Tuesday, January 8, 2013

Wiesmann Roadster MF5, 2010



 


  • Wiesmann Roadster MF5, 2010

Delivering a top speed of 310 km/h, an exceptionally low power-to-weight ratio of only 2.7 kg/hp and completing the sprint from standstill to 100 km/h in 3.9 seconds, the Wiesmann Roadster MF5 takes even experienced sports car enthusiasts into a brand new dimension of driving enjoyment. 

The exclusive open-air experience will only be available to a select few because the spirited power package is only being produced in a limited edition of 55. Equipped with a V10 engine, 507 HP and 520 Nm torque, it's a car that appeals to all the senses. The extendable rear wing of the roadster version plus perfectly balanced suspension set-up guarantees the necessary stability, even at top speeds.

The Wiesmann Roadster MF5 is available from a basic price of EUR 189,500.



Volvo XC60 Plug-in Hybrid Concept, 2012

 
 
 
 
 
  • Volvo XC60 Plug-in Hybrid Concept, 2012

At the 2012 North American International Auto Show in Detroit, Volvo Car Corporation will unveil an innovative gasoline plug-in hybrid. The Volvo XC60 Plug-in Hybrid Concept is an electric car, a highly economical hybrid and a powerful high-performance car all rolled into one. At the touch of a button, the driver decides how the available power from the combination of the high-performance gasoline engine and the electric motor is to be utilized.

Pure Hybrid Power - three cars in one
The driver chooses the driving mode via three buttons on the instrument panel. The buttons give the car three distinct temperaments: Pure, Hybrid or Power.

    In Pure mode the car is powered solely by its electric motor as much as possible. The operational range is up to 35 miles (charge depleting range, U.S certification driving cycle) with zero tailpipe emissions in urban traffic. The range according to the European certification driving cycle NEDC is 45 km.
    Hybrid mode is the standard setting whenever the car is started. The gasoline engine and electric motor cooperate to provide maximum driving pleasure with minimum environmental impact. According to the European certification driving cycle NEDC, CO2 emissions are 53 g/km (2.3 l/100 km) - which translates into fuel economy of over 100 mpg. Using the U.S certification standards, which include emissions from the production of the electric energy, the combined fuel economy in continuous driving is 50 mpg. The car has a total operating range of up to 600 miles (960 km).
    In Power mode, the technology is optimized to create maximum possible power. The gasoline engine with 280 hp and 380 Nm (280 lb.-ft.) is combined with the electric motor with 70 hp and 200 Nm (148 lb.-ft.). The electric motor's instant torque delivery contributes to the car's acceleration from 0 to 60 mph in 5.8 seconds (0-100 km/h in 6.1 seconds).

Four cylinders with the same power as a six-cylinder unit
The front wheels of the Volvo XC60 Plug-in Hybrid Concept are powered by a four-cylinder turbocharged gasoline engine from the forthcoming VEA (Volvo Environmental Architecture) engine family. This engine produces 280 horsepower and maximum torque of 380 Nm (280 lb.-ft.). Power delivery to the wheels comes via a newly developed eight-speed automatic transmission.

VEA is a modular range of diesel and gasoline engines. The gasoline versions come with direct injection, minimized internal losses and balance shafts for maximized comfort.

Several levels of turbocharging open up for flexibility that encompasses the whole range from high power and torque variants to extremely fuel-efficient derivatives. In order to cover all customer requirements, certain engines will gain added performance via hybrid drive or other spearhead technology.

The modular format is based on a standard of 500cc (30 cubic inches) per cylinder for optimum thermodynamics. It could also be used to develop three-cylinder engines. VEA offers several advantages

    The number of unique parts is reduced. This promotes manufacturing efficiency, quality assurance and efficiency of new development projects.
    The new powertrains are considerably lighter than present engines with similar performance.
    Fuel economy is improved by up to 35 percent compared to engines with similar performance.
    Modularity and compact transverse design are also ideal for future electrification developments.

