Fully Charged BMW i8 Test Drive [VIDEO]

Robert Llewellyn takes a short and at times very fast first drive in the £100,000 BMW i8 plug in hybrid supercar.

All filming done on closed roads at Millbrook proving ground.

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Nissan BMW Renault and VW unite to form Rapid Charge Network

A partnership of Battery Electric Vehicle (BEV) manufacturers have joined forces through the European Union's TEN-T programme to create a multi-standard and inter-operable charging network through the United Kingdom and Ireland.

As well as helping to finance the scheme, the consortium is providing other members of the project with the benefit of its extensive experience in the BEV field.

This is the first time leading BEV companies Renault, Nissan, BMW and Volkswagen have united to accelerate the growth of EV charging infrastructure, seen as a key enabler towards making zero-emission mobility a market reality. The project, managed by Zero Carbon Futures in North East England also draws on the network expertise of ESB, one of Ireland's foremost energy company and leader of a previous TEN-T project completed this summer, and Newcastle University.

When complete, the UK Rapid Charge Network (RCN) will comprise more than 70 multi standard rapid chargers covering some 1,100km of major trunk routes and providing EV-friendly links to five seaports and five international airports.

Running on two priority road axis on the mainland, the UK RCN will link major ports and cities including Stranraer, Liverpool, Holyhead, Birmingham, Felixstowe, Leeds and Kingston upon Hull while there will also be networks embracing Dublin, Ireland and Belfast, Northern Ireland.

Significantly, the rapid chargers are the latest state-of-the-art multi-standard units and are compatible with cars using 44kW CCS, 44kW CHAdeMO or 43kW AC systems. This will ensure that EV drivers travelling in the UK can undertake long journeys secure in the knowledge that they will never be far from a rapid charger.

Ten rapid chargers have been already installed with a further 28 sites soon to be commissioned.

The UK RCN is part of the European Union-financed Trans European Transport Network (TEN-T) and represents a substantial partnership investment of €7,358,000, half of which is being funded by the EU.

A significant portion of the BEV manufacturers' contribution to the overall costs will be used to fund a research program, led by Newcastle University. This will aim to confirm the benefits of such an advanced inter-operable EV rapid charging network.

Strategic information gathered from users, including customer charging behaviour and changes in mobility patterns, will help plan the roll-out future rapid charging infrastructure in member states across Europe.

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Sales of BMW’s electric car jump in August [VIDEO]

Sales in the United States of BMW electric cars jumped in August, inching closer or, depending on whom you ask, even surpassing sales of Tesla Motors luxury Model S sedan.

The continued success of BMW’s i3 model, which sells for about $41,000 in the U.S., could pressure Tesla and dampen enthusiasm for its Model 3, Tesla’s mass-produced car that is expected to hit the road within the next two or three years. The Model 3 would carry a sticker price of about $35,000.

Tesla last week said it chose Nevada as the site of its battery factory, expected to churn out more and cheaper batteries -- enough to power Tesla’s through its expansion into the mass market.

Tesla shares rose on intraday and closing records of $291.42 and $286.04, respectively, on Thursday. The stock was hit by profit-taking — and comments by CEO Elon Musk, who called Tesla shares “kind of high” — on Friday.

BMW sold 1,025 BMW i3s in August, according to industry and analyst reports, up from less than 400 units in the previous three months. The car was launched in the U.S. in May.

Tesla’s Model S sales in August were estimated at around 1,600 by Autodata Corp, 18% lower year-on-year. Tesla does not release monthly car sales.

Tesla is expected to launch the next vehicle in its line up, the crossover Model X, next year.

Back in May, analysts at Barclays flagged BMW’s electric-car offerings — which include the more expensive, sporty hybrid plug-in i8 — as a threat to Tesla. Tesla’s target audience is likely sandwiched between the i3 and the i8 models, the analysts said.

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BMW Formula E course cars to be equipped with Qualcomm wireless charging

The all-electric FIA Formula E Championship has today confirmed that its course cars for the inaugural season will be fitted with Qualcomm Halo™ wireless charging technology – an inductive charging system which allows the car’s battery to be charged without the use of cables.

With the final specification of car set to be announced shortly, the championship’s technical team took advantage of today’s final test at Donington Park to trial two BMW i8 and two BMW i3 models with the aim to evaluate them for the series’ official course cars. Earlier this year, the German marque was part of the Global Launch event of the Formula E in London.

