Electric RaceAbout Nurburgring Lap Record [video]

Electric RaceAbout driven by Ralf Kelleners lapped the Nürburgring Nordschleife in 8:42.72. That is faster than the Peugeot EX1 Concept @ 9:01.338 but slower than Toyota Motorsports with a 7:47.794.

Ford May Make Electric Cars in China: Mulally

Ford Motor Co. (F) may make electric cars with its partner in China as the auto industry moves toward producing more fuel-efficient vehicles, Chief Executive Officer Alan Mulally said.
“Our plan is to make the vehicles people want and value, in China and around the world,” Mulally, 66, said in a Bloomberg Television interview on Sept. 24 in Chongqing, China. “As we move to more electrification you’re going to see more hybrids, plug-in hybrids and all-electric.”

Mulally, who was in China to attend the groundbreaking ceremony of an engine transmission plant at its venture with Changan Automobile Group, didn’t provide a schedule for building electric cars. Rivals Daimler AG (DAI) and General Motors Co. (GM) have announced plans to add alternative-energy vehicles in China as the country, the world’s largest polluter, seeks to reduce emissions. The government aims to have 1 million electric- powered vehicles on the road by 2015, according to the Ministry of Science.

GM on Sept. 20 signed an agreement to develop electric cars in China with its partner SAIC Motor Corp. GM, which plans to introduce the plug-in hybrid Chevrolet Volt in China in the fourth quarter, will not give SAIC or the Chinese government intellectual property for the Volt as part of the agreement, GM Vice Chairman Steve Girsky said.

Fully Charged episode 29 Peugeot 3008 diesel hybrid [video]

A test drive in the new Peugeot 3008 diesel hybrid

A Closer Look at the Fisker Surf Hybrid Wagon [video]

The new Fisker Surf is the world’s first electric luxury/sports automobile for an active and eco-friendly lifestyle. The Fisker Surf builds on the success of the ground-breaking Karma Electric Vehicle with extended range (EVer™) by adding additional, flexible load-carrying capability, along with a spirited new attitude all its own.

The Surf is Fisker’s vision of a crossover between a sport car and a station wagon and shows how Fisker is expanding its Karma platform rapidly with additional models that again create a new market niche.

Fisker say the Surf will be launched in 2013.

Audi EV and Hybrid Showcase @ IAA Frankfurt [video]

e-tron, hybrid, concept cars: Audi concepts for sustainable mobility are as diverse as the challenges.

Toyota Announces Pricing for 2012 Prius v and Prius Plug-in [video]

Toyota Motor Sales (TMS), U.S.A., Inc. announced manufacturer's suggested retail prices (MSRP) here today at the annual Green Drive Expo for two new hybrid vehicles, the Prius v and Prius Plug-in.

Since 1997 to present day, the Prius has been the dominant leader in hybrid technology worldwide. In the U.S. alone, the Prius has sold more than one million units since 2000. The all new Prius v and Prius Plug-in are the two newest hybrid vehicles to help make up the Prius Family. A fourth new member, the city-friendly Prius c, will launch in 2012.

Prius v

The first new member of the Prius Family, the Prius v, will meet the needs of growing families with active lifestyles while providing the same attributes traditionally found in the Prius DNA including Toyota's Hybrid Synergy Drive. The Prius v will provide 58 percent more cargo space than the Prius Liftback, and at 34.3 cubic feet, it has more cargo room than 80 percent of the small SUVs on the road today. Despite the spaciousness of a family friendly midsize vehicle, the Prius v will deliver estimated EPA fuel economy ratings of 44 mpg city, 40 mpg highway and 42 mpg combined, the highest fuel efficiency of any crossover, SUV or wagon on the market.

The Prius v will have three configurations to help provide an easy ordering process, the value-driven Prius v Two, the well-equipped Three, and the premium level Five. All Prius v models come equipped with a wealth of standard comfort and convenience features including a new 6.1-inch Display Audio system with integrated backup camera, Bluetooth® and USB port, 16-inch alloy wheels with wheel covers, single-dial climate control, EV/ECO/Power modes, driver door Smart Key System, instrument panel with driver feedback displays, Toyota's Star Safety System™ [which includes the Anti-lock Braking System (ABS), Electronic Brake-force Distribution (EBD), Brake Assist (BA), Enhanced Vehicle Stability Control (VSC), Traction Control (TRAC) and Smart Stop Technology], 60/40 split sliding and reclining rear seat, comfortable driver seating with power lumbar support and much more.

The Prius v Three adds standard Display Audio with Navigation and the Entune1™ multimedia system (includes SiriusXM™ Satellite Radio with 90-day trial subscription, HD Radio® with iTunes® Tagging and text-to-speech with programmed and customizable test responses).

In addition to standard features on the Prius v Two and Three, the Prius v Five adds standard SofTex-trimmed seats, heated front seats, three-door Smart Key, 17-inch alloy wheels, LED headlamps, fog lamps and more.

The base MSRP for the Prius v are $26,400 for the Prius v Two model, $27,165 for the Prius v Three, and $29,990 for the Prius v Five. The Prius v will arrive at Toyota dealerships in late October.

Prius Plug-in

The third member of the Prius Family, the first-ever Prius Plug-in Hybrid, combines the benefits of the third-generation Prius Liftback's Hybrid Syndergy Drive with extended electric vehicle (EV) range, in a package that is priced more competitively than any plug-in hybrid or pure EV on the market. It will feature a new Lithium-ion battery, which supplements the superior fuel economy of the Prius with an extended electric-only driving range of up to 15 miles at a maximum speed of 62 mile-per-hour. By Toyota estimates, it will deliver an estimated 87 MPGe (miles per gallon equivalent) and when operating in hybrid mode will achieve an estimated 49 MPG3, providing drivers with great fuel economy without range anxiety. The Prius Plug-in also offers convenient charging times of only 2.5-3 hours using a standard 120V outlet or 1.5 hours using 240V.

The Prius Plug-in will share many of the same exterior and interior design elements as the 2012 Prius Liftback. Design features exclusive to the Plug-in include unique chrome grille and bumper trim, chrome door handles, unique 15-inch alloy wheels, blue-accented headlamps, a distinct tail lamp design, and a new Hybrid Synergy Drive Plug-in badge.

Prius Plug-in Hybrid will be available in two models, the Prius Plug-in and the Prius Plug-in Advanced. The Prius Plug-in Hybrid model comes equipped with an abundance of standard features including heated front seats, Remote Air Conditioning System (which can run either off the grid while the vehicle is plugged in or off the battery like the third-generation Prius Liftback), a charger timer, EV/ECO/POWER modes, three-door Smart Key, Display Audio with Navigation and Entune1 and an integrated backup camera, LED Daytime Running Lights, 15-inch 10-spoke alloy wheels, enhanced Multi-information Display and much more.

