FIA Formula E announces FOX Sports as Broadcaster

FOX Sports, one of the largest global sports networks, has today (August, 9th 2013) signed a multi-year, international multi-media deal with the FIA Formula E Championship, the world’s first fully-electric car racing series beginning in September 2014.

Formula E is a new FIA Championship featuring open-wheel cars powered exclusively by electricity and racing in the heart of 10 of the world’s leading cities, including two in the US with Los Angeles and Miami. Designed to promote interest and investment in electric vehicles and sustainable motoring, 10 teams each with two drivers will compete in one hour races using Formula cars capable of reaching speeds of more than 220kph with zero emissions.

“This series makes racing very relevant well into the future,” said Carlos Martinez, President Latin America for FOX International Channels, who helped broker the deal. “With a global approach to acquiring knowledge and fast-tracking technology through the world of international racing competition, the FIA Formula E Championship is much more than just another weekend at the track…it makes racing an integral part of solving one of the world’s most daunting challenges and we are thrilled to be a part of that process.”

As well as full US broadcast exclusivity across the FOX family of networks, including FOX Sports 1, America’s new sports network set to launch on August 17th, FOX Sports also has exclusive and non-exclusive rights in more than 80 territories including Canada, Latin America/Caribbean, Netherlands, Italy, Hong Kong, Malaysia, Indonesia, Singapore, Taiwan, South Korea, Australia, key Asian territories and other areas of Asia, India and Africa.

The deal, across all territories, includes exclusive and non-exclusive on-line and mobile transmission rights.

“We are very proud to announce this major agreement between FOX and the FIA Formula E Championship and to be partnering a truly global organization that fully believes in the future of racing,” said Alejandro Agag, CEO of Championship promoter Formula E Holdings. “This global broadcasting deal will bring our Championship to nearly 90 countries and a potential 180 million households worldwide, giving our partners, our teams, and our team’s partners a platform to visualize the association to the values of this competition. We are particularly happy to join FOX at the time when FOX Sports 1 is being launched. America is a key market for electric cars and to show our races live in the US will be central to promoting this type of mobility.”

As well as two races in the US, last month saw leading IndyCar outfit Andretti Autosport become the first US team to join Formula E. Six of the 10 teams have now been signed for the inaugural season, three of which have already been announced with Andretti Autosport, China Racing and British-based Drayson Racing.

FOX Sports internationally is largely operated by FOX International Channels, 21st Century FOX’s international multi-media business operating over 300 entertainment, sports, factual and lifestyle pay-TV network and non-linear services worldwide.

BMW i8 Faster than an M3 using one-third less fuel than a Toyota Prius

At a driving event at the BMW Group’s Miramas test track in France, the BMW i presented a prototype of its second production vehicle, the BMW i8. BMW i is synonymous with visionary mobility concepts and a new definition of premium quality that is strongly focused on sustainability. Following the world debut of the first production model, the BMW i3, the BMW Group’s next step will be to extend this revolutionary answer to the future challenges facing personal mobility to the sports car segment in the BMW i8. This plug-in hybrid model is the most progressive sports car of our time, extending the basic BMW i philosophy of sustainability to a new vehicle segment.

The BMW i8 fulfills the promise of The Ultimate Driving MachineTM in a revolutionary and mold-breaking form. This is reflected in a highly emotive design, dynamic sports car performance, and fuel efficiency and emissions figures worthy of a small car. Pairing an exceptionally lightweight, aerodynamically optimized body with cutting-edge BMW eDrive technology, a compact, turbocharged 1.5-liter BMW TwinPower Turbo gasoline engine and intelligent energy management, the BMW i8 marks the next stage in the evolution of the Efficient Dynamics strategy. Its revolutionary approach achieves an unprecedented balance between performance and fuel efficiency. Thanks to its carbon-fiber-reinforced plastic (CFRP) passenger cell, the BMW i8 sets new standards for a plug-in hybrid vehicle in terms of low weight. It can operate solely on electric power, which means no tailpipe emissions, and offers the dynamic performance of a sports car, with an expected 0 – 60 mph sprint time under 4.5 seconds.

