Category: EV Concept

Posted on

Mitsubishi GC-PHEV plug-in concept SUV [VIDEO]

The Mitsubishi Concept GC-PHEV blazes new trails with powerful driving performance thanks to its full-time 4WD Plug-in Hybrid EV System; excellent stability and road handling that S-AWC (Super All Wheel Control) provides; and information power that an innovative human interface and Connected Car technology together bring. Offering the latest environmental performance, this vehicle empowers you to drive freely on the Earth while enjoying safety and peace of mind. Experience the reliability and satisfaction of driving the Mitsubishi Concept GC-PHEV.

EXTERIOR
A dynamic front face with SUV personality. A futuristic form that looks sculpted from a single block and wraps the vehicle with the strength to drive on any road.

INTERIOR
When you open the easy-access doors with no center pillar, the spacious cabin and futuristic interface catch your eye. Enter a progressive informational space that stimulates your adventurous heart. The door to a new driving experience is now opening.

CONNECTED "TACTICAL TABLE"
A large interface with a touch screen, sweeping wide through the center, collects information that passengers bring, information from the internet, and data accumulated by the vehicle itself, allowing the creation of original maps and driving plans that occupants can share as they connect with the world. The Connected Car possibilities expand from here.

AR WINDSHIELD
Vital driving information is displayed on the windshield to enhance navigation and warn of car distances and lane departures. A driving assist system that uses communication technology also enhances driving safety by notifying the driver with guidance and a warning when vehicles or pedestrians enter blind spots in intersections. AR:Augmented Reality

NEW PHEV SYSTEM
The FR-type Plug-in Hybrid EV system effectively employs engine and motor power. The 3.0-liter V6 supercharged MIVEC engine is assisted by a 70kW high output motor that provides dynamic performance. This system realizes low energy consumption while achieving CO2 emissions under 100 g/km and supremely quiet operation. SPECIFICATION : CONCEPT GC-PHEV

■Overall length / Overall width / Overall height (mm): 4930 / 1940 / 1980
■Seating capacity: 4
■Targeted hybrid fuel consumption: 15 km/L or more
■Targeted EV cruising distance: 40 km or more
■Engine type: 3.0-liter V6 supercharged MIVEC engine / Max. output: 250 kW
■Motor: Max. output: 70 kW
■Total battery electric power: 12 kWh
■Wheel drive: Full-time 4WD
■Transmission: 8-speed automatic

Posted on

Nissan BladeGlider Wheel Motor Powered EV Concept [VIDEO]

More than a concept, Nissan BladeGlider is both a proposal for the future direction of Nissan electric vehicle (EV) development and an exploratory prototype of an upcoming production vehicle from the world's leading EV manufacturer. BladeGlider was developed with form following function. Nissan crafted the vehicle's unique architecture to give the driver and passengers "sustainable exhilaration" - a fresh electric vehicle driving experience based on peerless technology and exotic styling.

Targeting the visionary individual seeking visceral driving and sustainability, BladeGlider goes beyond sheer power and acceleration to send the heart soaring into new realms of smooth "gliding" pleasure. It is a physical demonstration of the innovation and excitement of the Nissan brand and Nissan's Zero Emissions Mobility leadership. BladeGlider's pioneering spirit distinguishes it from anything yet envisioned for EVs and destines it to rule the roads of the not-so-distant future.

Re-inventing the Performance Car - A Game Changer Designed from Scratch

A clean slate was the starting point for this project, led by Francois Bancon, division general manager of Product Strategy and Product Planning at Nissan. "The goal was to revolutionise the architecture of the vehicle to provoke new emotions, provide new value and make visible for consumers how Zero Emissions can help redefine our conception of vehicle basics," said Bancon.

BladeGlider's shape alone, with its narrow front track, challenges the orthodoxy that has dominated the roads since the earliest days of the internal combustion engine. The revolutionary nature of the car is more than skin deep. New possibilities for the designers and engineers were opened up by the unique characteristics of electric vehicles.

BladeGlider has its conceptual roots in two aerial images: the soaring, silent, panoramic freedom of a glider and the triangular shape of a high performance "swept wing" aircraft.

It is therefore fitting that, in terms of engineering, BladeGlider's developmental focus was aerodynamics: achieving low drag (cdA) while generating road-hugging downforce.

Disruptive and challenging to the status quo, BladeGlider shares sustainable engineering values with both Nissan LEAF - the best-selling EV in history ─and the Nissan ZEOD RC (Zero Emission On Demand Racing Car), which will make its debut at next year's Le Mans 24 Hour race.