The Prius Plug-in Advanced model adds additional standard features including Premium HDD Navigation with Entune2 and JBL® GreenEdge™, Plug-in Hybrid Applications through a user's smartphone (Charge Management, Remote Air Conditioning System, Charging Station Map, Vehicle Finder and Eco Dashboard), Head-up Display, Dynamic Radar Cruise Control, Pre-Collision System, LED headlamps with auto on/off feature and integrated fog lamps, SofTex-trimmed seating, an eight-way power adjustable driver's seat, Safety Connect and more.

The base MSRP for the Prius Plug-in Hybrid is $32,000. The Prius Plug-in Hybrid Advanced will have an MSRP of $39,525. Both Prius Plug-in models are expected to qualify for a federal tax credit of approximately $2,500.

The Prius Plug-in Hybrid will be on sale in 14 launch states beginning this October through Toyota's Online Order System at www.toyota.com. Vehicle deliveries begin in Spring 2012. The launch states include California, Oregon, Washington, Arizona, Maine, Massachusetts, Vermont, New Hampshire, Rhode Island, Connecticut, New York, New Jersey, Maryland, and Virginia. A national rollout is planned for 2013.

The MSRP for the 2012 Prius v and Prius Plug-in does not include the delivery, processing and handling (DPH) fee of $760. The DPH fee for vehicles distributed by Southeast Toyota (SET) and Gulf States Toyota (GST) may vary.

Leviton Level 2 (240V) Home Charging Stations

Leviton, an approved provider of Level 2 (240V) home charging stations, has developed a residential program exclusively tailored for Prius Plug-in customers. The program will include the following:

A one-stop solution for home charging stations, installation services for 120V and 240V applications, and dedicated support for Toyota customers;
Level 2 (240V) 16-amp and 30-amp home charging stations designed exclusively for the Prius Plug-in (UL-certified, compact design, easy-to-use, and made in the U.S.A.);
Industry-leading pricing for Level 2 (240V) with basic packages starting as low as $999;
Toyota-dedicated e-commerce web portal (leviton.com/Toyota) with product information, order tracking, and other features.

Prius Plug-in customers will be able to take advantage of Leviton's special pricing beginning in early October.

Delphi / WiTricity Wireless Electric Vehicle Charging [video]

Delphi Automotive has equipped several test vehicles with its Wireless Charging System, a highly efficient wireless energy transfer system featuring technology developed by WiTricity Corporation. Delphi will display the technology here at this year's IAA International Motor Show.

"This system represents a significant advancement in our research and development efforts to offer automotive manufacturers a practical wireless charging solution we believe is superior to others being proposed," said Randy Sumner, director, global hybrid vehicle development, Delphi Packard Electrical/Electronic Architecture. According to Sumner, engineers have installed the Delphi Wireless Charging System on multiple test vehicles, and have confirmed that system performance meets automotive market requirements.

In addition to added convenience, a wireless charging system eliminates the need for a charging cord. Drivers can simply park their electric vehicle over a wireless energy source situated on the garage floor or embedded in a paved parking spot. Other wireless charging systems under development make use of traditional inductive charging, the same technology used in electric toothbrushes, which is based on principles first proposed in the mid-nineteenth century. These systems only work over a limited distance range, require precise accurate parking alignment and can be very large and heavy, making them impractical for widespread use on electric vehicles.

“The Delphi Wireless Charging System offers more practical and flexible installation than traditional inductive systems because it uses highly resonant magnetic coupling, a modern technology that safely and efficiently transfers power over significantly larger distances and can adapt to natural misalignment often associated with vehicle positioning during parking,” Sumner said. As a result, Delphi charging sources can be buried in pavement, are unaffected by environmental factors such as snow, ice or rain, can accommodate a wide range of vehicle shapes and sizes and accommodate differing ground clearances. The Delphi system is also more forgiving to vehicle parking positions on top of the charger without requiring any moving parts to accommodate. The system transfers energy using an oscillating magnetic field, which is intrinsically safe for humans and animals.

According to Sumner, the system will automatically transfer power to the electric vehicle’s battery pack at a rate of 3,300 watts - the same rate as most residential plug-in chargers -- and is able to do so with the smallest and lightest modules possible. These components are important to minimizing overall vehicle weight and cost while maximizing the driving range of EVs, a critical selling point for automakers.

“We are excited by our testing and validation of the system and believe we have a valuable and unique wireless charging solution that offers the most potential for widespread use in the automotive market. With the support of automotive manufacturers, this technology can be integrated into the next generation of electric vehicles,” Sumner said.

Wireless charging technology will need to co-exist with plug-in charging solutions, he added, so that electric vehicle drivers have the ability to charge their vehicle when they are away from their wireless charging source.

Delphi also makes a Portable Electric Vehicle Charger that fits conveniently in the trunk of an electric vehicle. The user-friendly, UL-listed charging system plugs into any standard 120-volt outlet to enable safe electric vehicle battery charging at home or away. The charging unit can also be integrated into stationary charging applications.

Volkswagen NILS Single Seater EV launched in Frankfurt [video]

Volkswagen AG is presenting a car for the urban world of tomorrow at the Frankfurt International Motor Show (IAA): NILS. The single-seat electric vehicle reflects a new, fascinating form of minimalist mobility. The concept car - with its progressive aluminium space frame, wing doors and free-standing wheels - exhibits a high level of dynamic performance, yet travels with zero emissions and silently towards the future. The project is supported by the German Federal Ministry of Transport, Building and Urban Development.

Technically realistic and economically feasible. "NILS is a vehicle that anticipates the future. It looks as though someone has projected it back from the year 2030 to the world of today. This study melds sustainability, design and lifestyle in a new way. A high-tech vehicle from the Volkswagen company with an electric drive, but very realistically conceptualised," says Dr. Ulrich Hackenberg, member of the Board of Management and Head of Development for the Volkswagen Brand. Prof. Dr. Jürgen Leohold, Director of Volkswagen Group Research explains the project from the research perspective: "In the context of the growing influence of electric mobility, cutting edge vehicle concepts like these - which are based on intensive analyses of future and vehicle research and on strong networking ties to Marketing - will play an increasingly important role. That is because new, very target group specific requirements will be placed on cars with the advent of electric mobility.