The BMW i8 was designed from the outset as a plug-in hybrid sports car, with the emphasis on agile performance and outstanding efficiency. Its characteristic BMW i LifeDrive architecture provides the best possible basis for lightweight design. Its main components are the aluminum Drive module, which incorporates the internal combustion engine and electric motor, the battery, the power electronics and the chassis components, along with structural and crash functions, and the Life module, which essentially comprises the 2+2-seater CFRP passenger cell. This architecture also gives the BMW i8 a very low center of gravity and a near-perfect 50:50 axle load ratio, both of which increase its agility.

The BMW i8’s plug-in hybrid system is specific to this model. Developed and produced by the BMW Group, it marks the next step in the evolution of the Efficient Dynamics programme. A compact three-cylinder petrol engine with BMW TwinPower Turbo technology is combined with an electric drive system and a lithium-ion battery which can be recharged at a standard household power socket. The 231 hp (170 kW) gasoline engine sends its power to the rear wheels, while the 131 hp (96 kW) electric motor powers the front wheels. This configuration offers all-electric driving capability with a range of up to approx. 22 miles (35 kilometers) and a top speed of approximately 75 mph (120 km/h). With both drive systems engaged, it also offers road-hugging all-wheel-drive performance with powerful acceleration and dynamic torque vectoring during sporty cornering. The more powerful of the two powerplants drives the rear wheels. The hybrid system supplements this with power from the electric motor to deliver typical BMW driving pleasure combined with groundbreaking efficiency. Calculated using the EU test cycle for plug-in hybrid vehicles, the average fuel efficiency of the BMW i8 at model launch will be less than 2.5 liters/100 km, which equates to approximately 95 miles per US gallon, with CO2 emissions of less than 59 grams per kilometer.

Optimal balance between performance and fuel economy: BMW i8 as an exciting evolution of the Efficient Dynamics strategy.

It is now more than a decade since the BMW Group launched its Efficient Dynamics vehicle development strategy, whose aim is to significantly improve both the performance and the efficiency of new BMW Group models. Efficient Dynamics combines evolutionary advances in existing technologies with the development of new and revolutionary drive concepts. Efficient Dynamics solutions include efficient lightweight design and aerodynamic concepts, high-performance drive systems based on TwinPower Turbo technology and BMW eDrive, and intelligent management of all energy flows within the vehicle. The new, revolutionary technology now being introduced on models from BMW i will subsequently find its way into the vehicles of the BMW Group’s core brands.

BMW i is also setting benchmarks in the quest for zero CO2 emissions in urban driving. The research and development work carried out since 2007 as part of project i has laid the foundations for revolutionary mobility solutions strongly influenced by environmental, economic and social change around the world. The BMW Group is pursuing an integrated approach, as embodied in the BMW i brand, which aims to achieve the necessary balance between individual needs and the global mobility requirements of the future. The BMW i focus is squarely on all-electric and plug-in hybrid mobility. Groundbreaking design, intelligent lightweight engineering, typical BMW driving pleasure coupled with zero tailpipe emissions, intelligent energy management and resource- and energy-saving production processes are all combined into an innovative premium-quality package.

LifeDrive architecture with an aluminum chassis for the powertrain and a CFRP passenger cell: for more excitement, lower weight and optimized drag.

The LifeDrive architecture specially developed for BMW i vehicles offers the ideal platform for turning the tide of spiraling weight while at the same time achieving distinctive styling exclusive to BMW i. With a length of 184.6 inches (4,689 mm), a width of 76.5 inches (1,942 mm) and a height of 50.9 inches (1,293 mm), the BMW i8 has the proportions of a sports car. Its dynamic personality is also stressed by a long bonnet, conspicuous aerodynamic features, an elongated roofline, short overhangs and a long wheelbase of 110.2 inches (2,800 mm). Characteristic BMW i form language wraps up this groundbreaking combination of sporty performance and efficiency in a charismatic 2+2-seater design.

The BMW i8 combines a drag coefficient (Cd value) of 0.26 with outstanding aerodynamic balance. The finely honed air flow around all parts of the vehicle body makes for an excellent lift/drag ratio, resulting in superb driving dynamics and stability.

Intelligent lightweight design – from the overall concept down to the smallest detail.

With its combination of the aluminum Drive module and the CFRP passenger cell (Life module), the BMW i8 is also an excellent example of intelligent lightweight design – one of the guiding principles of the Efficient Dynamics strategy. Use of the lightweight high-tech material CFRP, which also offers excellent crash performance, brings weight savings of 50 percent over steel and around 30 percent over aluminum, with equivalent or improved strength. These savings offset the additional weight of the electric motor and the high-voltage battery, giving the BMW i8 a curb weight of less than 3,285 lbs (1,490 kilograms). The LifeDrive architecture also brings benefits in terms of weight distribution. The battery pack is situated low down in the middle of the vehicle, resulting in a low and central center of gravity, which improves safety. No other current model of a BMW Group brand has such a low center of gravity.