All four BMWs have been specifically modified to meet FIA requirements, with one of the BMW i3 models featuring an inductive charging system from Qualcomm Incorporated (NASDAQ: QCOM), with the remaining three vehicles set to be adapted at a later stage. The technology has been developed by San Diego-based Qualcomm Incorporated, one of the official Founding and Technology Partners of the series and a global leader in 3G, 4G and next-generation wireless technologies. The Qualcomm Halo™ technology uses resonant magnetic induction to transfer energy between a ground-based pad and a charging pad fitted to the underside of the vehicle. The cars can then simply park over the base pad for charging to start automatically.

The chosen safety car – which will be officially entitled the Qualcomm Safety Car - will be driven by experienced driver Bruno Correia, whilst the medical and extraction cars will be overseen by FIA Medical Delegate Dr Phil Rayner and his team. The cars will be positioned at the end of the pitlane, charging wirelessly and ready to be rapidly deployed as required during each practice, qualifying and race.

Steve Pazol, GM, Wireless Charging at Qualcomm Incorporated, said: “Qualcomm is honoured to be an integral part of FIA’s Formula E Championship. As electric vehicles become more ubiquitous, charging them wirelessly is an obvious next step in the EV evolution and we are excited to showcase this in Formula E. Motorsport is a known proving ground for new technologies, and in addition to our wireless EV charging technology, Qualcomm will be bringing more of its technologies to bear as the series goes forward.” Alejandro Agag, CEO of Formula E, said: “Qualcomm’s wireless charging system is ground-breaking technology and represents an exciting evolution for charging electric vehicles. Wireless charging has the potential to radically improve the electric vehicle driver experience and Formula E provides the perfect platform in which to develop, test and showcase this exciting new technology.”

Formula E is the FIA’s new fully-electric single-seater championship designed to appeal to a new generation of motorsport fans, whilst accelerating the interest in electric vehicles and promoting sustainability. Competing entirely on city-centre circuits – with races also in China, Malaysia, Uruguay, USA, Monaco, Germany and the UK – it uses cars capable of speeds in excess of 150mph (225kph). Its 10 teams and 20 drivers feature some of the leading international names in motorsport including Alain Prost and Michael Andretti, along with high-profile environmental supporters including Sir Richard Branson.

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Test Driving the BMW i8 around London [VIDEO]

BMW presented the new i8 hybrid supercar for the official UK launch at an event held in Mayfair, London. With two models on display auto buff Shmee takes a quick look around the car before jumping in for a test drive.

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BMW i3 Parks Itself without any Driver Input [VIDEO]

The BMW i3 has an interesting function available as a $1,000 optional extra: Parking Assistant.

This system allows your car to park itself without your input. It uses a sonar installed in the right side of the car that detects large enough parking spaces when you want it to. After that, all you have to do is stop and keep the parking assist button pressed and the i3 will do everything for you.

That’s what a crew of journalists from Romania did when BMW invited them over in Austria to try out the new electric car from Munich. However, there’s a twist: this time, no driver was inside the car while the operation was done.

The man hopping out of the moving i3 is Vali Porcisteanu, a Romanian rally driver. He somehow meddled with the control button and made it stick while he left the ‘premises’.

The end result is both quite impressive and funny at the same time, seeing the car do all the work by itself, with no one inside.

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BMW i9 Supercar to launch in 2016

Auto Motor und Sport is reporting on a future BMW i9 due to launch in 2016. In the same very year, BMW is celebrating 100 years.

BMW i9 would be based off the i8 hybrid sports car with more power and a beefier appearance. Still featuring a plug-in hybrid, the BMW i9 is said to forgo the 1.5 liter three-cylinder engine in favor for a larger one and with more power.

Furthermore, the i9 would also get a bigger electric battery which will generate more than the 131 hp found in the i8.

Lightweight materials and construction remain top priorities for BMW so if it comes to life, expect the i9 to feature even more carbon fiber and aluminum parts.

The BMW i9 is rumored to run 0 to 100km/h in under 4 seconds and with a top speed above 155 mph.

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Toyota Supra, BMW Z4 sports cars to share platform

Toyota Motor and BMW will develop a common platform for two sports car models that will become the first products to come out of a comprehensive tie-up the two inked in January 2013.

The automakers will use the same platform as early as 2017 for the BMW Z4 and a planned revival of the Toyota Supra, a model popular in the 1980s and 1990s. The vehicles will have different body designs and be sold under their respective brands.

The car will have a front-engined direct-injection four cylinder turbo and electric motors driving all four wheels. The supercapacitor system will be derived from technology first seen in Toyota's Hybrid Supra HV-R in 2007 when it won the Tokachi 24 hour race and more recenly Toyota's Le Mans LMP1 race cars.

BMW will supply the 2.0 liter turbocharged engine combined with electric motors produced by BMW at its engine plant in Munich while a Toyota-developed electronics system is expected to provide torque-vectoring capability.