These new vehicle concepts - together with the electrification of existing models - will help to advance electric mobility to a breakthrough." In this context, Dr. Ulrich Hackenberg explains further: "The goal of the NILS project is to work out a technically concrete and economically feasible vehicle concept for micro-mobility, which restructures individual transportation to make it more efficient and environmentally compatible based on electric drive technology." Prof. Dr. Jürgen Leohold adds: "Therefore, Group Research intensively analysed all facets of commuter transportation with the goal of making it sustainable for the future. The results of these analyses were made available to individual vehicle development departments. And so, all of the company's brands - from A for Audi to V for Volkswagen - are benefiting from the think tank of Group Research."

Networked know-how. Dr. Ulrich Hackenberg comments: "The close cooperation with Group Research has meant that we at Volkswagen are really able to put cutting-edge vehicle projects in motion. We benefit from the networked know-how of the company here. This also includes the Volkswagen Design Centre in Potsdam. There, under the leadership of Thomas Ingenlath, an entirely new interpretation of Volkswagen design was accomplished in NILS. Those viewing this concept car can look far into the future of our brand and of the automobile itself. NILS is anything but a dry-run exercise; it is very realistic. Despite its compact dimensions, the concept fulfils all safety requirements for contemporary vehicles, for example. Commuters would not only drive in an eco-friendly way, but would also be very safe in this car."

With a range of 65 kilometres, the 130 km/h NILS would certainly be the ideal vehicle for the majority of commuters in Germany. According to the German Federal Statistical Office, 73.9 per cent of all commuters residing between Berlin and Munich cover less than 25 kilometres on their way to work. So, NILS is designed to be a reflection of a new era.

NILS defines new segment

Electric traction changes mobility. Automobiles have always been mirrors of the times with their design styles and technological standards reflecting the status quo of a particular era. Consider Volkswagen: at the turn of the century, the age of downsizing gained momentum in the powertrain area. At the same time, a new quality of styling took hold, which today is still marked by maximum clarity and precision. Currently, we are experiencing yet another developmental thrust: the long-term breakthrough of electric traction. Many Group models in the higher vehicle classes are already available with hybrid drives, where the electric motor supports the conventional drive system. This emissions-reducing drive technology is now breaking into high-volume segments.

Golf with E-drive debuts in 2013. The first high-volume models with a pure electric drive will soon reach production readiness; the Golf, the best-selling car in the world, will debut with an electric drive (Blue-e-Motion) in 2013. In addition, electric traction will lead to entirely new concepts; they will result in vehicles that fulfil specific needs profiles more than ever. One of these needs profiles is that of commuters who commute to their jobs in their millions every day in the world's urban areas. For a long time now, public transportation has not always been the first choice of commuters for various reasons. In Germany, for example, about 60 per cent of all commuters travel by car according to the Federal Statistical Office; of these, over 90 per cent travel alone. Zero emissions vehicles like NILS will offer these frequent drivers a new eco-friendly mobility solution.

NILS leaves a small footprint in traffic

Narrower, lower, shorter, different. The concept is a very compact car that requires extremely little space in traffic. NILS is only 3.04 metres long, making it about 50 cm shorter than the new Volkswagen up! model. The width of the NILS, from wheel to wheel, is 1.39 metres; the body itself measures only 0.86 metres wide. The concept car is 1.2 metres tall. By means of comparison: a Porsche 911 is taller at 1.31 metres.

Design was created in Potsdam. More important than its dimensions is the layout of its body. NILS shares the same basic body layout as a Formula-1 race car: driver in the middle, engine in back, aluminium wheels outboard and free-standing. The 17-inch alloy wheels are equipped with 115/80 (front) and 125/80 (rear) tyres optimised for low rolling resistance. The clean, distinctive styling of the NILS car has its origins at the Volkswagen Design Centre in Potsdam. Designer Thomas Ingenlath, the centre's director, comments on the research vehicle: "NILS was designed to make a visual statement and transport a vision of the automotive future to the present. The car had to visually highlight the theme of sustainability, while showing a future-oriented look and simply being fun. I think that we have successfully integrated both of these aspects. Although our mission here was to come up with an entirely new body concept for the brand, NILS matches the Volkswagen design DNA 1:1." Consider the bumpers: it is no coincidence that they remind one of the bumpers on the new up! with their black borders around the impact surfaces. Thomas Ingenlath continues: "I am especially pleased that we managed to implement the concept of the 2 glass wing doors. This allowed us to create large transparent surfaces and simultaneously make entering and exiting the vehicle very comfortable, even in the most cramped of parking spaces."

NILS is tailored to commuting distances

65 km and 130 km/h. Although, or even because, NILS is so compact and lightweight (460 kg), it is a lot of fun to drive. It is an agile car with a top speed of 130 km/h, and it can accelerate to 100 km/h in less than 11 seconds. This is accomplished by an electric motor with a reasonably small 15 kW nominal power and short-term peak power of 25 kW. A lithium-ion battery supplies the electric motor with energy. The battery capacity (5.3 kWh) enables driving ranges of up to 65 km, depending on the style of driving. A battery of this size is relatively inexpensive, and its capacity is sufficient for this type of car. The research vehicle can be charged either via a conventional 230 Volt electrical outlet (maximum charging time 2 hours) or at an electric vehicle charging station. The plug port is located at the back underneath the rear lighting module.

Electric motor is a lightweight 19 kg. In setting up the electric drive system, engineers made use of the great wealth of experience Volkswagen has acquired in developing other concept cars such as the L1 and XL1 as well as future production vehicles like the Golf Blue-e-Motion or up! Blue-e-Motion. The centrepiece of the drive unit is the lightweight 19 kg electric motor together with its transmission and battery. Energy management is via a high-voltage pulse inverter, which - together with the 12 Volt DC/DC converter for the vehicle electrical system and the charger - forms an integral drive unit. It is the rear axle that is driven. All drive unit components are located compactly in an aluminium housing. The unit, including the drive shafts, is integrated at the rear of NILS.

Space for shopping. The motor, battery and all other components are so compact in their construction that there is still space for a small but practical bootspace above the drive unit. As on the Golf, for example, the bootlid is unlocked via the VW logo; in this case, the body-coloured area above the rear lighting module swings upwards. The space is laid out so that users can conveniently stow items from a classic shopping trip - a case of drinks and a bag, for example.

NILS is sporty and agile

Optimal weight distribution. With a vehicle like NILS, the customer target group would not only commute to work with zero emissions, but as described would also have a lot of fun doing it. That is because the lightweight NILS drives like a sports car with its pure mechanical steering and centrally positioned shell seat; from a standstill, the electric motor produces a maximum torque of 130 Nm, which is transferred to the rear axle via a one-speed transmission. For wheel control and suspension, there are double-wishbone suspensions front and rear; the ESP electronic stabilisation programme ensures that with all of its agile performance, NILS will still stay on course. The car's very good weight distribution between the front and rear axles contributes towards the ESP having to do as little as possible.