Integrated Starter Generator

The engine in the Volvo XC60 Plug-in Hybrid Concept has no conventional starter motor or alternator. Instead, there is an Integrated Starter motor and Generator (ISG) connected to the crankshaft, which is located between the engine and the transmission. The ISG is capable of delivering an extra 34 kW (45 hp) during acceleration. It also charges the battery during braking.

Charge the battery at home
The rear axle of the Volvo XC60 Plug-in Hybrid Concept is driven by an electric motor producing 70 horsepower. It is supplied with power from a 12 kWh lithium-ion battery pack installed under the floor of the load compartment.
The battery pack is recharged from a regular power outlet, at home or at a parking place. Recharging time varies with the current. If 220V is available a full charge with 12A takes just 3.5 hours. With 110V/12A a full charge takes 7.5 hours.

It is also possible while recharging the car to heat or cool the passenger compartment in order to make the start of the journey more comfortable. This also means that more battery power is available to propel the car.

Constantly online
The Volvo Sensus infotainment system in the XC60 Plug-in Hybrid Concept keeps the driver constantly updated on everything that makes the journey simpler, more efficient and more entertaining. A few examples of available information:
    Best route to the destination depending on whether the driver prioritizes low energy consumption, the fastest route or the shortest distance.
    Low Emission Zones where sufficient capacity is needed for running on pure electricity.
    Charging stations with access to renewable electricity.
    Locations along the route with access to quick-charging facilities.

Mobile application
The driver also can connect to the car via a mobile phone application. This offers convenient access to a wide range of data, such as the battery's charge level, remaining range, and the location and capacity of the nearest recharging station. Via the app, it is possible to verify if the charger cable is hooked up and it is also possible to pre-program the car's interior climate.

Muscular appearance
The Volvo XC60 Plug-in Hybrid Concept is painted in a special white color and the 21-inch wheels enhance the muscular appearance. The interior features unique detailing and colors, such as sober dark-blue leather upholstery and inlays of blue-grey wood.

The instruments have been tailored to give the driver all the necessary information about petrol and electricity consumption, battery charge level, remaining range and so on.

Electric four-wheel drive
The electric four-wheel drive in the Volvo XC60 Plug-in Hybrid Concept is activated by pressing the AWD (All Wheel Drive) button. Instead of the mechanical power transfer of conventional four-wheel drive, the central control unit distributes power between the gasoline-driven front wheels and the electrically driven rear axle.

The electric four-wheel drive system has been designed to provide better traction when starting and when driving on slippery roads, for instance in snow or mud.

Saves battery power for later
The driver can choose to save battery power for later in order to drive on pure electricity later in, for example, an urban green zone or in the heart of a city. When Save is activated, the generator charges and tops up the battery pack if necessary. The aim is to ensure sufficient battery power for about 12 miles (20 km) of driving on electricity.

Volkswagen E-Bugster Concept, 2012

 
 
 
 
  •  Volkswagen E-Bugster Concept, 2012

The latest Beetle might be 'more power, less flower', but that doesn't mean that it's anything other than environmentally conscientious, and that's especially the case with the Volkswagen E-Bugster Concept, which is powered purely by electricity.

Revealed at the 2012 North American International Auto Show in Detroit, the two-seat VW E-Bugster Concept continues the latest Beetle's sporty theme. An electric motor provides 85 kWh of power, which can propel it from 0 to 60 mph in 10.9 seconds, and yet offer a range of at least 110 miles from the 28.3 kWh lithium-ion batteries. Even in a country as large as America, that's sufficient for the majority of commuters' needs, while if the E-Bugster needs a top-up, a fast-charging function allows complete recharging in just 35 minutes.

The quick charging is possible thanks to a new Combined Charging System that was developed in co-operation with Audi, BMW, Daimler, Porsche, Ford and General Motors/Opel. This allows charging via single-phase AC sources (for example a 120-Volt US or 230-Volt European domestic outlet) or via ultra-fast DC sources at specific charging stations. To succeed, this will require the development of a uniform industry standard for sockets and plugs and also for the charge controller, so that all charging types can be handled.