A Provocative Shift in the Engineering Paradigm

With its narrow, 1.0 metre lightweight front track and wide, stable rear track, BladeGlider looks as if it could have sprung from a "skunk works" project. But the radical architecture all boils down to aerodynamics and balance. Having the front wheels close together reduces drag and enhances manoeuvrability for high-G cornering power, assisted by its 30/70 front/rear weight distribution ratio. Aerodynamic downforce is created by the highly rigid yet lightweight carbon-fibre underbody, hence the lack of drag-inducing wings.

When BladeGlider matures into a production car, it could be Nissan's first use of in-wheel motors. The in-wheel motors provide rear-wheel propulsion with independent motor management, while also contributing to freedom of upper body design and space-efficient packaging.

To power the electric motors, BladeGlider employs Nissan's innovative lithium-ion battery technology, proven in Nissan LEAF. Battery modules are mounted low and towards the rear to enhance stability and handling.

Revolutionary Breakthrough in High-Performance Design

BladeGlider embodies a fearless vision of the EV future. Its tightly streamlined deltoid body comprises a tough and structurally optimised chassis wrapped in ultra-lightweight, yet strong and stiff, carbon fibre reinforced plastic (CFRP) finished in a pearlescent white colour that evokes the pristine freedom of a glider. The racing-inspired exterior features a sculpted contour that is both functional and breathtakingly beautiful. Starting from the low, flat and narrow nose, the body line rises gracefully to the cockpit canopy and then curves forcefully back over the large rear wheels, evoking a sense of dynamic movement even when the vehicle is standing still.

"BladeGlider was conceived around delivering a glider-like exhilaration that echoes its lightweight, downsized hyper-efficient aerodynamic form," said Shiro Nakamura, Nissan's senior vice president and chief creative officer. "This design is more than revolutionary; it's transformational, applying our most advanced electric drive-train technology and racetrack-inspired styling in the service of a new dimension of shared driving pleasure."

Inside the canopy, the cockpit seats three in a triangular configuration with the driver centre-forward. Seating appointments feature special light and comfortable coverings with yellow fluorescent lines. Amid simple yet edgy interior styling cues, an aircraft-type steering wheel and state-of-the-art instrumentation technology complete the glider-like image. To support maximum EV cruising efficiency, the IT system can display relief maps and atmospheric conditions.

This efficient, aerodynamic, simple, and lightweight vehicle provides a "gliding" feel that combines the feeling of gravity-defying freedom and near-360 degree view of a glider with the pulse-quickening exhilaration of a race car.

"I think that the excitement of the racing car should be mirrored in the excitement of driving the road car," said Ben Bowlby, director of Nissan Motorsport Innovation, who has supported the BladeGlider's development. "I think there are elements we can bring from the race track to make these future road cars more exciting, more fulfilling and give greater driving pleasure."

As a rear-drive performance car, BladeGlider exhibits a coherent and linear handling that enables it to consistently hug road curves, providing feedback for intuitive and exhilarating steering control when cornering under threshold conditions.

Augmenting BladeGlider's aerodynamically-engineered precise feedback and control, the canopy-like visibility of the driving position engenders a synchronised feeling of oneness with the machine and the road. The result is a free soaring experience which the driver can share with two passengers in the V-shaped seating configuration. Passengers sit at the longitudinal centre of gravity to maintain the car's balance at all times. The centre-driving setting of the cabin space is designed to enhance the driver's sensatory experience. 

As a final touch, the driver's seat automatically slides laterally when you open the door, enabling easy access to passenger seats.

New EV Values for the Next Generation

By thinking outside the box, Nissan has created an EV that truly symbolises the unlimited potential of electric propulsion - balancing zero emissions with innovative excitement like never before.

Posted on

Mitsubishi Electric to Exhibit EMIRAI 2 EV concept car @ Tokyo Motor Show [VIDEO]

Mitsubishi Electric will display its EMIRAI 2 concept car at this year’s Tokyo Motor Show. The car is a continuation of the original EMIRAI first exhibited in December 2011 with rear projection customizable dashboard display, biometrics capabilities, and sensor array.

Advanced automotive technologies and products will be displayed in two EMIRAI 2 electric-vehicle concept cars. One vehicle features an EV powertrain and the other a driving-assistance system to offer safer and more comfortable driving experiences in the coming future.

The EV powertrain system incorporates high-accuracy traction control and acceleration control. The driving-assistance system features integrated image sensing and powered on-board display technologies.

The show will be held at the Tokyo Big Sight exhibition complex in Tokyo, Japan from November 23 to December 1.