NILS brakes and accelerates automatically upon request

Innovative City Emergency Braking. Another important electronic assistant in NILS is City Emergency Braking. The continually active system uses a laser sensor (in the front VW logo) to detect the risk of an imminent collision, and at that moment it automatically brakes the car. Depending on the car's speed and the driving situation, City Emergency Braking can reduce the speed at impact and might even prevent an accident.

Automatic Distance Control. City Emergency Braking is a software extension of the automatic distance control system (ACC). Its full range of functionality is available in NILS. The ACC system also uses a laser sensor to measure the distance and relative speed to the vehicle ahead in traffic - parameters to which NILS automatically adjusts its speed. Beforehand, the driver preselects the desired following distance and vehicle speed, similar to a cruise control system. The automatic distance control system has intuitive controls with 3 new multifunction keys in the steering wheel. Two arrow keys are used to vary the vehicle speed (in open driving) and the distance to the vehicle in front. Another key between the 2 arrow keys is used to activate or deactivate the ACC system. The system itself can be used over the entire speed range of NILS; in addition, the system can even automatically brake the car to a stop, depending on the situation. Not only are the four disc brakes used to brake; electric traction by electric motor and battery regeneration can be used to brake as well, depending on the driving situation. Last but not least, Front Assist is integrated in the ACC system. This continually active system warns the driver of a potential collision; at speeds below 30 km/h, automatic braking can avoid a collision under some circumstances.

Digital instruments

TFT display as instrument cluster. The instrument cluster was tailored to the electric vehicle. The main feature here is a 7-inch TFT display. The vehicle's speed is shown digitally in the middle. Energy flow is visually represented by bar elements. Another graphic display offers information on the driving range.

Clever touchscreen. The second central instrument is a mobile multifunctional system like the one used in a similar form in the new up!: the Portable Infotainment Device (PID). It is snapped onto the A-pillar to the right of the instrument cluster. Via touchscreen, the driver controls functions related to "Navigation", "Radio", "Media", "Telephone", "Trip computer" and - to preconfigure the driving range - "Eco". At the start of the drive, the PID computes the expected driving range, then it not only displays the route on the map display, but also the radius and thereby the destinations that can be reached using the current battery charge.

Simple where it makes sense. To save on weight and costs, certain functional elements and controls are operated without electrical assistance. The side mirrors, for example, are adjusted manually, which is not really an inconvenience in an interior that is only 0.61 metre wide. There is no power assistance for steering either; however, this is no problem on a vehicle weighing less than 500 kg. Meanwhile, the heating and ventilation system has fully electronic control. The driver sets the temperature and blower setting via 2 controls in the form of electronic sliders; 2 additional sliders are used for the ventilation flap position (air flow direction) and seat heating. Located to the right of the steering column is the motor start-stop switch; this round, handy switch is also used to select the position of the single-speed transmission (D, N or R).

NILS relies on aluminium space frame body

Safe like a big car. The aluminium space frame body was designed to be a highly effective safety cell. The body-in-white - i.e. the basic structure without add-on parts or glass - is produced from extruded aluminium parts, cast aluminium and sheet aluminium. The roof frame, together with the wing door mounts, a sturdy roll bar behind the driver, the bootspace and the front bulkhead consist of high-strength sheet aluminium. Also extremely sturdy are the extruded aluminium parts; they are used in the area of the side sills, the transverse profiles and the crash-optimised longitudinal profiles (front and rear car sections). The housings for the drive unit and other elements consist of cast aluminium parts. All add-on body parts are made of plastic and aluminium. The front and rear side body parts are manufactured in aluminium. Parts made of high-strength plastic include the bumpers and the trim panels on the side sills.

Wing doors from 3 parts. The 2 wing doors are a work of art in their manufacture. Their frames consist of 3 main elements: an inner section, a crash reinforcement section and an exterior part. When they are closed, they offer optimal crash safety. The door windows are made of lightweight, scratch-resistant, layered polycarbonate. The front window is made of laminated safety glass.

See and be seen. Xenon and LED elements are used for the headlights, rear lights and indicators. In front, 2 bi-xenon modules handle the job of the dipped and main beam headlights. The indicator lights and daytime running lights are implemented as white and yellow LEDs. The daytime running lights are mounted on the front wheel trim panels, and these lights also serve as position lights for parking. In the acrylic glass of the rear lights - which are integrated in the rear section like small wings - the light generated by LEDs is routed via transparent semiconductors. Their electrical power consumption? Minimal. Which is just what you need with an electric vehicle.

Mercedes unveil B-Class E-Cell Plus extended-range EV concept [video]

Mercedes-Benz will be presenting its first electric vehicle with Range Extender at the 2011 Frankfurt International Motor Show in the guise of the Concept B-Class E-CELL PLUS. The combination of electric drive and petrol engine ensures excellent suitability for both everyday use and long journeys. The energy accumulator takes the form of a lithium-ion battery from Deutsche Accumotive, which enables local emission-free driving up to a range of 100 kilometres. Thanks to the additional three-cylinder petrol engine, the Concept B-Class E-CELL PLUS has a total range of up to 600 km. The concept vehicle presented at the 2011 Frankfurt International Motor Show provides a foretaste of the series which is to go into production in 2014. The Concept B-Class E-CELL PLUS adds an all-purpose battery-powered vehicle with Range Extender to Mercedes-Benz's range of electric vehicles.

A new addition to Mercedes-Benz's portfolio of electric cars is the near-series Concept B-Class E-CELL PLUS – a compact model that meets all the needs of daily motoring with a total range of up to 600 kilometres. As such, this electric vehicle is also ideally suited to long journeys and offers its driver unrestricted mobility. This is made possible by the combination of a powerful electric drive generating a peak power output of 100 kW and a continuous output of 70 KW with a 50 kW petrol engine. The latter performs a dual role: at low vehicle speeds it charges the battery via a generator. At higher speeds – on prolonged motorway stretches, for example – it additionally serves as a driving engine, acting on the front wheels together with the electric motor via a newly developed automatic transmission.

In all-electric, local emission-free mode the Concept B-Class E-CELL PLUS has a range of up to 100 kilometres. This covers over 80 percent of daily driving needs. The total range of up to 600 kilometres allows the vehicle to be used for long journeys, too. This means that the electric vehicle with Range Extender is fully suitable for everyday use and can be relied upon to reach its destination, even with a fully discharged battery. In combined driving mode the vehicle emits 32 grams of CO2 per kilometre.