Of course, the Volkswagen E-Bugster doesn't charge only when plugged in: as soon as the driver's foot leaves the accelerator pedal kinetic energy is transformed into electricity and stored in the battery. Applying the brakes increases the intensity of regeneration, a function that is indicated to the driver in the instrument panel. Other instruments include driving range and battery state indicators, and a meter that shows how much energy the driver is requesting via the accelerator pedal.

At 4,278 mm long and 1,838 mm wide, the E-Bugster is the same length as a standard Beetle but 30 mm wider, while the new roof lowers the height by around 90 mm to 1,400 mm. This helps to give the Volkswagen E-Bugster its more dynamic and sporty look. The low, swept-back windscreen ensures maximum visibility, as does the wide rear screen, which shows that speedster-style vehicles need not be impractical.

Both front and rear bumpers have been substantially modified from those of the production Beetle. At the front, LED daytime running lights at the outer edges of the central air intake form a C-shape on the left that is mirrored on the right - a signature feature of Volkswagen's electric vehicle concepts. This is also true at the back, where reflectors take the place of LEDs. Beneath the flared wheel arches sit 20-inch alloy wheels that are adapted from the 18-inch 'Twister' alloys of the production car, with 235/35 tyres. Around the bottom edge of the side windows is a chrome strip that loops around the vehicle from A-pillar to A-pillar. From this chrome strip to the top of the VW E-Bugster's hard top the height is a low 400mm.

Inside, the two-seat interior reflects the E-Bugster's blend of high-tech and sportiness, with sports seats nestling either side of a continuous centre console, plus aluminium door handles and seatbelt guides.

Starting the Volkswagen E-Bugster Concept is pure theatre: upon pressing the Start button the interior is bathed in white light, then blue light. It starts with a light pulse in the instrument cluster, from where the light emanates in a millimetre-wide strip, coursing into the doors and around the air nozzles.

If the E-Bugster's name is familiar, it should be: it takes some inspiration from the Ragster concept that made its debut at the 2005 Detroit Show, and which itself inspired the current Beetle. The 'E' of the name signifies the vehicle's electric power, and the 'Bug' part of the name should need no explanation.

Volkswage Cross Coupe TDI Concept, 2012

 
 
 
 
 
  •  Volkswage Cross Coupe TDI Concept, 2012

Research - regardless of the area of research - always aims to identify solutions that point the way to the future. In December 2011, it was the VW Cross Coupé - a concept vehicle from Volkswagen - which with a fuel consumption value of just 2.7 l/100 km (equivalent to 62 g/km CO2) illustrated a technical approach to implementing an SUV that can be extremely fuel-efficient despite its high performance and all-wheel drive system. This plug-in hybrid concept was driven by two electric motors and a turbocharged petrol direct-injection engine (TSI). Now, Volkswagen has conceptualised an even more fuel-efficient Cross Coupé. It is powered by an alliance of a turbodiesel direct-injection engine (TDI) and two electric motors. Its combined fuel consumption in the New European Driving Cycle (NEDC) is a sensationally low of 1.8 l/100 km. This is equivalent to CO2 emissions of just 46 g/km. Noteworthy here is the fact that the Cross Coupé is a powerful SUV with a top speed of 220 km/h, 225 kW / 306 PS of power (system power) and a kerb weight of 1,858 kg. Volkswagen is presenting the concept with a TDI plug-in hybrid in a world premiere at the Geneva International Motor Show (08 to 18 March 2012).

Efficiency and driving fun meld together
High-tech network. Technically, the SUV is based on the new Modular Transverse Matrix (MQB) from Volkswagen AG.
Within the MQB, there are certain design parameters that are standardised across model series and brands - such as the distance between the accelerator pedal and the front wheel axis and the mounting position for all engines. There are also variable parameters that make it possible to optimally and individually develop a wide variety of models. They include such parameters as the wheelbase, track widths and wheel sizes, for example.