Posted on

Nissan to unveil electric sports car at Tokyo Motor Show [VIDEO]

Nissan said Friday it would unveil a sporty concept electric vehicle at the Tokyo Motor Show

The company, which has been selling its Leaf electric vehicle since late 2010, said it hoped its Nissan BladeGlider would help it reach a market of male drivers who still want performance and styling in an environmentally friendly car - a major hurdle to widespread commercial sales.

The car, to be unveiled at the biennial Tokyo exhibition later this month, features an aerodynamic design that widens from the front to back with space for a driver in the middle and two passengers in the rear.

The design -- one metre in the front (3.3 feet) and 1.89 metres at the back and made with lightweight carbon fibres -- puts the vehicle's centre of mass on the rear tires to allow for tighter turns, Nissan said.

"The driver's seat has been positioned in the middle of the vehicle to give a sense of a pilot in an airborne glider," Nissan said.

The concept vehicle is squarely aimed at moving into a higher-end electric vehicle market already tapped with some success by US-based Tesla.

The Japanese firm has invested about 4.0 billion euros ($5.4 billion) in electric car development in a partnership with French carmaker Renault, which owns more than 40 percent of Nissan.

This week, Renault-Nissan announced an electric car tie-up with Mitsubishi.

Nissan said it has sold more than 80,000 Leaf electric vehicles globally since its rollout three years ago.

The Japanese automaker will also be showing off its second commercial electric vehicle, the e-NV200 minivan, which it unveiled at the Frankfurt Motor Show in September.

Posted on

Subaru to reveal Viziv Evolution Plug-In Hybrid Concept @ Tokyo Motor Show

The Subaru Viziv Evolution concept, which was exhibited at the 2013 Geneva show, will be revealed at the 2013 Tokyo Motor Show in a closer to production form.

The Viziv Evolution we saw in Geneva utilized a diesel-hybrid set up, whereas this iteration is a plug-in hybrid that employs the same 1.6-liter DIT boxer engine in the Levorg concept.

The overall design carries over, though, with the engine connected to a continuously variable transmission, one electric motor up front and two additional electric motors connected to the rear wheels.

Technology is a big component of the innovative all-wheel drive Viziv Evolution concept, which will also come with a new autopilot system that previsions the future of fully-autonomous vehicles.

Major Specifications

  • Engine Type: 1.6-liter Horizontally-Opposed direct injection turbo "DIT" engine
  • Transmission Type: Lineartronic (CVT)
  • Electric Motor Type: Interior permanent magnet synchronous motor;
    1 front motor,
    2 rear motors
  • Drivetrain: Independent-rear-motor-driven Symmetrical AWD (All-Wheel drive) + Plug-in hybrid system
  • Battery Type: Lithium-ion batteries
    • Posted on

    Battery-powered driverless cars to be launched on UK streets by 2015

    Driverless cars will be trialled in Milton Keynes city centre from 2015, as part of a five year pilot scheme.

    100 pod devices will run on specifically marked out lanes between Milton Keynes Central train station, the centre:mk shopping centre and the offices in-between.

    They will be powered by an electric motor, and will travel along pavements at speeds of up to 12mph. Initially, they will be on separate lanes but the government may remove these lanes as the experiment progresses.

    The pods will be big enough to fit two passengers and luggage. They will also be fitted with sensors to avoid colliding with pedestrians and parked cars.

    A trial of the devices will begin in 2015, with a full rollout expected two years later. This will allow customers to hire pods from £2 a ride using smartphone apps to either hail or advance book one of the machines.

    The experiment is expected to cost £65million over the five year period, and has the backing of Business Secretary Vince Cable and Higher Education minister David Willets.

    Milton Keynes was chosen for the experiment because of its wide pavements. The trials will be the first driverless cars in operation on Britain’s streets.

    Posted on

    Finnish Electric RaceAbout Blitz the Nürburgring [VIDEO]

    During a recent Nürburgring expedition the Electric RaceAbout team set a new, greatly improved, lap time.

    While testing the latest powertrain improvements and the new Nordschleife Aero-kit Micke Be rgman stopped the timing at 8:23.56. To put this in context the Audi R8 e-tron did it in 8:09.099 while the Mercedes SLS E-Cell set a time of 7:56.234

    Due to the limited possibilities for only three complete laps this time there is still room for significant improvement.

    According to Micke the new Nokian Hakka Black tyres, the torque vectoring control and Aero-kit combined with the lighter and more powerful battery take the E-RA to a completely new level of performance.

    The almost unlimited new potential unleashed by the torque vectoring both improve the car's agility and stability. This was not previously possible with traditional powertrain technologies and together with the team we'll continue to explore the possibilities and improve the technology.