The partners also plan to discuss joint manufacturing and parts procurement. BMW is a leader in building cars with lightweight carbon fiber bodies, but the technology is expensive, leading many to focus on whether Toyota will adopt it.

Toyota's tie-up with BMW is aimed at making use of the German carmaker's luxury-vehicle expertise while lowering costs. Toyota and BMW also jointly work on research for lithium-air battery expected to be more powerful than the lithium-ion batteries used in many hybrid and electric vehicles,

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Autocar test the BMW i8 hybrid sports car [VIDEO]

Autocar's in-house race driver Steve Sutcliffe tests the BMW i8 in Scotland.

The i8 has a transverse mid-mounted 1.5-litre three-cylinder turbocharged engine that drives the rear wheels through a six-speed automatic gearbox. An electric motor acts as a starter motor but can also fill in any torque gaps in the engine’s delivery. The front axle is driven separately by an electric motor and two-speed gearbox to create a car of incredible flexibility and complexity.

In eDrive mode the i8 is a zero-emission, front-wheel-drive machine with a useful 129bhp and 184lb ft, a top speed of 75mph and a range of 23 miles. In Comfort mode the i8 is a plug-in hybrid that’s quiet, refined, has a range of up to 310 miles and can be charged from zero to 80 per cent inside two hours.

Select Sport mode by simply moving the gear selector from ‘D’ to ‘S’ and the i8 transforms again. Now the internal combustion engine and electric motor combine as effectively as possible to deliver maximum power, noise and excitement. So configured, the i8 generates 357bhp and 420lb ft. It also tightens its damping, reduces the electric power assistance for the steering and manages the car’s balance by manipulating drive to the front axle for ultimate agility and engagement. The numbers say the i8 combines 135mpg and 49g/km on the one hand or 0-62mph in 4.4sec and 155mph (limited) when driven like a sports car should be.

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Samsung SDI to Boost Supply of BMW i3 & i8 battery cells

The BMW Group and Samsung SDI plan to expand their supply relationship for battery cells for electro-mobility. The two companies signed a memorandum of understanding (MoU) to this effect today in Seoul. Samsung SDI will supply the BMW Group with battery cells for the BMW i3, BMW i8 and additional hybrid models over the coming years. The most important elements of the agreement are the increase in quantities delivered over the medium term, in response to growing demand for electro-mobility, and further technological development of battery cells.

Dr. Klaus Draeger, member of the Board of Management of BMW AG, responsible for Purchasing and Supplier Network: “Our partnership with Samsung SDI is a good example of successful Korean-German cooperation on innovative technologies. The battery is a key component in every electric vehicle – since it basically determines the range and performance capabilities of the car. In Samsung SDI, we have chosen a supplier that offers us the best-available technology with future-oriented Korean battery expertise.”

Sang-Jin Park, CEO of Samsung SDI: “I am very proud that Samsung SDI supports the success of the BMW i3 and i8. The decision taken in 2009 to choose lithium-ion battery cells from Samsung SDI for the BMW i models was the right one for both companies. Additional BMW vehicles will also be equipped with Samsung SDI’s leading lithium-ion technology. This MoU with the BMW Group demonstrates the trust in Samsung SDI’s future technology and efficient mass production capabilities. Both companies are confident that this extended partnership will secure their leadership in future technologies.”

The partnership with Samsung SDI since 2009 provides the BMW Group with access to state-of-the-art lithium-ion battery technology. Another important factor in the choice of Samsung SDI was that the company considers the suitability of lithium-ion battery cells for environmentally-friendly production and subsequent recovery of materials during product development. Complete high-voltage batteries for the BMW i3, BMW i8 and other future hybrid vehicles are built on an ultra-modern assembly line at BMW Plant Dingolfing. The only supplied parts are the cells – otherwise the high-voltage batteries are developed and produced completely in-house, building on experience with earlier batteries developed in-house for models, such as the BMW ActiveHybrid 3 and 5 and the BMW ActiveE, with further optimisation.

The extension of the collaboration with Samsung SDI underscores the BMW Group’s strategy of further electrification. Continuation of the partnership also confirms the success of BMW i. Customer demand for the BMW i3 remains high. In addition, in the first half of 2014 the BMW Group has already sold around 5,400 BMW i3 cars.

Deliveries of the BMW i8 got underway in the main international markets in June. Demand is already significantly higher than the planned production volume for the ramp-up phase.

South Korea is also an important supplier market for the BMW Group, beyond the partnership with Samsung SDI. For this reason, the company opened a local purchasing office in 2009. In 2014, the purchasing volume in this market will exceed 300 million euros – a significant increase over the previous year, with sourcing volumes continuing to climb over the coming years. The BMW Group relies on a total of 20 South Korean suppliers. South Korea will be one of the key purchasing markets for the BMW Group in the future, especially for innovative IT technologies.

