high payload, for example, while during cruising the engine speed can be lowered considerably. The efficiency of this transmission leads to a nine percent improvement in fuel consumption compared to the CVT employed in the Mercedes-Benz A-Class to date, and betters the consumption with a manual transmission.

At a length of 367 millimetres and a weight of 86 kilograms, the 7G-DCT is more compact and lighter than the transmissions in this torque class which have been available on the market to date. The clutches take the form of oil-cooled multi-disc clutches. The specially developed hydraulic fluid is actively cooled, thus ensuring correct functioning of the transmission even under extreme conditions, despite the comparatively low filling level of six litres. Excess engine heat can also be transferred to the transmission, which improves its efficiency.

For the first time on this type of unit, the transmission is supplied with oil by two oil pumps - one mechanical and one electric. The electric pump maintains the oil pressure when the engine is switched off via the start/stop function. This means that the transmission is immediately operational when the engine is restarted and the vehicle can move off again without any delay. In addition, the electric pump is able to support the mechanical pump when peak loads apply, enabling a more compact and efficient design for the mechanical pump.

Another new feature is electric activation of the hydraulics for the parking lock, which is locked by mechanical means. This "park by wire" function enables the transmission selector lever to be positioned as desired: it is located in the form of a steering column lever on the right behind the steering wheel in the A-Class. In combination with the electric parking brake, additional space has thus been created in the centre console for additional stowage facilities.

Three gearshift modes are available to the driver:

• ECONOMY: in this mode, the transmission performs gearshifts fully automatically and particularly comfortably. The gears are selected with due regard to a particularly economical style of driving at low revs
• SPORT: the transmission performs gearshifts fully automatically. The shift and response times are shorter, with gearshifts at higher engine speeds
• MANUAL: in this mode, the driver operates the transmission manually via shift paddles behind the steering wheel. The engine speeds at which the gears are shifted can therefore be freely chosen

In ECO or Sport mode, the driver is still able to intervene manually in the gear-shifting process via the shift paddles. The transmission reverts to the selected automatic mode after the paddles have remained inactive for twelve seconds, or after a longer delay when driving downhill or on winding roads.

A key factor contributing to the overall efficiency and dynamism of the A-Class is the closely coordinated operation of the transmissions and engines. A continuous exchange of data between the control units ensures that the engines run at the ideal operating point at all times. The 7G ‑DCT transmission is manufactured at Daimler's Stuttgart-Hedelfingen plant.

The six-speed manual transmission: Comfortable manual gearshifts

The new six-speed manual transmission was developed in parallel with 7G-DCT. It is extremely compact and shares a number of common parts.

The three-shaft transmission is also very compact (length 345 mm) and light (dry weight 46 kg) and incorporates a number of special features for particularly pleasant gearshifting. An integrated magnet on the gearshift shaft is detected by a Hall sensor. The idle position is identified in this way, making the start/stop function possible. The signal for reverse gear activates the reversing lights.

The large spread of 6.7 allows a reduction in engine speed while at the same time ensuring that sufficient tractive power is available when moving off with a fully laden Mercedes-Benz A-Class and trailer up to a gross weight of 3.4 tonnes. The clutch is operated hydraulically and the gears are actuated via cables.

The overhead camshaft with third and fourth gears and the reverse gear do not run in the oil bath. This reduces drag torque, thus facilitating gear shifting at low temperatures in particular. The three-cone synchronisation of the first two gears serves the same purpose, while the following gears are provided with two-cone synchronisation. The weight-optimised cast aluminium shift forks are installed on anti-friction bearings on the shift rods, in order to reduce the shift forces.

Passive safety: A strong basis and intelligent protection

"One star is all you need" - the Mercedes-Benz safety philosophy also applies to the new A-Class. Its safety equipment, some features of which are traditionally found in much higher vehicle categories, includes belt tensioners and belt force limiters for the rear seats, too, the PRE-SAFE® anticipatory occupant protection system and the active bonnet for pedestrian protection. The line-up also includes seven airbags as standard and the Mercedes automatic emergency call system.

The new Mercedes-Benz A-Class has passed the brand's rigorous programme of crash tests. This includes not only some 30 different impact configurations, which are laid down as requirements for safety ratings and international type approval, but also nine proprietary crash tests, such as the roof-drop test or the pole impact test, developed by the brand itself.