"The Concept B-Class E-CELL PLUS shows that our new range of compact cars is all set for the future. The variant involving a battery-electric vehicle with Range Extender further broadens the range of alternative drive concepts from Mercedes-Benz," notes Prof Dr Thomas Weber, Member of the Board of Management at Daimler AG, responsible for Group Research and Mercedes-Benz Cars Development. "This innovative and highly flexible concept meets our customers' wish for emission-free driving coupled with a large range."

The vehicle concept – the best of two worlds

The Concept B-Class E-CELL PLUS is an electric vehicle meeting all daily motoring needs which combines the best of two worlds: all-electric driving and driving with a tried and tested high-tech combustion engine. This combination allows long journeys which to date have been the reserve of vehicles powered by a combustion engine alone or electric cars fitted with a fuel cell. The two drive units are extremely compact and are accommodated in the engine compartment at the front together with the transmission and the generator. The powerful lithium-ion battery and the fuel tank are located in a false floor at the rear – the so-called "Energy Space" – which has been developed specially for alternative drives. For other drive variants it is also possible to install gas or hydrogen tanks here, for example.

Intelligent control of the drive system for unrestricted mobility

The intelligent electronic control system of the Concept B-Class E-CELL PLUS ensures perfect handling in every driving situation. Activation and deactivation of the combustion engine take place fully automatically and go unnoticed by the driver. Electric motor and combustion engine work so intelligently together that the drive unit is able to select the most fuel-efficient mode in every driving situation in a fraction of a second – from stop and go in the city to speedy driving on the open road. With the Concept B-Class E-CELL PLUS there are basically two operating modes, depending on the battery charge status:

When the battery possesses sufficient energy, the vehicle runs locally emission-free on electric power alone. The energy accumulator can be recharged by means of a conventional domestic power socket. Rapid charging is also possible with this vehicle. This enables a charging time in the order of one hour.

When the battery charge status drops below a certain limit, the combustion engine is activated ("Range Extender mode"). The large range which is available in "Range Extender mode" ensures that the vehicle will always reach its destination, even if the battery is flat. Acceleration from 0 to 100 km/h in approx. 11 seconds and the top speed of 150 km/h are both attainable in either operating mode. In order to ensure the most efficient possible motoring, two variants are possible, depending on the vehicle's speed:

Below a speed of around 60 km/h, the combustion engine and generator attend to on-board power generation ("serial mode"). In this case, the combustion engine is run in the most fuel-efficient mode.

At speeds of over 60 km/h the combustion engine acts as a driving engine together with the electric motor ("parallel mode"), transmitting the generated power to the front axle. Any excess power generated by the combustion engine is used to charge the battery and to run the ancillary units.

Highly efficient lithium-ion battery with long service life

The energy accumulator is accommodated in a false floor system at the rear of the vehicle – the so-called "Energy Space" – which has been developed by Mercedes-Benz specifically for alternative drives. The energy accumulator employed here is a particularly powerful state-of-the-art lithium-ion battery designed specifically for automotive applications. It is produced by Deutsche Accumotive GmbH & Co. KG, a joint venture of Daimler and Evonik.

The battery can be charged using any standard domestic power outlet or at a public charging station, by means of the charge socket integrated in the rear bumper and the 3.3 kW on-board charger.

When the car goes into production, convenient remote checking and remote configuration of the vehicle will be possible by means of the so-called Vehicle Homepage. The driver will be able to access his vehicle via the internet, using his PC or smartphone. In this way, it will be possible to check the current charge status of the lithium-ion battery or to verify the vehicle's current range on a map. A further feature is smart charging. This involves the customer selecting a desired time for the beginning of his journey. The system then ensures that the battery is fully charged and, if desired, that the vehicle is air‑conditioned at this point in time. The facilities offered by the Vehicle Homepage are rounded off by further convenience functions, such as a route planner designed specifically for electric vehicles.

Comfort and safety to the highest standard

In terms of safety and comfort, the Concept B-Class E-CELL PLUS meets Mercedes-Benz's high standards in every respect. The vehicle combines compact exterior dimensions with a spacious and variable interior and luggage compartment. Five full-size seats make it an all-round electric car for the family, leisure and general motoring. The new electromechanical steering and enhanced driving dynamics provide for refined sportiness in the field
of electric mobility. A striking feature of the Concept B-Class is the copper-coloured linear graphic design which accentuates the vehicle and lends it a dynamic appearance. High-quality black nappa leather and copper-coloured double lap seams have been used in the interior.
The concept vehicle is a match for its siblings when it comes to active and passive safety features, too. Like all models of the new compact car generation, the Concept B-Class E-CELL PLUS also comes with COLLISION PREVENTION ASSIST, a new assistance system which will help to avoid rear-end collisions in future. In keeping with the ongoing democratisation of safety, the B-Class E‑CELL PLUS will also feature a number of additional assistance systems adopted from the larger model series.

These include:

Adaptive Highbeam Assist
Blind Spot Assist and Lane Keeping Assist
Attention Assist (standard)
Speed Limit Assist (speed limit sign recognition)
Active Parking Assist
Brake HOLD function (standard with 7G-DCT)
Hill Hold function
LINGUATRONIC
Reversing camera
PRE-SAFE® (featuring for the first time in this class of vehicle)

As such, the Concept B-Class E-CELL PLUS sets new standards in the areas of compact electric vehicles with regard to comfort, safety and agility.
Technical data
VEHICLE DATA

Seats
5

Electric motor (machine type)

Permanently excited synchronous machine
Maximum output (kW/hp)

100/136**
Continuous output (kW/hp)

70/95**
Top speed (km/h)

150**
Acceleration from 0 to 100 km/h (s)

11,0**
CO2 emissions (g/km)

32**
Range (km) (NEDC)

100 in all-electric mode**
up to 600 on combined power**
Range Extender


Combustion engine

3-cylinder turbocharged petrol engine
Displacement (l)

1.0 turbo
Rated output (kW)

50 at 3500 rpm**
Battery


Battery technology

Lithium-ion
** Provisional values

Self-driving, laser-equipped Audi A2 EV Concept [video]

With the A2 concept technology study, Audi is offering a peek at electric driving in the megacities of the future. The purely electric powered A2 concept is a classic space concept: a premium vehicle for metropolitan areas featuring generous amounts of space and composed road manners.

The technology study is packed full with attractive, intelligent technologies. An innovative body technology – a further development of Audi's ultra-lightweight construction – limits its weight to just 1,150 kilograms (2,535.32 lb). Audi connect technologies provide an Internet connection; the steering and brakes are purely electric (by-wire) systems.