The BMW Group has operated its own subsidiary in South Korea since 1995. This commitment was expanded in 1998 with the opening of a logistics and training centre. BMW Financial Services has also been active in South Korea since 2001. On 14 July 2014, the BMW Group opened its only combined brand and driving experience centre worldwide currently, in the vicinity of Seoul airport. In 2013, the BMW Group was market leader in South Korea’s premium segment for the sixth consecutive year, with the sale of 39,367 BMW and MINI vehicles – an increase of 13.4% from 2012. A total of 1,328 BMW motorcycles (+27.6%) were also delivered to customers. In the first half of 2014, sales reached 21,972 units (+19,3% compared to prev. yr.). BMW South Korea employs a total workforce of 230 people.

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BMW, Daimler Jointly Developing Wireless Inductive Charging Standard

Driving pleasure and sustainability are fused together in unprecedented fashion in the all-electric BMW i3 and the BMW i8 plug-in hybrid sports car. Their high-voltage batteries can be recharged quickly and easily by means of the BMW i Wallbox that forms part of the 360° ELECTRIC portfolio. This sophisticated charging station with fast-charge facility for feeding cars with power either at home or at work underlines the all-embracing approach adopted by the BMW i brand when it comes to developing products and services for sustainable mobility of premium calibre.

In the process, the BMW Group has assumed a pioneering role in this field and is therefore pressing keenly ahead with the development of innovative technologies for making driving with zero tailpipe emissions more and more attractive. Systems for inductive charging of high-voltage batteries are the next step forward for energy supply. The development objective in the medium term is to put reliable, non-wearing and user-friendly solutions for inductive charging into production that have been tailored to both the batteries in the BMW i cars and the high-voltage batteries in future plug-in hybrid models from the BMW Group.

The crucial advantage of inductive power supply over conventional charging stations is the cable-free connection between the supply point and the vehicle’s high-voltage battery. Carmakers Daimler and the BMW Group have signed an agreement on the joint development and implementation of a standardised technology for inductive charging of electric cars and plug-in hybrid vehicles. The system consists of two components: a secondary coil in the vehicle floor as well as a base plate with integral primary coil that is located underneath the car, for example on the garage floor. The arrangement of the coils, and consequently of the field pattern, is based on a design derived from their circular shape that offers a number of crucial benefits.

These include the extremely compact and lightweight construction along with effective spatial confinement of the magnetic field. The electrical energy is transmitted via an alternating magnetic field generated between the coils, contact-free, without charging cables and at a charging rate of 3.6 kW. With an efficiency factor of over 90 percent, this method enables the high-voltage batteries in vehicles to be charged efficiently, conveniently and safely.

A further development target is to minimise the charging time for contactless power transmission. At a charging rate of 3.6 kilowatts, the high-voltage batteries in many plug-in hybrid vehicles can be fully charged in under three hours. It takes less than two hours to charge the BMW i8 using a fully working prototype of an inductive charging station. In order to make allowance for the higher storage capacities of high-voltage batteries in pure-electric vehicles, the future technology standard also foresees the possibility of increasing the charging rate to 7 kW. This ensures that the battery in the BMW i3 could still be fully charged overnight when using the inductive system.

Inductive charging makes life considerably easier for the driver of an electric or plug-in hybrid vehicle, as there is no need to connect any cables to top up the power reserves. Once it has been correctly positioned above the primary coil, the driver can simply start the charging process at the push of a button using the vehicle’s own operating system. Data is transmitted via a WiFi connection between vehicle and charging station to help the driver even with parking.

The inductive charging facility can be used regardless of the weather conditions. Not even rain or snow has a negative effect on the power feed as all of the system’s conductive components are protected, which means the primary coil can even be installed outdoors. During charging, ambient electromagnetic radiation is also kept to an absolute minimum. The space between the primary and secondary coils is permanently monitored, allowing charging to be halted instantly if any foreign bodies are detected.

As with today’s BMW i Wallbox, the inductive power supply systems of the future will also make it possible to activate and monitor the charging process from a smartphone. The relevant smartphone app will let drivers call up the data transmitted online on the battery’s charge status, for instance, or the time remaining until charging is complete.

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Translogic 153: 2015 BMW I8 [VIDEO]

The 2015 BMW i8 is the second model in the Bavarian automaker's eco-friendly i-brand lineup.

The i8's plug-in hybrid powertrain combines a turbocharged 1.5-liter three-cylinder engine with a 96 kilowatt electric motor to make 357 horsepower and 420 lb-ft of torque. Together, this gas-electric mechanical duo is capable of propelling the futuristic sports coupe from 0 to 60 miles per hour in just 4.2 seconds.