In the new Volkswagen Cross Coupé, MQB elements for a future generation of SUVs - in this case, the MQB front and rear suspensions, 140 kW / 190 PS TDI of the new EA288 engine series and a 6-speed DSG. They were merged with electrical components that are also "made by Volkswagen", and they include the lithium-ion battery in the centre tunnel, front E-motor with 40 kW and rear E-motor with 85 kW.

Breadth of variations. The Cross Coupé also impressively demonstrates the large breadth of variations that can be implemented based on the MQB. It should be noted that the modular systems used in the concept car could theoretically have been used, just as easily, to produce a full hybrid (without external interface) or a vehicle with only an internal combustion engine or only an electric drive instead of the plug-in hybrid (battery with external interface for charging) that was actually implemented.

Efficiency and dynamic performance. Efficient drive technologies can offer extreme levels of dynamic performance. The new Cross Coupé demonstrates this par excellence. Its combination of cutting-edge fuel efficiency and exceptional dynamic performance demonstrate that an all-round vehicle of a sporty kind has been created here like never before. The Volkswagen Cross Coupé being shown in Geneva accelerates to 100 km/h in just 6.5 seconds, and its TDI develops a torque of up to 400 Nm from very low revs - from approx. 1,600 rpm. Practically at the press of a button, the two E-motors deliver 180 Nm of torque in front and 270 Nm at the rear. During boosting - which involves full use of both motors and the engine - the drive system supplies a maximum system torque of 700 Nm. This performance positions the concept car in the field of today's high-performance sports cars, yet the vehicle consumes less fuel than any other small car!

Intelligent networking of drive systems
Zero emissions thanks to electric motors. In pure electric mode - in this case its speed is limited to 120 km/h -, the concept car can cover up to 45 km. This is sufficient driving range for most of the world's commuters to drive to work with zero emissions. In pure E-mode, the driver can choose whether the focus should be on optimising electric driving range or dynamic performance. This is implemented by the combination of E-mode and CITY mode and the combination of E-mode and SPORT mode. In the electric driving range maximising E-mode (CITY), only the E-motor on the rear axle powers the car. In the dynamic E-mode (SPORT), the electric drive system powers both the rear and front wheels. In pure electric driving, the turbodiesel is decoupled from the drivetrain by disengaging the clutch, and it is shut off. The clutch on the gearbox side remains closed, and the 6-speed DSG is engaged. The E mode is activated by pressing what is knowna s the EV mode button (EV: electric vehicle) next to the gear shift lever. The Cross Coupé then drives like a purely electric vehicle. Even during fast driving, the internal combustion engine is not engaged, provided that the battery is sufficiently charged. As soon as the power of the TDI is needed again, either because of the battery's charge state or other parameters, the engine engages without any jolt, and it is once again actively coupled to the drivetrain within fractions of a second.

Battery in the centre tunnel. In pure electric driving, the E-motors are supplied with energy from a lithium-ion battery that consists of eight modules. The battery has an energy capacity of 9.8 kWh and is located in the centre tunnel of the Cross Coupé. Power electronics operating at a voltage of approx. 370 Volt, which is integrated in the front engine compartment, manages the flow of high-voltage energy to and from the battery and the electric motors. Meanwhile, the 12 Volt electrical system is supplied with power via a DC/DC converter. The electric drive system does not impose any space limitations on the interior. The battery can be charged either from external power sources (230 Volt connection) or while driving.