Exterior design

The Audi A2 concept demonstrates the complete skill set of the Audi designers in a compact space. It is just 3,804 millimeters (149.76 in) long, 1,693 millimeters (66.65 in) wide and 1,494 millimeters (58.82 in) high; even so, it makes it makes and elegant, powerful and sporty impression on the road. As is typical for Audi, its clean appearance concentrates fully on the essentials.

The opaque glass roof of the show car finished in flat Electric White becomes transparent at the push of a button. When an electric voltage is applied, small particles integrated into the glass align so that the light can pass through the glazing unhindered. When the glass roof is darkened, however, it blocks the infrared component of the sunlight almost completely, effectively shadowing the interior. This is a further contribution to efficient temperature management in the purely electric powered Audi A2 concept.

As with every Audi, the front of the technology study is dominated by the single-frame grill, in this case, in a special version tailored to electrical operation. The upper two-thirds are designed as a closed, folding surface, behind which are the charging socket and the cooling water connection. The four Audi rings are intensively sculpted; the engine hood is permanently bolted to the body.

Mounted in the lower section of the single-frame grille, which acts as an air inlet, are highly efficient cooling elements made of graphite foam. The lightweight mineral is an excellent conductor of heat from the water to the ambient air. Eight blocks with six graphite elements each are located in the central air inlet.

Another highlight of the A2 concept are the matrix beam LED headlights. An entire bundle of small light-emitting diodes arranged one above the other produce the low beam and high beam light. Microreflectors enable the precise positioning of the light. The LEDs can be switched on and off independently to illuminate the road perfectly in any situation. Numerous mini-LEDs set in the lower section of the headlight like a pearl necklace produce the daytime running light.

The side view of the technology study is also typical Audi, with brawny wheel wells, a low greenhouse and an early-sloping roof line that ends in a long rear spoiler. Sharp lines frame tautly arched sheet metal surfaces. The dynamic line above the sills rises distinctly; the tornado line below the windows runs slightly upward. Just below the tornado line is a characteristic feature of the Audi A2 concept – the Audi dynamic light: a band of light that connects the headlights with the tail lights.

Light-emitting diodes and light guides produce the Audi dynamic light. When in standby-mode, the several centimeter-wide band appears black. When the owner of the Audi A2 concept approaches, it lights up blue in welcome and focuses on the door handles, which are inset into the band and extend when the driver swipes a hand over them.

The dynamic light shines bright orange when the A2 concept is driving. It pulses on the corresponding side when indicating a turn, and when braking, a red pulse of light runs along the flank as a warning for other road users.

The tail lights also use matrix beam technology. They are adaptive: The system uses a sensor to detect how good visibility is and adjusts the brightness accordingly.

Five laser diodes produce the rear fog light. When visibility is good, their light is invisible. In the fog or rain, however, it strikes the water particles in the air and becomes clearly visible as a floating triangle.

Interior

The interior also reflects the philosophy behind the Audi A2 concept. It is light, clean, open, and spacious with intuitive controls. The dashboard is split into two sections, with the semi-circular left section enclosing the driver's area. The Audi dynamic light runs along the edges in two separate arcs from the doors to the cockpit. It welcomes the passengers in a manner similar to the light band on the exterior.

The architecture of the interior takes advantage of the possibilities afforded by the electric drive system. There is no center tunnel; the console between the front seats can be lowered to allow free passage through the vehicle. Heating and cooling air flows indirectly and draft-free through a perforated surface beneath the windshield.

The steering wheel of the Audi A2 concept is flattened at the top and bottom, with a single spoke connecting the ring to the impact absorber. The two large horns pointing inward have touch-sensitive surfaces used to control key functions, with only the turn signals and windshield wipers still controlled via the traditional steering column stalks.

If both touchpads are touched at the same time, the A2 concept switches into a semi-autonomous driving mode. This convenience feature is a welcome relief in slow-moving traffic, for example. The driver maintains full control of the vehicle at all times, exactly like with today's ACC stop & go system on which the new technology is based.

An open, shell-like section serves as the steering column and extends horizontally into the cockpit. On the far end is a seven-inch display flanked by two secondary displays with the speedometer and the power meter.

When the driver pushes the button to activate the electric drive, an animated band of light encircles the driver and passenger, and two touchpads fold up to the right of the steering wheel. The small touchsurface on the left is for shifting gears (shift-by-wire); the larger one on the right is reserved for the air conditioning and media functions.

The retractable console between the seats includes an additional touchpad for entering letters and numbers and for secondary functions – a further development of today's MMI touch. A docking station for the iPhone rounds out the control concept.

The show car has all of the Audi connect technologies on board. The Bluetooth online car phone connects it to the Internet via a UTMS module, a WLAN hotspot lets the passengers surf and e-mail from their mobile devices. The fast data connection delivers specially prepared news and information to the vehicle. The services currently offered by Audi are available for navigation: the map with images from Google Earth, Audi traffic information online, Google POI search via voice control and Google Street View.

Cutouts in the backrests of the four individual seats in the Audi A2 concept give them a sporty look and make them incredibly light. They have an aluminum chassis and the developers used a polymer blow-molding process for the shells. Three struts connect the seats with the floor for more foot room in the back, and there are storage bins beneath the fold-up seat cushions.

A console with storage bins is located between the rear seats. Folding these seats forward reveals a fixture for the fork of a special city bicycle. The luggage compartment of the Audi A2 concept has a sandwich floor. A fold-up frame with two solid, high-load nets covers the lower load level.

The colors and materials in the interior support the impression of lightness and functionality. The large areas from the door top shoulders to the floor are covered in a tough material with a neoprene surface feel. A ribbed material made from recycled polyester covers the central floor area. Aluminum elements accentuate the cockpit.

Technology

The Audi A2 concept is a purely electric vehicle. The lithium-ion battery mounted in the sandwich floor stores 31 kWh of energy, 24 kWh of which are usable. The electric motor is transversely mounted in the front of the vehicle. It delivers 85 kW (116 hp) of peak power (60 kW continuous) and 270 Nm (199.14 lb-ft) of torque (160 Nm (118.01 lb-ft continuous) to the front wheels via a single-speed transmission.

The Audi technology study has a range of 200 km (124.27 miles) in the European driving cycle. It takes roughly 1.5 hours to fully recharge the battery with 400 volt three-phase current and approximately four hours with 230 volt household current. The Audi A2 concept is also designed for the new contactless charging technology (Audi Wireless Charging).