The ability of the new A-Class to satisfy requirements which go far beyond the statutory conditions in some cases is also demonstrated by an internal offset front collision test against a future luxury-segment saloon from Mercedes-Benz: despite the high impact speed and the fact that it is the smaller accident participant, the A-Class offers its occupants an intact passenger compartment and excellent chances of survival.

The bodyshell structure provides the basis for the high standard of passive safety, both in terms of material - the proportion of high-strength and ultra-high-strength sheet steel stands at 67 percent - and with regard to its structural design. Key features of the front-end structure are the systematic implementation of an available crash length of 435 millimetres, load distribution over several planes, the new bulkhead and floor concept and the subframe as a deformation element.

A total of three longitudinal member planes - consisting of the straight front longitudinal members, a second, upper plane attached to the front end consisting of extruded aluminium box sections and a third plane at the bottom in front of the subframe - allow impact energy to be reduced in a controlled manner.

The subframe provides the torque support for the transverse engine / transmission block and serves to attach the components for the front axle and steering. It consists of several steel plates, some in ultra-high-strength steel, and a hydroformed tube. In order to optimise its deformation properties, the subframe is connected via two aluminium struts leading forward to the aluminium radiator mount located under the front end. In the event of a frontal impact, forces can be discharged at an early juncture into the subframe via this third load path, in order to ensure the best possible energy dissipation.

A plastic crash wedge which is fitted at the rear of the front wheel arches helps to ensure that the wheels do not slide under the front doors in the event of a high-impact crash, irrespective of the turning angles. This means that it will be possible to open the doors, even after a serious accident.

The bulkhead also incorporates a special feature: so-called "skate runners" in front of the two middle longitudinal members discharge forces into the floor. The continuous floor structure consists of a total of four straight longitudinal members. The tunnel roof reinforcements at front and rear combine with the tunnel to provide a further closed profile supporting the front end.

Controlled deformation: protection in side-on crashes

Rigid side structures and defined deformation management help to safeguard the survival space for occupants in the event of a side impact. Elements here include the so-called "pole support", a member fitted diagonally in the rear footwell between centre tunnel and floor side wall which is intended to prevent the floor from being torn open in the event of side impact with a tree.

High-strength steels are used in the upper area of the B-pillar in order to minimise intrusion and to preserve the passenger cell in case of side impact. The lower area of the B-pillar is softer, in the interests of energy dissipation. The safety experts at Mercedes-Benz have christened the crack management system on the insides of the B-pillar "vampire teeth". In a serious side-on crash, the seat belt retractor presses against the inner wall of the B-pillar. To prevent this from leading to a transverse crack which might affect structural integrity, small, tooth-like recesses define the crack direction.

Pedestrian protection: comprehensive measures including Active Bonnet

The protection of those road users who are most at risk has always been a top priority during the development of Mercedes passenger cars. The new Mercedes-Benz A-Class features numerous protective measures designed to help lessen the risk of injury to pedestrians. In order to reduce the loads which arise in the event of a pedestrian impact on the bonnet of the vehicle, the deformation space between the bonnet and the components beneath it has been optimised. This is achieved in part through the appropriate positioning of components such as control units or fluid reservoirs in the engine compartment.

In the case of the A-Class, with its sporty, low-slung body, an active bonnet is also used. In the event of a pedestrian impact, sophisticated sensors combined with intelligent algorithms trigger actuators in the area of the bonnet hinges. These raise the bonnet by 65 millimetres. The additional space which this creates between the bonnet and the components in the engine compartment means that a head is subject to comparatively low internal acceleration forces on impact.

The deformation characteristics of the bonnet have been developed specifically to meet these requirements. Reductions in the impact loads can be achieved by using aluminium and reinforcing the inside face of the bonnet.

On all seats: intelligent restraint systems

The Mercedes-Benz A-Class protects its passengers with up to nine airbags. The standard complement comprises driver and front-passenger airbag, a kneebag for the driver, large thorax-pelvisbags incorporated in the seat to protect the chest, stomach and pelvis area and windowbags. The windowbags extend over both rows of seats to the A-pillar triangle. They serve to protect the occupants' heads from hard contact in the event of side impact and can also help to keep limbs inside the vehicle in an accident. The driver and front passenger airbags operate in two stages, according to the expected severity of the impact. The gas generator first of all fills the driver's airbag with 60 and the front passenger's airbag with 70 per cent gas. If a more severe impact is forecast, the second stage of the gas generator will additionally be activated after a delay and the airbags will be filled at a higher pressure level. Sidebags for the rear are optionally available.