The front-rear axle load distribution maximizes agility with a near-perfect 50:50 axle load ratio. The compact electric motor, together with the transmission and power electronics, are situated in close proximity to the electrically powered front axle. The turbocharged gasoline engine, which is located together with its transmission in the rear of the BMW i8, likewise sends its power to the road via the shortest possible route, i.e. through the rear wheels. As a finishing touch to this excellent weight distribution, the lithium-ion battery pack is centrally located in the vehicle, slightly forward of the mid-point. In terms of crash safety, this is an ideal location for the battery, which is integrated in an aluminum housing.

The doors comprise a CFRP inner structure and an aluminum outer skin. This reduces the weight of the door by 50 percent compared with a conventional design. The high-quality, naturally tanned leather of the seats highlights the “next premium”, sustainable philosophy of BMW i. The magnesium instrument panel support saves weight on two fronts – firstly through intelligent design, leading to around 30 percent weight savings compared, for example, with the BMW 6 Series. In addition, the high structural rigidity provides a strengthening effect which allows the number of components to be reduced, thereby lowering weight by a further 10 percent. Innovative foam plastic technology used in the air conditioning ducts brings 60 percent weight savings over conventional components, while also improving acoustics thanks to its sound-absorbing properties.

The fact that the power electronics and electric motor are directly connected reduces the amount of wiring required, while partial use of aluminum wiring brings further weight reductions. Lightweight design is also a feature of the BMW i8’s chassis systems – including the wheels, where the standard-fitted 20-inch forged aluminum wheels combine aerodynamic design with weight savings. The rigorous application of the lightweight design strategy even extends to aluminum screws and bolts, which are around 45 percent lighter than corresponding steel components, with the same strength and functionality.

The BMW i8 is also the world’s first volume-produced vehicle to be equipped with chemically hardened glass. This innovative technology, to date used mainly in Smartphone manufacturing, results in very high strength. The partition between the passenger compartment and boot of the BMW i8 consists of two layers of chemically hardened glass, each of which is just 0.7 millimeters thick, with acoustic sheeting sandwiched between. In addition to excellent acoustic properties, a further advantage of this solution is weight savings of around 50 percent compared with conventional laminated glass.

For maximum driving pleasure and efficiency: BMW TwinPower Turbo engine and electric motor developed by the BMW Group.

The plug-in hybrid system of the BMW i8, which comprises a BMW TwinPower Turbo engine combined with BMW eDrive technology, offers the best of both worlds: excellent potential for improved efficiency and exciting, sporty driving characteristics. The BMW Group has developed not only the internal combustion engine and electric motor in-house but also the power electronics and the battery. This ensures that all these components offer high product and quality standards, based on the outstanding capabilities of the BMW Group in the field of powertrain research and development.

The revolutionary character of the BMW i8 is emphasized by a further innovation: the use of a new internal combustion engine which is making its debut in this model. The BMW i8 is the first BMW production model to be powered by a three-cylinder gasoline engine. This highly turbocharged unit is equipped with latest-generation BMW TwinPower Turbo technology. It is exceptionally compact and develops maximum power of 231 hp (170 kW). The resulting specific output of 154 hp (113 kW) per liter of displacement is on a par with high-performance sports car engines and is the highest of any engine produced by the BMW Group.

The new three-cylinder engine derives its typical characteristics from the BMW inline six-cylinder engines, to which it is closely related and which are noted for their eager power delivery, revving ability and refinement. The three-cylinder’s BMW TwinPower Turbo technology comprises a high-performance turbocharging system and direct gasoline injection with high-precision injectors positioned between the valves, along with VALVETRONIC throttle-less load control, which improves efficiency and response thanks to seamlessly variable valve lift control. Like a six-cylinder engine, the three-cylinder unit is free of first and second order inertial forces. The low roll torque, a typical feature of a three-cylinder design, is further reduced by a balancer shaft, while a multi-stage damper integrated in the automatic transmission ensures very smooth and refined running at low rpm. BMW TwinPower Turbo technology and low internal friction improve both fuel consumption and torque characteristics. Accelerator response is sharp and the three-cylinder unit quickly reaches its maximum torque of 236 lb-ft (320 Nm).