The show car weighs less than 1,150 kilograms (2,535.32 lb). This is due primarily to its body, which features the most advanced state of Audi's ultra-lightweight construction. The A2 concept marks the first time that the ASF has been combined with hybrid multimaterial construction, in which very different materials are combined with one another. In this case, the superstructure is made largely of aluminum components and is complemented by add-on parts of carbon fiber-reinforced polymer (CFRP).

The Audi A2 concept is an agile vehicle. It accelerates from 0 to 100 km/h (62.14 mph) in 9.3 seconds; top speed is limited to 150 km/h (93.21 mph) in the interest of range. A McPherson strut front suspension and a torsion beam axle in the back provide for agile handling. The steering and brake systems are purely electric (steer-by-wire and brake-by-wire), requiring no mechanical or hydraulic connection to the steering wheel or the pedals, respectively.

The 18-inch wheels are fabricated using cladding technology. The alloy base wheel and the cladding are manufactured separately and bonded together, greatly reducing the amount of material used. The new hybrid technology, which Audi already uses in some production models, saves roughly two kilograms (4.41 lb) per wheel. The wheels of the A2 concept combine the blade look of the e-tron family with Audi's classic spoke design.

The equipment, data and prices specified in this document refer to the model range offered in Germany. Subject to change without notice; errors and omissions excepted.

2011 Frankfurt : Renault Twizy [video]

The Renault Twizy comes two forms: the Twizy 45, a 5 hp version with top speed limited at 45 kph for those who don't yet have their license or have lost their license; and the "regular" model with 17 hp for a top speed of 80 kph.

Opel RAK e could sell for $10,000 [video]

Opel today formally introduced the RAK e experimental vehicle – an all-new battery-powered electric vehicle that can travel 100 kilometers (61 miles) for one euro ($1.36), weighs a third of a modern small car and can reach 120 km/h (75 mph) in less than 13 seconds.

"We want to develop electric vehicles that everyone can afford," said Karl-Friedrich Stracke, Opel CEO, at the world premiere in Frankfurt. "The RAK e experimental vehicle aims to deliver pricing that even younger customers can afford. The RAK e has cool looks and production-potential."

Opel's RAK e electric tandem two-seater "is a very serious concept," says General Motors Europe boss Nick Reilly, adding that the company is investigating production feasibility and believes the car could go on sale for around $10,000.

The lightweight concept of the RAK e is based on a steel space-frame structure beneath a skin of conventional synthetic material. This allows a high level of safety as well as affordable pricing. Opel deliberately avoided the use of expensive composite materials in its lightweight-design philosophy, in order to make electric mobility affordable for as many people as possible.

The name "RAK e" recalls the pioneering spirit inspired by Fritz von Opel and his revolutionary rocket-powered car in the last century. In 1928 RAK 2 catapulted the grandson of company-founder Adam Opel to a top speed of 228 km/h (142 mph). The "e" not only stands for electric, but also takes up again the idea of ground-breaking experimental vehicles.

"The RAK e is inspired by our wealth of experience in the area of electro-mobility, above all by the Ampera"; explains Mark Adams, vice president Design. "This progressive concept is creating a new class of electric vehicle; this is what future mobility with 'my first e-Opel' could look like. We are eager to see the reaction of visitors to the show."

The potential of the experimental vehicle is reflected in its design. The bodywork is made of fully recyclable synthetic material; the tandem two-seat passenger compartment is reminiscent of glider. The large cockpit canopy creates a feeling of spaciousness and all-around visibility. The front seat, steering column and armrests automatically tip forward to enable easy-entry; remote control via smart phone enhances the optical effect of this action. The pedals and the steering wheel adjust to the size of the driver.

The two-seater features visible chassis components, such as the wheel-integrated front disk brakes and the motorbike-derived rear swing-arm. The rear wheels enhance agility with a tread width of only 600 mm.

Around three meters long and 119 cm (46.9 inches) high, the aerodynamic RAK e offers zero-emission driving. After charging the battery for three hours, the experimental vehicle can travel up to 100 km (61 miles). Due to the combination of low weight, minimal frontal area, low rolling resistance, and highly efficient electric propulsion. The cockpit features displays showing battery state-of-charge or the nearest charging station, infotainment equipment, and heating and cooling

Weighing only 380 kg (838 lbs.) the RAK e is about one third the weight of a modern small car. Peak power output is 36.5 kW/49 hp; 10.5 kW/14 hp is continuously available. The useable battery capacity of 5 kWh enables a range of 100 km (61 miles), which corresponds to fuel consumption of just 0.6 liters (0.16 gallons) of gasoline. Over an annual 10,000 km (6,214 miles) the RAK e's energy consumption would be 525 kWh. This could be supplied by a five square-meter, 500-Watt solar panel mounted on the roof of the garage.

The Rimac Concept_One world debuts @ Frankfurt Motor Show [video]

Rimac Automobili has unveiled the world's first electric supercar - the Concept_One.

The Concept_One is a supercar with a new propulsion concept. With a curb weight of 1650 kg, and 1088 HP, the Concept_One can reach 100 km/h from a standstill in 2.8 seconds and continue to accelerate to the limit of 305 km/h. 92kWh of energy in the Battery Modules delivers enough juice"for up to 600 km of range.

Rimac Automobili developed a unique powertrain which is divided into four sub-systems, each consisting of one motor, inverter and reduction gearbox. Each of those systems drives one wheel, working completely independent one from the other. It's called All Wheel Torque Vectoring and it allows a new approach to vehicle dynamics. Mate Rimac, the CEO of Rimac Automobili says: "I believe that the electric motor is a much better machine compared to the ICE, in almost all aspects, especially for a sports car."

The carbon-fibre body is designed by Adriano Mudri: „Exploring the labyrinth of creativity, it was obvious at an early stage that the design had to be simple and clear with a lot of sporty elegance to easily catch up with its competitors in this power & exclusivity class."

The interior is designed by a team of former Pininfarina employees, led by Mr. Goran Popović. After the Rimac Automobili engineering team finished the development and prototyping of the interior parts, the leather-specialist Vilner stepped-in. The result is a high-tech-supercar interior which can be both appealing and pleasant to interact with, at the same time. Special attention has been paid to the infotainment system and gadgets like head-up-displays and soft-close doors which had to match the propulsion technology in its advancement.

Rimac Automobili is a young company which develops and produces high performance electric vehicles, drive trains and battery system. This all began when the founder of Rimac Automobili, Mate Rimac, converted his old BMW to a race EV. He explored the technology by improving every part and began to team-up with experts from different fields in order to develop the next generation supercar.

The old BMW is now officially homologated as a "Rimac Automobili e-M3"and is used as a test mule for battery technologies, battery management, propulsion systems and latest in-house developments. Describing their beginnings Mate Rimac points out: "Our first car evolved in a short period of time into a project that didn't give a final result - instead it was a start, the start of the world's first electric hyper car – the Concept _One".