Charging also at push of a button. The driver can intentionally switch to CHARGE mode (by pressing another button next to the gear shift lever) to charge the battery via the TDI engine while driving. This mode might make sense, for example, if the driver wishes to drive in certain designated environmental zones that might be toll-free for electric vehicles operating with zero emissions. The momentary electric driving range and total range of the Volkswagen Cross Coupé are continually displayed in the instruments. An engine controller regulates the overall energy and drive management system under consideration of the specific load demanded by the driver. The driver can choose from a total of five driving modes: CITY (an eco mode with minimal fuel consumption), SPORT (high dynamic performance), OFFROAD (continuous all-wheel drive), E-mode (pure electric driving) as EV-CITY or EV-SPORT, or CHARGE (via the TDI). In parallel, the Cross Coupé utilises different operating states, in which the motors/engine and drive axles are coupled or decoupled as a function of driving needs:

Zero emissions by 'sailing'. As soon as the driver lifts his or her foot from the accelerator, both electric motors and the engine are shut off and decoupled from the drivetrain - provided that the battery is sufficiently charged. This is referred to as 'sailing'. Zero emissions are generated in this case as well.

Zero emissions in battery regeneration mode. If the driver takes his or her foot off the accelerator pedal or brakes, and the battery is not sufficiently charged, the two electric motors are operated as generators to feed energy recovered from braking into the lithium-ion battery. The TDI is also shut off and decoupled in this operating state.

Boosting. When driving should be especially sporty in nature, the E-motors form an alliance with the TDI. In the professional jargon of the hybrid world this joining of forces is known as 'Boosting'. The Cross Coupé is driven by all four wheels in this mode.

Offroad with 'electric propshaft'. As soon as the driver chooses to activate OFFROAD mode, all four wheels are once again driven. However, in this mode the front electric motor, now supplied with energy by the TDI, is the sole source of electrical power for its counterpart at the rear axle. Since the energy for the rear electric drive is by wire and does not flow mechanically, this is referred to as an 'electric propshaft'. Since the TDI powers the rear electric motor via the front electric motor in OFFROAD mode, the all-wheel drive system is fully functional, even if the lithium-ion battery is in a low charge state.

Driving with the TDI. If the TDI is powering the vehicle by itself, the Cross Coupé is a pure front-wheel drive vehicle. In driving states in which greater fuel efficiency is possible by load boosting, the E-motors act as generators to charge the battery. When all of the on-board energy reserves are utilised, the vehicle's combined fuel consumption value is 1.8 l/100 km; the vehicle's 55 litre fuel tank thus enables a theoretical driving range of 1,287 km.

The new TDI of the Cross Coupés
Engines of the MQB. As noted, the TDI of the Volkswagen Cross Coupé is an engine developed especially for use in the Modular Transverse Matrix (MQB). A key characteristic of the MQB is a uniform mounting position for all engines. Therefore, Volkswagen developed two new engine series - the EA288 series was created for the diesels, and the EA211 series for the new petrol engines. Within the MQB, these two engine series and relevant electric motors make it possible to implement any classic, alternative or hybrid drive system.

Range of turbodiesels. The new TDI engines of the MQB will be available in versions with 1.6 and 2.0 litre displacement and will span a power range from 66 kW / 90 PS to the 140 kW / 190 PS of the concept car in Geneva. The diesel engines are not only exceptionally low-emitting, fuel-efficient and torque-strong. They are also exceptionally refined and smooth running. Consider the 2.0 TDI of the Cross Coupé: two balancer shafts are used. They eliminate system-induced free inertial forces that naturally occur in a reciprocating engine. Meanwhile, the toothed belt drive for the oil and vacuum pump, which operates in the sump oil, and the engine's encapsulated injection nozzles also have a positive effect on acoustic comfort.

SUV styling meets coupé dynamics
More streamlined than other SUVs. At a length of 4,357 mm, the Cross Coupé is longer than a Golf and shorter than a Tiguan. The vehicle's width (1,868 mm) and height (1,523 mm) are positioned exactly between these two bestsellers as well. The concept vehicle's wheelbase of 2,630 mm is clearly long relative to its overall length (52 mm longer than in the Golf, 26 mm more than the Tiguan). This makes the body overhangs short (855 mm in front, 860 mm at rear), and in the interplay of all dimensions the car's overall proportions are extremely attractive. The vehicle's large track widths of 1,585 mm (front) and 1,613 mm (rear) emphasise its powerful appearance. More important to driving on unpaved trails are parameters such as the vehicle's approach/departure angles and its ramp angle. The approach angle in front is a good 24.2 degrees, while the departure angle at the rear is 32.5 degrees - excellent for offroad driving. The ramp angle, which is important for driving over hilltops, is 15 degrees.