    Posted on

    Buckeye Bullet 3 Delayed in Bid to become first 400 MPH EV [VIDEO]

    The Buckeye Bullet is a collaboration between Ohio State University and Venturi, and although due to the flooding of Bonneville salt flats (Utah, USA), the FIA and the organizers of the world speed records program decided to cancel the competition for this year, the team were targeting a 400 MPH (640 km/h) world land speed record for electric cars.

    The car, called VBB-3, is actually the third “Buckeye Bullet” land speed record car. Driver Roger Schroer took the VBB-2.5 to 307.58 mph in 2010, giving him the current FIA world record.

    VBB-3 is powered by four electric motors, which generate 400 horsepower each (750 hp Peak) with energy storage provided by 2,000x prismatic A123 batteries that weigh 1600 kg. The 3.2 ton Carbon fiber skinned vehicle can output a total of more than 2 Megawatts (3,000 hp) which, when combined with a drag co-efficient of only 0.13, the team hope is sufficient to re-write the EV Land Speed Record.

    To break the record, the electric car must travel at least one mile and average two runs within an hour. The student team hopes that the new car will break 400 mph, something no electric car has achieved, but this will now have to wait till 2014.

    Posted on

    Land Rover Evoque_e project announced

    Jaguar Land Rover has announced its leadership of an advanced powertrain research and development programme for state-of-the-art, next-generation hybrid and battery-electric powertrain technologies based on the Range Rover Evoque platform.

    ‘Evoque_e’ is a two-year £16.3m UK government Technology Strategy Board project. Jaguar Land Rover will contribute £4m to the project and will lead a consortium of 12 selected partners – eight from industry and three universities.

    The partners include Zytek Automotive, GKN Driveline, Motor Design Limited, AVL, Drive System Design, Williams Advanced Engineering, Delta Motorsport, Tata Steel, Bristol University, Cranfield University and Newcastle University.

    Starting in October 2013, the unique collaboration will design, develop and build three research vehicles showcasing state-of-the-art, next-generation powertrain concepts for a mild hybrid electric vehicle (MHEV); a Plug-In Hybrid (PHEV) and a full Battery Electric Vehicle (BEV).

    Peter Richings, Jaguar Land Rover Director Hybrids and Electrification,said: “The aim of the project is to develop technology platforms which are configurable and compatible within the architecture of an existing production vehicle. The modular technologies include single and multi-speed axle drives; modular battery packs and integrated power electronics, multi-machine, advanced control development and torque vectoring.

    “The research teams will look at how the speed of the electric motor can be increased, to reduce its size, weight and cost while enhancing performance and durability. We will also look at the use of alternative materials to both reduce the use of rare earth materials and for systems optimisation.

    “The outcome of the Evoque_e project will be new technologies with the potential for high volume production that are capable of delivering benchmark performance in terms of cost, weight and ustainable use of materials.”

    As Britain’s biggest investor in automotive research and development, and the biggest investor in manufacturing R&D, Jaguar Land Rover is spending £2.75 billion in the year to March 2014 on product creation. Jaguar Land Rover showcased a number of the other collaborative research projects it is leading at the LCV 2013 event. These projects include the extreme downsizing of internal combustion engines, efficient management and storage of heat energies and weight reduction of engines through innovative new design concepts.

    Commenting on these research projects, Dr Wolfgang Epple, Jaguar Land Rover Director Research and Technology said: “Jaguar Land Rover has ambitious plans for growth. We believe that the success of our global business – and the UK economy – lies in engineering and innovation. Our research programmes bring together some of the best engineering minds in the UK. With Evoque_e, we will build on previous Jaguar Land Rover technology demonstrators and show clearly the breadth of our capability and commitment in advanced powertrain technology.”

    Jaguar Land Rover already collaborates with a number of leading universities in the UK on a range of technology and skills projects. More than half of Jaguar Land Rover’s research and advanced engineering team are based at Warwick University’s Warwick Manufacturing Group (WMG), to work collaboratively on key new technologies including energy storage, weight reduction and digital verification.

    Antony Harper, Jaguar Land Rover Head of Research, illustrated the importance of this work and its benefits to the company and the UK economy, saying: “We are keenly aware that not all the clever people work for us and our collaborative research programmes harness the best of UK engineering innovation, to develop new and exciting technologies.

    “The development of our business and our continuing investment in R&D has also encouraged inward investment into the UK, with our suppliers creating and funding their own research projects in UK universities. Technology Strategy Board funding allows us to multiply the effect of our investment and nurture UK-based technology investment, in supporting our work to address future needs, wants and legislation around the world.”