A group of 20 multi-talented engineers and designers settled in Croatia near Zagreb and are making something new and revolutionary. The production of the first model, the Concept_One, is limited to 88 units, starting with deliveries in 2013.

Audi introduce Electric 1+1 urban concept @ Frankfurt [video]

Audi is introducing a 1+1 urban concept technology study for urban and metropolitan areas. The electric-powered show car has four wheels, combines elements of a racecar, a roadster, a fun car and a city car, and weighs just 480 kilograms (1,058.22 lb). The cabin of the Audi urban concept offers slightly offset seating for two; the roof slides back for entry, and the canopy can remain open in good weather.

Audi says the technology study is targeted toward people who are interested in technology and are enthusiastic about new approaches to mobility, independent of their age and status. In particular, it addresses an urban public whose lifestyle both reflects the car’s modern concept and the driving pleasure associated with it and is a good fit for a possible innovative leasing system.

The outer skin of the show car is made of carbon fiber-reinforced polymer (CFRP); the occupant cell is a mix of CFRP monocoque and an aluminum structure. This ultra-lightweight construction is the foundation for the technology study’s low curb weight of 480 kg.

Wishbones made from a combination of aluminum and CFRP locate the free-standing, 21-inch wheels.

Manufactured using cladding technology, the 21-inch wheels are very light and feature a variant of the blade design from the Audi e-tron models. The tire sizes are as unusual as the car as a whole – 125/60 up front and 145/50 in the rear.

The Audi urban concept uses pushrod technology borrowed from motorsports. As in a racecar, the struts mounted in the interior of the monocoque are nearly horizontal. Four disc brakes provide the stopping power. The turning circle measures less than nine meters (29.53 ft)—ideal for a city car. Thanks to the vehicle’s low weight, the rack-and-pinion steering does not require any power assistance. Crumple zones in the front and rear plus two airbags provide for a high degree of passive safety. An innovative assistance system helps the driver to avoid collisions with pedestrians.

The battery is mounted transversely behind the seats. The lithium-ion battery, which weighs around 90 kilograms (198.42 lb), stores 7.1 kWh of usable energy. The study’s two electric motors together produce 15 kW (20 hp) of continuous power and 47 N·m (34.67 lb-ft) of torque. The motors are mounted between the rear wheels, which they drive via a single-speed transmission.

The Audi urban concept accelerates from 0 to 100 km/h (62.14 mph) in 16.9 seconds. It reaches 60 km/h (37 mph) in around six seconds. Top speed is governed at 100 km/h (62 mph). Range in the European driving cycle is 73 km (45 miles). The battery recharges completely in about 20 minutes with 400 volt three-phase current, and in approximately one hour with 230 volt household current.

World's Fastest Hybrid Truck Vs a Ferrari [video]

A drag race between a Ferrari 360 Spider and a Volvo big rig sounds pretty one sided, but this isn't just any big rig. The "Mean Green" was built by Volvo and features a twin turbo 16 liter engine good for 1900hp as well as a 200hp electric motor.

The company created the truck to be the world's fastest hybrid truck and from the looks of this video they are well on their way to claiming that title.

TTXGP Australian Electric Motorcycle Series 2011 - Round 2 - Winton

After the inaugural race at Eastern Creek the electric motorcycle teams are back for round two of the eFXC / TTXGP Australian electric motorcycle grand prix.

This time the bikes were more evenly matched and the riders were only seconds apart. This nuts and bolts report shows the ingenuity and determination of the enthusiasts that make this event possible.

800kW Rimac One EV Concept to be unveiled @ Frankfurt show

Croatian company, Rimac Automobile, will be unveiling an all-new 800kW electric supercar concept called the Rimac One Concept at the 2011 Frankfurt Motor Show. Rimac has released a video to build anticipation.

Although the body and design of the Rimac One Concept is concealed under a cover, we know that the Rimac will use four separate liquid cooled permanent magnet electric motors each with it's own reduction gearbox and inverter.

Overall output is said to be 800kW, or 1088 hp with 3800 Nm of instant torque. Other claimed figures include a 0-100km/h time of just 2.8 seconds and a top speed of 305km/h. Rimac says it all weighs 1650kg and has a 92kWh battery giving a range of 600km on a single charge.

If these details are accurate, it would make the Rimac one of the fastest electric cars ever made.

We look forward to providing full details of the car upon its unveiling. The show starts on September 13.

Rimac

Smart Forvision Concept (by Mercedes and BASF) [video]

A promotional video has now been released of the Daimler and BASF developed Smart Forvision EV concept vehicle that we reported earlier this week.

Jaguar C-X16 Hybrid EV Concept [video]

Jaguar have released details of a compact, rear-wheel drive, two-seater, hybrid ahead of a full launch at the Frankfurt Motor Show on Tuesday September 13.

Powered by an supercharged 3.0-litre V6 producing 380 PS (280 kW) and 332 lb ft (450 Nm) of torque with a 70 kW and 235 Nm 'Push to Pass' electric Hybrid system.

Top speed of 186 mph, 0-62 mph in 4.4 seconds and 50-75 mph acceleration in 2.1 seconds with CO2 emissions of 165 g/km

Under the clamshell bonnet is a next-generation supercharged V6 petrol engine producing 380 PS (280kW) and 332 lb ft (450 Nm) of torque. Already boasting a power output of 126 PS-per-litre, the performance of the C-X16 is further supplemented by a Formula 1-inspired hybrid boost system with a steering-wheel mounted button for on-demand acceleration.

Integrated into the eight-speed gearbox is a motor generator which draws power from a 1.6kWh battery pack mounted behind the seats for ideal 50:50 weight distribution. Charged through a brake energy regeneration system, the batteries allow the motor to provide an additional 95 PS (70 kW) and173 lb ft (235 Nm).

Mounted in an aluminium chassis structure, the result is 0-62 mph acceleration in 4.4 seconds, a top speed of 186 mph and acceleration from 50-75 mph of 2.1 seconds. The C-X16 is also able to travel at speeds of up to 50 mph under electric power alone and has CO2 emissions of 165 g/km.

The C-X16 measures 4,445 mm in length, 2,048 mm in width and 1,297 mm in height and has a wheelbase measuring 2,622 mm. In terms of overall length, the C-X16 is the smallest Jaguar created since 1954 and the XK120.

Behind the Scenes look at the Toyota electric lap record effort [video]

Another TMG video giving a behind-the-scenes look at the Nürburgring Toyota EV lap record effort.