Precisely shaped coupé silhouette. Defining the look of the Cross Coupé are its very long bonnet, new front end styling, passenger compartment shifted significantly towards the rear, and very streamline line of windows compared to conventional SUVs. Overall, the designers also gave the vehicle muscular, athletic and yet very clean lines. In keeping with the powerful appearance of the Volkswagen Cross Coupé, it is equipped with 20-inch alloy wheels fitted with 265/45 tyres. Towards the rear, a large-volume coupé-like C-pillar is built over the wheel housings.

Impressive front end. The characteristic horizontal lines of the 'Volkswagen face' forge a link between present and future on the Cross Coupé. Different than on today's models, the designers have physically merged the xenon dual headlights and chrome ribs of the radiator grille. Specifically, the headlights join to two overlapping chrome strips. Chrome wings ascending towards the outside emphasise the vehicle's width and are part of a new type of lighting concept; the lower of the two chrome wings contains the daytime running light, while the upper wing houses the direction indicators. The LED fog lights are mounted in the bottom section of the bumper.

Rear of a SUV coupé. The rear is also typified by a streamlined line of side windows. Typical of a coupé is the rear window that is worked in at a low angle. At its top, the boot lid terminates in a spoiler, which visually extends the roof surface and technically optimises aerodynamics as a trailing edge. The rear lights have a narrow profile. Typical of an SUV, meanwhile, is the brawny rear bumper, in which dual tailpipes are integrated to the outer left and right.

Sporty interior with rugged qualities
The best of two worlds. The SUV and coupé worlds form an exciting alliance in the Cross Coupé. In the four-seat interior, this has resulted in all design details being much sportier than in conventional SUVs. Consider the instruments: they have the dynamically precise lines of a coupé, but they are positioned up high as in an SUV. The surfaces of the instruments are very sophisticated in their construction, but they are designed to be very rugged. This ruggedness is also reflected in user controls, handles and the general feel of interior elements. Take the centre console, for example: two aluminium dials make control of powertrain and climate functions quick and easy. Located between these two dials is the button for the electronic parking brake, and in front of it are the gear shift grip of the 6-speed DSG, also in aluminium. Integrated in front of this, in turn, is the start button for the drive system. To the right and left of the gear shift lever, there are sturdy yet elegant grab handles and, on the right side, the selection buttons for pure electric driving and active battery charging. Further up, there is a touchscreen display, on which onroad and offroad navigation and all relevant vehicle features up to and including the audio system are shown.

Programmable instruments. Arranged behind the three-spoke steering wheel is a user-programmable instrument cluster display. A control wheel to the left of the gear shift lever can be used to dynamically change the display contents between the modes 'SPORT', 'CITY' and 'OFFROAD'. The functionally different display mode contents are activated based on this selection - a gyrometer, compass and topographic map are shown in OFFROAD mode, for example. All three modes have unique layouts, and they also have different colour schemes. Centrally positioned between the two round instruments is another multifunction colour display for showing vehicle information, the telephone menu, audio information and other navigation data as well as a 3D offroad view.

Ergonomics for long trips. The Volkswagen Cross Coupé is equipped with four individual seats, each designed as a shell with a permanently integrated head restraint. These seats exhibit very balanced ergonomic properties. There is ample room for all four occupants - to their sides, in front of them and above them. The backrests of the rear seats and front passenger's seat can be folded forward completely to load surfboards, paragliders or other bulky equipment in the Cross Coupé. Helpful here: the backrests have exterior plastic shells; folding them produces a durable cargo surface. The boot behind the rear seats has a volume of 380 litres (up to the height of the window sill). When the interior is filled to the backs of the front seats and all the way to the roofliner, cargo capacity increases to 1,230 litres - a lot of space for a car that only consumes 1.8 l/100 km!

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