Join Host Jonathon Buckley as he heads to Santa Monica, CA for a chance to drive the all-new BMW i8.

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BMW i3 with F1 Technology [VIDEO]

The BMW i3 is one of many cars that now come equipped with F1 technology. The carbon fibre reinforced plastic (CFRP) Monocoque is used to reduce weight and ensure road safety.

The extensive use of carbon fibre keeps the curb weight down to 1,195 kg which is much lower then either a Nissan Leaf (1,500 kg) or a plug-in hybrid like the Chevy Volt (1,700 kg).

When combined with the i3's 125 kW BLDC electric motor, which is more powerful than either the Leaf (80 kW) or the Volt (110 kW), the result is a 0-100 km/h time of 7 seconds.

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Nissan & BMW keen to collaborate with Tesla on Supercharger standards

We recently reported that BMW is keen to collaborate with Tesla on creating possible global vehicle-charging standards, and now Nissan is also interested according to sources.

“It is obviously clear that everyone would benefit if there was a far more simple way for everyone to charge their cars,” said one executive, who declined to be named as the plans are not yet official.

Between them, Nissan, the world’s biggest electric-car manufacturer, BMW and Tesla account for about 80 per cent of the world’s battery electric-car sales.

Tesla has risen from an ambitious San Francisco start-up to account for about a quarter of the world’s electric-car market, and defy naysayers at some of the world’s largest carmakers that said that the vehicles were not commercially viable.

BMW, which has invested heavily in its electric i range, said that it and Tesla were “strongly committed to the success of electro-mobility”, and used their meeting to discuss ways to “further strengthen” the global electric-vehicle market.

BMW was informed of Mr Musk’s patent decision at the Wednesday meeting, but both companies stressed that the meeting’s timing was coincidental.

“Nissan welcomes any initiative to expand the volumes of electric vehicles,” the Japanese manufacturer said. “Nissan is the market leader in EVs and has worked with other manufacturers to help proliferate the technology.”

Source: FT

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BMW + Tesla superchargers a strategic move?

On Wednesday Tesla and BMW met, but what specifically was discussed was not published.

“Both companies are strongly committed to the success of electromobility and discussed how to further strengthen the development of electromobility on an international level,” a BMW spokesman said in a statement.

On Thursday, Tesla CEO Elon Musk said his company has been in talks with BMW and other automakers on the topic of promoting EVs and making better use of its German Supercharger charging stations.

Musk said that Tesla’s intent wasn’t to create a walled garden around it's supercharger network and that the company is more than happy to allow other makers to use its fast chargers.

There are number of preconditions, though. Firstly, other makers’ cars would need to be able to accept the 135kW output of the Supercharger. Secondly, rival manufacturers would have to contribute to some of the capital cost of the fast charging network.

The Germany market for long range EVs has some unique requirements. Not only is Tesla offering a special tune-up so that its Model S is capable of 130 MPH to compete against the local Porsches, BMW,s Mercedes and Audis on Germany’s unrestricted, high-speed autobahns. But the extra aerodynamic load resulting from sustained Autobahn speeds (drag is proportional to the square of speed) means that a huge network of very high powered (read: Fast) EV charging stations is essential for the long range EV market to be viable in Germany.

With BMW, Audi, Porsche & Mercedes all having leaked plans for 400-600km BEVs there will definetly be future demand for a fast charger network in German. Establishing the Tesla fast charger standard in Germany now in partnership with BMW, the undisputed leader in EV investment, could be seen as a strategic move.

If Tesla doesn't build it, then someone else will!

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BMW i3 - is this the world's most desirable affordable electric car? [VIDEO]

During a recent visit to BWM world headquarters in Munich, EV News had the opportunity to test drive a BMW i3.

First impressions were all about the height of the seating position. This became more noticable in traffic where the i3 seemed taller than many SUV cross-overs. Unlike the battery in a Nissan Leaf where the cells are configured at various heights to allow space for footwells, the i3 battery is a uniform height and extends the full length of the cabin which results in a raised floor level.

Nissan Leaf battery

BMW i3 battery

However, whereas in a cross-over the seating & vehicle height would usually result in a high centre of gravity and poor handling, the combination of carbon fibre reinforced plastic (CFRP) cabin structure and below-floor mounted battery mass means the i3 doesn't suffer a huge amount of body roll. The limit of adhesion available from the bicycle like 155/70 R19 low rolling resistance tires might take more than a 1 hour test drive to fully exploit.

The i3 accelerates more like a sports car than a city car.

The extensive use of carbon fibre keeps the i3's curb weight down to 1,195 kg which is much lower then both the Nissan Leaf (1,500 kg) or the Chevy / Holden Volt (1,700 kg) we've test driven.