The BMW i8’s second power source is a hybrid synchronous electric motor specially developed and produced by the BMW Group for BMW i. The electric motor develops maximum power of 131 hp (96 kW) and produces its maximum torque of around 236 lb-ft (320 Nm) from standstill. Typical of an electric motor, responsive power is instantly available when starting and this continues into the higher load ranges. The linear power delivery, which extends right up to the high end of the rpm range, is down to a special motor design principle exclusive to BMW i. BMW eDrive technology refines and improves on the principle of the permanently excited synchronous motor via a special arrangement and size of the torque-producing components. This results in a self-magnetising effect normally confined to reluctance motors. This additional excitation ensures that the electromechanical field generated when current is applied remains stable even at high rpm.

As well as providing a power boost to assist the gasoline engine during acceleration, the electric motor can also power the vehicle by itself. Top speed is approximately 75 mph (120 km/h). The BMW i8 has a maximum driving range in this emission-free, virtually soundless, all-electric mode of up to 22 miles (35 kilometers). The motor derives its energy from the lithium-ion battery which is centrally mounted underneath the floor of the vehicle. The model-specific version of the high-voltage battery was developed and produced by the BMW Group. It has a liquid cooling system and can be recharged at a conventional household power socket, at a BMW i Wallbox or at a public charging station. In the US a full recharge takes approximately 3½ hours from a conventional 120 volt, 12 amp household circuit or approximately 1½ hours from a 220 volt Level 2 charger.

The BMW i8’s vehicle concept and powertrain control system mark it out as a progressive, revolutionary sports car. The BMW i8 always achieves the optimal balance between performance and efficiency, whatever the driving situation. When power demands allow, the high-voltage battery is recharged by the electric motor. The high-voltage starter-generator, responsible for starting the engine, can also be used as a generator to charge the battery, the necessary power being provided by the BMW TwinPower Turbo engine. The battery can also be recharged via the electric motor during overrun. These various processes help to prevent depletion of the BMW i8’s battery in order to maintain the electric drive power. The all-electric driving range is sufficient to cover most urban driving requirements. Out of town, the BMW i8 offers impressively sporty performance which is also very efficient thanks to the power-boosting support for the gasoline engine from the electric motor. With such versatility, the BMW i8 belongs to a new generation of sports cars which unites exciting performance with cutting-edge efficiency – to enhance both driving pleasure and sustainability.

Driving Experience Control and eDrive button: a choice of efficiency and performance characteristics – at the touch of a button.

The rear wheels of the BMW i8 are driven by the gasoline engine via a six-speed automatic transmission. The front wheels are driven by the electric motor via an integrated two-stage automatic transmission. Combined maximum power and torque of 362 hp (266 kW) and 420 lb-ft (570 Nm) meters respectively provide all-wheel-drive performance which is as dynamic as it is efficient. The BMW i8’s intelligent powertrain control system ensures perfect coordination of both power sources. The variable power-sharing between the internal combustion engine and the electric motor makes the driver aware of the sporty temperament of the BMW i8 at all times, while at the same time maximizing the energy efficiency of the overall system. Utilizing both power sources, the 0 – 60 mph acceleration time is expected to be less than 4.5 seconds. Linear acceleration is maintained even at higher speeds since the interplay between the two power sources efficiently absorbs any power flow interruptions when shifting gears. The BMW i8 has an electronically controlled top speed of 155 mph (250 km/h), which can be reached and maintained when the vehicle operates solely on the gasoline engine. Variable front-rear power splitting in line with changing driving conditions makes for excitingly dynamic cornering. On entering the corner, the power split is biased towards the rear wheels to improve turning precision. For more vigorous acceleration out of the corner, the powertrain controller returns to the default split as soon as the steering angle becomes smaller again. The BMW i8 also offers the driver unusual scope to adjust the drive and suspension settings of the vehicle in order to adapt the driving experience to his or her individual preferences. As well as the electronic gear selector for the automatic transmission, the driver can also use the Driving Experience Control switch – a familiar feature of the latest BMW models – or, exclusively to the BMW i8, the eDrive button.