The high safety expertise of the Mercedes-Benz A-Class's developers is reflected in a host of details. The deformable steering column yields by up to 100 millimetres when the driver exerts pressure on the airbag as a result of forward displacement in an accident, for example. The comfort features also reveal a fine touch: the driver's airbag is connected to a vibration absorber in the steering wheel to reduce vibrations, for example.

The head restraints for driver and front passenger are new developments. The onus in developing the new restraints was on further reducing the risk of whiplash injury. Key to effective whiplash prevention is the best possible adjustment of the distance from the rear of the occupants' heads. The restraint incorporates a button for this purpose on the left-hand side (as seen in the direction of travel). This release mechanism can be pressed to unlock the head restraint and increase the distance between head and head restraint. The button does not need to be pressed in order to reduce the distance. This enables single-handed operation in all adjustment positions.

Family-friendly: comprehensive precautionary measures in the rear

In developing the new A-Class, the Mercedes-Benz safety experts have also attached great importance to the safety of the rear-seat occupants. The new model therefore meets the relevant requirements of the Japanese and Chinese NCAP institutes which also take account of factors such as the ease of use of the rear seat belts. Experts believe that Euro NCAP will extend its rating programme to include rear-seat safety in the medium term. The A-Class is already prepared for this and is a role model in this respect - both within and beyond its own vehicle category - with features such as standard-fit belt tensioners and belt force limiters for the outer rear seats. A torsion bar in the roller mechanism twists when the load on it exceeds a defined level. In this way the belt force is limited and with it the load on the seat occupant.

The Mercedes-Benz A-Class's family-friendly features also include the ISOFIX child seat securing system on the outer seats. Child seats can additionally be fixed to the vehicle by means of special anchorage points with top tethers.

Innovation in the compact class: anticipatory occupant protection system

The PRE-SAFE® anticipatory occupant protection system is available in the A-Class for the first time. This represents a further step in the on-going democratisation of this innovation, which was premiered in the S-Class in 2002.

PRE-SAFE® from Mercedes-Benz uses the time between detection of a potential accident situation and a possible collision to initiate preventive protection measures, thus reducing the loads exerted on the occupants in the event of a crash by up to 40 percent.

Core features of PRE-SAFE® are reversible belt tensioning, the closing of side windows and sliding sunroof when critical lateral dynamics are detected and adjustment of the fully electric front passenger seat with memory function to an ideal position for maximum effectiveness of the restraint systems.

PRE-SAFE® is activated when one of the following parameters is met: emergency braking, panic braking, pronounced over- or understeering, critical steering movements or heavy support by adaptive Brake Assist.

Mercedes-Benz automatic emergency call system: faster assistance at the scene of an accident

In combination with COMAND Online, the new Mercedes-Benz A-Class is equipped with the Mercedes-Benz emergency call system. As long as COMAND Online is connected to a mobile phone, the Mercedes-Benz emergency call system can automatically alert the emergency services within a matter of minutes in the event of a serious accident.

After the airbags or belt tensioners are triggered, the vehicle's exact GPS position and vehicle identification number (VIN) are sent by SMS to a special emergency centre, with positional data also being transmitted using the DTMF method (dual-tone multi-frequency) at the same time. Even if the occupants are unconscious or unsure of exactly where they are because they are on a holiday trip, for example, the emergency services alerted by the emergency centre will be notified quickly with accurate information. The driver can also make the emergency call manually as "MB emergency call" is always the first entry in the system phone directory.

On receiving the call, the emergency centre establishes voice contact with the vehicle occupants in a matter of seconds. A particularly practical aspect in an emergency is that the communication is held not in the language of the country where the accident has occurred but in the language which the driver has preset in COMAND Online.

Other than any mobile phone communication charges, which would only arise in the event of an actual emergency call, no charges are incurred by the driver for the emergency call facility and no contractual relationship - other than the regular mobile phone contract - is required.