When combined with the i3's 125 kW BLDC electric motor, which is more powerful than either the Leaf (80 kW) or the Volt (110 kW), the result is a 0-100 km/h time of 7 seconds. Unlike a Tesla, the BMW i3 doesn't have an immediate kick off the line, but once above 25 km/h the EV torque really starts to come on strong. This may simply be the difference between the synchronous BLDC motor of the BMW versus the asynchrounous AC induction motors used by Tesla. AC induction motors are well known for enormous starting torque.

As with most EVs I've test driven the mid-speed acceleration is massively impressive. Gap shooting in heavy traffic takes on a whole new dimension and the i3 keeps pulling hard even when accelerating up to Autobahn speeds.

No EV test would be complete without mention of the regenerative brakes. Regen in the i3 is speed-sensitive, which means the car “coasts” with maximum efficiency at high speeds and generates a strong braking effect at low speeds. Regen braking is easily strong enough to bring the vehicle to a complete stop at regular traffic speeds below 80 km/h. Stop start driving in heavy traffic is a simple one pedal procedure, making the legacy friction brake system almost totally redundant in this vehicle.

In the video above Autocar's in-house retired racing driver Steve Sutcliffe, who seems to have a speak impediment once he says the word "gubbins', takes the BMW i3 for a thrash around their test track providing a good demonstration of the i3's cornering dynamics.

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BMW and Tesla executives meet to discuss electric cars

Executives from German carmaker BMW and U.S.-based Tesla Motors Inc met this week in a move which could lead to the creation of charging stations usable for different types of electric cars. Both carmakers are seeking ways to raise the popularity of battery-powered vehicles.

"Both companies are strongly committed to the success of electro-mobility and discussed how to further strengthen the development of electro-mobility on an international level," a BMW spokesman said in a statement on Friday.

BMW said the meeting had taken place on Wednesday but declined to comment in detail about the nature of the talks, or about which BMW executives had met with Tesla.

In a conference call on Thursday, Tesla Chief Executive Elon Musk said there had been talks with BMW about how to promote the use of electric vehicles and how to make better use of Tesla's network of charging stations.

Carmakers including General Motors, Ford, Chrysler, BMW, Daimler, Volkswagen, Audi and Porsche have committed to adopting a common SAE combo standard for fast-charging connectors.

Fast-charging stations allow electric vehicle owners to recharge batteries up to 80 percent in less than 20 minutes.

Today, the Chevrolet Spark and the BMW i3 for example can use the same battery recharging stations.

Tesla has, however, developed its own network of high-speed charging stations including along key autobahn routes in Germany in an effort to make electric cars viable for long-distance commuting.

Tesla's charger system can be fitted with an adapter that allows its cars, including the Tesla Model S, to be recharged on both the SAE chargers and its own system.

SHARING PATENTS

Tesla also said on Thursday that it would allow others to make use of its intellectual property in the hope of speeding up development of electric cars by all manufacturers.

Musk said this included all of Tesla's patents, including several hundred current ones and several thousand in the future.

German premium auto makers have been keen to collaborate with Tesla.

In January, Daimler Chief Executive Dieter Zetsche said the German maker of Mercedes-Benz cars was open to deepening its partnership with the U.S. firm.

Daimler holds a 4.3 percent stake in Tesla, which is already supplying it with electric motors and batteries for its Smart Fortwo electric vehicle (EV) and the new Mercedes-Benz B-Class EV.

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500hp Plug-In Hybrid BMW Supra / Z7 due 2019

Following reports in November about Toyota testing a BMW i8 at their Mt. Fuji proving grounds as a pre-lude to a joint venture sports car, a report now claims BMW and Toyota are already developing a second sports car which, like the i8, is a mid-engine model that will battle the Porsche 911.

According to Car Magazine, the model is codenamed "Silk Road 2" and will spawn a BMW Z7 and Supra. The cars will reportedly be developed by BMW in Munich and is expected to be launched in late 2018 or early 2019.

While development is reportedly at an early stage, the magazine says the car will be a plug-in hybrid featuring a twin-turbo 3.0-liter six cylinder engine, a 150 bhp (111 kW) electric motor, a small battery pack between the seats (again like an i8) and a seven-speed dual clutch transmission. This setup will reportedly enable them to have a combined output of 400-500 bhp (298-372 kW).

If everything pans out, the cars will weigh less than 1650 kg (3637 lbs) and cost approximately €90,000 ($122,010 / £72,720).

Source: Car Magazine

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BMW i9 planned for 2016?

Auto Motor und Sport are reporting on BMW’s plans to build an i9 model. Built atop the already sold out i8, the BMW i9 is rumoured to be a four-door sportscar.