Using the gear selector, the driver can either select position D for automated gear selection or can switch to SPORT mode. SPORT mode offers manual gear selection and at the same time switches to very sporty drive and suspension settings. In SPORT mode, the engine and electric motor deliver extra-sharp performance, accelerator response is faster and the power boost from the electric motor is maximized. And to keep the battery topped up, SPORT mode also activates maximum energy recuperation during overrun and braking: for this, the electric motor’s generator function, which recharges the battery using kinetic energy, switches to a more powerful setting. At the same time, gear change times are shortened and an extra-sporty setting is selected for the standard-fitted Dynamic Damper Control. Also in this mode, the programmable instrument cluster supplies further driving-related information in addition to the rev counter display.

The Driving Experience Control switch on the center console offers a choice of two settings. On starting, COMFORT mode is activated, which offers a balance between sporty performance and fuel efficiency, with unrestricted access to all convenience functions. Alternatively, at the touch of a button, ECO PRO mode can be engaged, which, on the BMW i8 as on other models, supports an efficiency-optimised driving style. The powertrain controller coordinates the cooperation between the gasoline engine and the electric motor for maximum fuel economy. On deceleration, the intelligent energy management system automatically decides, in line with the driving situation and vehicle status, whether to recuperate braking energy or to coast with the powertrain disengaged. At the same time, ECO PRO mode also programs electrical convenience functions such as the air conditioning, seat heating and heated mirrors to operate at minimum power consumption – but without compromising safety. The maximum driving range of the BMW i8 on a full fuel tank and with a fully charged battery is over 310 miles (500 km) in COMFORT mode. In ECO PRO mode, this can be increased by up to 20 percent. The BMW i8’s ECO PRO mode can also be used during all-electric operation. The vehicle is then powered solely by the electric motor. Only if the battery charge drops below a given level, or under sudden intense throttle application such as kickdown, is the internal combustion engine automatically activated. The driving mode selected at a given moment is indicated to the driver on the programmable instrument cluster by a distinctive color and by a different, mode-specific set of driving information. The three-dimensional appearance of the display adds to the futuristic look and feel of the vehicle as a whole.

High-quality chassis technology, DSC and Dynamic Damper Control as standard.

The high-end chassis and suspension technology of the BMW i8 is based on a double-track control arm front axle and a five-link rear axle, whose aluminum components and geometry are specially configured for intelligent weight savings. The electromechanical power steering offers easy manoeuvring in town and typical sports car-style high-speed steering precision. Also standard is Dynamic Damper Control: the electronically operated dampers change their characteristics according to the selected driving mode to deliver the desired vehicle dynamics. The DSC (Dynamic Stability Control) stability system includes the Anti-lock Braking System (ABS), Cornering Brake Control (CBC), Dynamic Brake Control (DBC), Brake Assist, Brake Standby, Start-Off Assistant, Fading Compensation and the Brake Drying function. The push button-activated Dynamic Traction Control (DTC) system raises the DSC thresholds, allowing some controlled drive wheel slippage for easier start-off on snow or loose ground, or for extra-dynamic cornering.

The extraordinary BMW i8 will make its world debut at the Frankfurt Motor Show and arrive in BMW showrooms in 2014.

World’s First Road Embedded Wireless Electric Vehicle Network Opens

Two cordless rechargeable Hyundai battery electric buses have been put in service this week in a pilot program in Gumi, South Korea.

The Online Electric Vehicle (OLEV), developed by the Korea Advanced Institute of Science and Technology (KAIST), is an electric vehicle that can be charged while stationary or driving, thus removing the need to stop at a charging station. Likewise, an OLEV tram does not require pantographs to feed power from electric wires strung above the tram route.

Two OLEV buses will run an inner city route between Gumi Train Station and In-dong district, for a total of 24 km roundtrip. The bus will receive 20 kHz and 100 kW (136 horsepower) electricity at an 85% maximum power transmission efficiency rate while maintaining a 17cm air gap between the underbody of the vehicle and the road surface.

OLEV is a groundbreaking technology that accelerates the development of purely electric vehicles as a viable option for future transportation systems, be they personal vehicles or public transit. This is accomplished by solving technological issues that limit the commercialization of electric vehicles such as price, weight, volume, driving distance, and lack of charging infrastructure.

OLEV receives power wirelessly through the application of the "Shaped Magnetic Field in Resonance (SMFIR)" technology. SMFIR is a new technology introduced by KAIST that enables electric vehicles to transfer electricity wirelessly from the road surface while moving.