Little else is known about the i9 but it would presumably feature carbon fiber construction and perhaps the i8's plug-in hybrid powertrain that consists of a 1.5-liter Turbo three-cylinder engine, an electric motor and a lithium-ion battery which as a combined maximum output of 362 PS (266 kW) and 420 lb-ft (570 Nm) of torque.

BMW has trademarked an entire range of i vehicle, from i1 to i9, with at least one of them, the BMW i5, planned for production in the near future.

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Electric BMW Mini Superleggera Roadster Concept [VIDEO]

The BMW Group celebrates the meeting of the time-honoured and the contemporary at the Concorso d'Eleganza Villa d'Este 2014 with a very special concept: the MINI Superleggera™ Vision. This exclusive interpretation of an open-top two-seater was created by MINI and Touring Superleggera, the tradition-steeped design and coach building house based in Milan.

The MINI Superleggera™ Vision is on the one hand a classic roadster, a compact and agile two-seater, expressing the most minimalist and emotional style of motoring; and on the other hand its electric drivetrain gives the car distinctly modern driving dynamics. In collaboration with MINI, Touring Superleggera™ has designed and built an elaborately crafted, unique model which blends the tradition of classic coachwork construction with the MINI's authentic British styling to create timeless aesthetic appeal.

- Modern Britishness meets Italian flair: the iconic design of MINI meets elegant, athletic beauty - interpreted in contemporary style.

- Classic Italian body construction and hand-shaped metal sheeting give the MINI SuperleggeraTM Vision a unique emotional appeal. Both on the inside and outside, the form is reduced to the maximum extent so as to achieve a clear focus on the distinctive driving experience.

- The interior reflects traditional coachwork construction in terms of materials and styling, combined with the icons of MINI interior design.

- High-end materials such as leather, aluminium and black chrome highlight the clear aesthetics of the interior.

Adrian van Hooydonk, Senior Vice President BMW Group Design on the concept: "Touring Superleggera and MINI have much in common: both companies attach great importance to their history and this is something which defines their outward appearance to this day. What is more, they both emphasise iconic design and distinctive solutions. These elements are merged in the MINI SuperleggeraTM Vision to create an elegant automobile which interprets a British roadster under the influence of Italian style and hand craftsmanship."

British design with an Italian accent - the exterior design.

"The MINI SuperleggeraTM Vision elegantly perpetuates what the Classic Mini started 55 years ago: reduction to the essentials. Its energetic, minimalistic design embodies the dynamic essence of an automobile. At the same time it creates unique emotional beauty in combining the past and future of the automotive industry, i.e. traditional coachwork craftsmanship and modern design styling. It was a pleasure for me to design a concept like this." says Anders Warming, Head of MINI Design.

The perfectly balanced proportions indicate at first glance what the electrically powered MINI Superleggera™ Vision has to offer in terms of a driving experience: the stretched bonnet, long wheelbase and cool, short overhangs convey pure driving fun. As in every MINI, the wheels are set widely on the body, promising a high degree of agility. The passenger cell is slightly set back, further underscoring the car's dynamic impression. The overall effect of the MINI Superleggera™ Vision is sporty, elegant and dynamic.

The front of the MINI Superleggera™ Vision features the traditional MINI design icons: two circular headlights and a hexagonal grille define the unmistakable front section, providing a contemporary interpretation of features which have become firmly established over decades. There are also striking classic sports car elements such as a wide track and distinctively curved wheel arches that give the front a dynamic presence. The classic MINI bonnet stripes are three-dimensionally embossed and run on into high-quality polished aluminum accents. The inlaid bonnet harks back to classic British roadsters of bygone days.

Meanwhile the horizontal rib look of the radiator grille adds a classic sporty touch. The fact that it is closed is a discreet indication of the car's electric motor. The two fog lights echo the circular contours of the headlamps, providing a smaller interpretation of them in the radiator grille. The air inlets are also circular, giving the front section a distinctive touch. A flat front splitter made of carbon fibre closes off the front to the road, thereby underscoring the car's sporty statement down to the last detail.

Classic coachwork construction in a cutting-edge interpretation.

The striking element of the side view is the characteristic "Touring" line. It embodies both the high art of coachwork building and classic aesthetics. Surrounded by tight, seamless surfaces, it traces a precise, vibrant movement from the front wheels through to the rear. This reflects the great craftsmanship and longstanding experience of Touring Superleggera in area of body construction: ever since it was founded the company has stood for fine, light sports car bodies. To this day, Touring Superleggera™ shapes large aluminium sheets by hand using the most performing frame structures. The hand-crafted style of construction gives the MINI Superleggera Vision an aesthetic form which would be virtually impossible to achieve by machine manufacture.