Power comes from the electrical cables buried under the surface of the road, creating magnetic fields. There is a receiving device installed on the underbody of the OLEV that converts these fields into electricity. The length of power strips installed under the road is generally 5%-15% of the entire road, requiring only a few sections of the road to be rebuilt with the embedded cables.

OLEV has a small battery (one-third of the size of the battery equipped with a regular electric car). The vehicle complies with the international electromagnetic fields (EMF) standards of 62.5 mG, within the margin of safety level necessary for human health.

The road has a smart function as well, to distinguish OLEV buses from regular cars—the segment technology is employed to control the power supply by switching on the power strip when OLEV buses pass along, but switching it off for other vehicles, thereby preventing EMF exposure and standby power consumption. As of today, the SMFIR technology supplies 60 kHz and 180 kW of power remotely to transport vehicles at a stable, constant rate.

After the successful operation of the two OLEV buses by the end of this year, Gumi City plans to provide ten more such buses by 2015.

Tesla working on an all-wheel drive Model S

The Tesla Model S has quickly become one of the most desirable electric vehicles to ever be produced and a new report is indicating the company is developing an all-wheel variant.

Details are limited, but The Verge is reporting the all-wheel drive model could be launched as early as next year in an "ultra-premium" trim level. The car will apparently be based on the P85 variant and be able to accelerate from 0-60 mph in 4.2 seconds or less. After the initial roll-out, the all-wheel drive system could become optional on less expensive models.

Tesla declined to comment on the report, but the company has already announced plans to offer an optional all-wheel drive system on the Model X crossover. The system uses an electric motor at each axle for improved grip and acceleration.

Why All-wheel-drive? Well quite simply, luxury buyers in the key northeast US and northern European markets expect it. And you can thank Audi for that. But it’s not just Audi, every other luxury brand offers all-wheel-drive on their core sedans.

Toyota launches Corolla hybrid models in Japan

Toyota have released a hybrid versions of its flagship Corolla model in Japan on Tuesday now that the cutting-edge vehicles are becoming the main battleground of the Japanese car market.

Until now, the automaker has offered hybrid versions of its more expensive cars, in addition to hybrid-only models. But now a mass-market model is part of the lineup.

hybrid versions of the Corolla Axio sedan and Corolla Fielder station wagon were released in Japan. In addition, there will be a special Corolla Fielder Hybrid G Aerotourer·WxB grade. Monthly sales target for Japan are 1,000 units of the Corolla Axio hybrid and 1,500 units of the Corolla Fielder hybrid.

Both models are powered by a 1.5-liter Atkinson-cycle engine that develops 74 HP (54 kW) and 111 Nm (81 lb-ft) of torque. It is backed up by an electric motor that has a maximum output of 61 HP (45 kW) and 169 Nm (124 lb-ft) of torque. This enables the model to have a combined output of 100 HP (73 kW) and a fuel economy rating of 3.0 L/100km (77.6 mpg US / 93.2 mpg UK) in the JC08 test cycle.

The NiMH hybrid battery is placed under the rear seat for more efficient use of interior space. Rear seat knee space is 640 mm, achieving comfort on par with gasoline-engine vehicles. Luggage space is also comparable to gasoline-engine vehicles, with the Corolla Axio possessing 461 liters and the Corolla Fielder possessing 407 liters when carrying five passengers and 872 liters when carrying two passengers.

Suspension and shock absorber settings were adjusted to accommodate the increased weight and lower center of gravity of the hybrid system. The use of additional sound insulation material and noise-reducing windshield glass further enhances cabin quietness.

Two drive modes come standard: the Eco-Drive Mode that gives highest priority to fuel economy and the EV Drive Mode for using only the electric motor.

Starting price for the Axio Hybrid is ¥1,925,000 (US$19,589); starting price for the Fielder Hybrid is ¥2,085,000 (US$21,217).

GM Cuts Chevy Volt Price by $5,000 to Compete with Leaf – Prius

General Motors cut the starting price of the plug-in hybrid sedan by $5,000 to compete against the less-expensive and better-selling Toyota Prius and Nissan Leaf.

The 2014 Volt, arriving in U.S. dealerships later this month, will start at $34,995, the Detroit-based automaker said today in an e-mailed statement. The price cut comes, in part, to make sure the Volt shows up in online shopping searches along with the Prius and Leaf, which start, respectively, at $25,010 and $29,650, including destination fees, GM said.

“GM is getting with the times,” Michelle Krebs, a senior analyst with Edmunds.com, a website that tracks auto pricing, said in an e-mail. “Consumers want electric and plug-in hybrid vehicles at prices competitive with other vehicles without the advanced technology.”

The model, which is eligible for a $7,500 U.S. tax credit, was introduced in 2010. Volt is GM’s flagship car for its efforts to have about 500,000 vehicles on the road by 2017 with some form of electrification. The car can travel 38 miles (61 kilometers) on battery power before a gasoline engine engages.

“We have made great strides in reducing costs as we gain experience with electric vehicles and their components,” Don Johnson, Chevrolet U.S. sales vice president, said in the statement

Volt Sales

While Volt sales rose 9.2 percent through July, deliveries slipped 3.3 percent last month. That followed a 53 percent gain in June when the average cost of incentives per Volt was $6,195, according to Edmunds, citing the most recent month with available data.

Leaf sales accelerated this year after Nissan in January added an S version of the Leaf that’s cheaper than the SV and SL models. Unlike the Volt, the Leaf has no extended range engine. Leaf sales more than tripled to 11,703 through July from 3,543 during the same period a year earlier, outselling Volt in the U.S. by 60 vehicles.

Toyota’s Prius is the most frequently traded-in vehicle for a Volt, GM said in the statement.

U.S. sales of the Prius were little changed through July with 143,508 deliveries. Those results include sales of a plug-in version of the Prius, which saw deliveries slip 8.3 percent, according to researcher Autodata Corp. The plug-in Prius starts at $32,810. Toyota also sells a subcompact Prius c that sells for $19,890.

Consumer Reports

The Volt, chosen as 2011’s North American Car of the Year, succeeded in satisfying its customers, with 92 percent of survey respondents telling Consumer Reports they would buy one again.

Ten Bucks a Litre – Dick Smith Documentary cherry picks the facts [VIDEO]

A recently aired Australian documentary by local eccentric millionaire Dick Smith about alternatives to fossil fuels has stirred quite a hornets nest of feedback, both positive and negative.

While on the whole the Doco was fairly interesting and we here at EV News noted Dick's enthusiasm for electric cars, the facts seem to have been seriously cherry picked.

The EV segment starts @47 mins with Dick enthusing about an EV powered only by renewables and which has Vehicle to Grid Technology (V2G) that can held smooth the intermittency of renewables.

The cherry picking starts @50 mins when to close the segment Dick holds up a flask containing 1 litre of fuel stating that it weighs 700 grams and will take an average car approx 10km. The bad news for EV's, we are told, is that the equivalent battery would weigh 25x as much! End of argument apparently and the story moves onto bio-fuels.

What Dick failed to mention was that the equivalent of the 1 litre of fuel stored in an EV battery can propel an electric car 10x as far (100 km)... surely a worthy trade-off in energy efficiency Dick?

Of course, battery power may not be a solution for his Helicopter any time soon although Dick was so impressed with EVs he is now the proud owner of a solar powered Nissan Leaf

Acura NSX Hybrid Prototype Laps Mid-Ohio Race Circuit [VIDEO]

It's not finished. But it is complete. The Acura NSX concept has moved to prototype and added an essential piece, a driver. The prototype NSX supercar took to the racetrack just prior to the Honda Indy 200 IndyCar Series race at Mid-Ohio Sports Car Course in Lexington, Ohio.

Utilizing a unique 2 Electric Motor DriveUnit with a bilateral torque adjustable control system, the new hybrid all-wheel-drive system can instantly generate negative or positive torque to the front wheels during cornering, which Honda anticipates will deliver handling performance unmatched by previous AWD systems.

In addition to the handling benefits of the Sport Hybrid SH-AWD system, a powerful next-generation VTEC V-6 engine with direct-injection, works in concert with a dual clutch transmission and a third electric traction motor integrated within the transmission housing, to create supercar acceleration while offering outstanding efficiency.

This Sport Hybrid SH-AWD system will make the NSX the ultimate expression of, "the synergy between man and machine," added Ito. "The NSX will make the driver one with the car to enhance dynamic driving abilities without getting in the way."

Honda (UK) has opened a pre-order bank for the hotly anticipated supercar. For a deposit of £5,000 potential owners can be among the first in the UK to get behind the wheel of the brand new NSX when it hits showrooms in 2015.