"MINI and Touring both believe that proportions are the key factor of beauty, and share the same values of essentiality and innovation" says Louis de Fabribeckers, Head of design of Touring Superleggera. "In this car all unnecessary equipment or decoration is sacrificed, as performance is gained through lightness and efficiency of the bodywork and interior. The Italian touch is in the proportions and the typical waistline."

There are very few gaps in the body since it is constructed from large sheets of metal. The result is a closed look that conveys high-quality elegance. The specially developed exterior paint finish Como Blue, almost liquid in effect, stands for both classic and modern style. It particularly underlines the refined Italian touch of the MINI Superleggera™ Vision. The elaborate rims and the elegant exterior mirrors in long-hole look complete with a mirror base in polished aluminium add exclusive accentuations at the side. Echoing the front section, the discreet CFRP sills underscore the sporty character of the MINI Superleggera™ Vision.

Meanwhile the striking fin defines the look of the rear, adding a touch of extravagance. It gives the MINI Superleggera™ Vision a particular longitudinal dynamics while at the same time embodying the unconventional air of both MINI and Touring Superleggera. Like the "Touring" line at the side, it is modeled with enormous precision. The highlight of the flat, wide rear is the unusual lights: designed in the form of a Union Jack divided in two, they combine functionality and symbolism in a way never seen before. In this way they express the British roots of the MINI Superleggera™ Vision while at the same time emphasising the modern LED technology as already used in the new MINI. A chrome bar demarcates the rear lights at the centre of the rear, making this area a classic British jewellery icon. The CFRP diffuser rounds off the rear to the road in sporty style.

Echoing the exterior - the interior design.

The exterior and interior design of the MINI Superleggera™ Vision merge seamlessly. Only a surrounding shoulder line in polished aluminium visually separates the exterior and interior from each other. The border creates an encircling, sporty gesture that consistently perpetuates the clear elegance and generous surfaces of the exterior.

In its styling and in the look and feel of its materials, the interior design celebrates the tradition and the essence of classic coachwork construction. It reflects how the automobile was created: the essential features are quoted - the untreated aluminium sheeting and the tube-shaped structural elements - and they are made visible in the interior by means of a high-quality interpretation. This is most striking in the dashboard. The latter is created from a single aluminium sheet and has been left in the state the automobile body would look like without a paint finish. The generously sized unpainted surfaces and the clearly visible hand craftsmanship of the dashboard go together to reflect the skilled artistry of the coachbuilders. The doors and the sporty 3-spoke steering wheel likewise reveal the traditional method of construction. The structural elements in the doors form a Union Jack, discreetly indicating the British origins of the MINI Superleggera™ Vision.

The Center Instrument in the middle of the instrument panel draws on MINI design styling and has been extended for the MINI Superleggera™ Vision to include a touch-sensitive control element and two circular instruments with metal surrounds on the right. In addition to the analog clock on the far right, the second framed instrument activates the camera which is integrated between the driver and front passenger seat. It has the function of capturing those particularly worthwhile moments on the road.

Classic and modern to equal degrees - colour and material design.

The classic materials aluminium and leather in a virtually untreated state define the reduced aesthetics of the MINI Superleggera™ Vision in the interior. Below the shoulder covered in brown leather in the classical color Sabbia, the materials are kept to the essentials. The structural elements in the doors and centre console are finished in high-quality black chrome, exclusively set apart from the aluminium surfaces and the raw, matt textured paint finish in the footwell area. This deliberately contrasting mixture of structured surfaces and high-end materials gives the MINI Superleggera™ Vision an exceptional charm. The sporty bucket seats are reminiscent of bygone MINI motor racing achievements and are covered in high-quality black leather. True to the MINI Motto "Hide & Reveal", accentuations in Misty Magenta provide a touch of Italian flair in tongue-in-cheek MINI style in concealed spots such as the two hot air outlets under the instrument panel and inside the door openings in the structural elements of the doors.

Coachbuilding in 2014.

Since 1926, Touring Superleggera is forerunner of advanced automotive design and custom coachbuilding. The company is one of the rare firms offering the whole in-house productive cycle from the first sketch, all the way through surface engineering and structural analysis, style models and prototypes, to turn-key, low-volume production of special bodywork.

"We are delighted that MINI wanted to stimulate an independent initiative and particularly Italian design for the first time", says Piero Mancardi, CEO of Touring Superleggera. He continues: "This project also shows MINIs attention to preserving and nurturing the skills of craftsmanship incorporated in modern coach building."

The MINI Superleggera™ Vision epitomizes the potential of "Carrozzeria" in today's automobile industry: blending creativity and flexibility with rigor and respect of high standards. The result is a car of classic beauty that is also state of the art.

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