Sunday, August 5, 2012

LCC Lightning GT Concept, 2008

 
 
  •  LCC Lightning GT Concept, 2008

In June 2007, The Lightning Car Company announced its intent to develop electric technology for a luxury British sports car - the Lightning GT. Today sees the unveiling of its evolutionary design. This super car with its outstanding presence & performance is set to put British sports car innovation well and truly back on the map.

Designed to accommodate the latest battery and motor technology and reflect its 100% electric power and performance, the electric Lightning prototype is being hand-built by a small team of passionate British engineers, designers and collaborators.

Whilst the rest of the automotive world engages in the hybrid, hydrogen or electric debate, the Lightning Car Company firmly believes its 100% Electric Lightning GT will help kick start the market for performance EV's. Without a significant positive shift in perception, electric motoring will remain a huge compromise in the eyes of driving enthusiasts and therefore fail to impress the masses. Our vision is shared by the world's biggest car maker, General Motors, who believes the global oil supply has peaked and a switch to electric cars is inevitable...

The design team has created a successor to the petrol Lightning GT. Combining the spirit, heritage, individuality and drama of the original car with a dynamic and contemporary design language moves it into a new era and, in doing so, embraces the new technologies and innovative architecture that reside beneath its skin. Subtle creases, positive and negative sections add a sense of strength and finesse to the dramatic surfaces of the car while retaining an understated, yet distinctive British Grand Tourer aesthetic. The Lightning's interior will also be designed to complement the unique electric driving experience.
With the build of the prototype well underway, we should see how this translates into the 'real thing' during the second half of 2008. The electric Lightning GT and Sports versions are now available to pre-order and deposits of £15,000 are being accepted.

THE ELECTRIC LIGHTNING - DESIGN FEATURES
The vehicle proportion has been retained yet exaggerated, enhancing the dramatic volumes of the car. A reduction of visual mass through the corners of the vehicle has assisted creating a more dynamic shape in keeping with the lightweight ethos of the vehicle.

The Carbon skin appears to be draped over the revised chassis architecture and wheels creating powerful arch bulges and undulations within the surfaces. These augment the sense of drama and character, enhancing the visual strength of the vehicle.
Feature creases run from front to rear of the car accelerating your eye through the surfaces generating a subtle nose forward movement while linking key functional areas.

The iconic head fairings have been retained and revised carbon panels form exit air vents. Vents in the bonnet and side surfaces hint at the performance credentials of the car while adding visual continuity, interest and cooling of the power source.
The "face" of the car has been reinterpreted to generate a stronger, more contemporary shape. The light cluster design follows the crease line forming an aggressive feature while the revised "mouth" encases feature fog lamps.

In place of the exhaust housing is a down force generating sculptured diffuser. Rear lamps are inset into a Carbon fibre graphic adding sophistication while generating a signature rear shape. The overall design appears lower, wider and more muscular than its predecessor hinting at superior aggression and performance characteristics.c amber that echoes the vibrant ochre hues found in Africa; eye-catching whether exploring mountain tracks, breezing along a beach or cruising through town.

The Interior
Functionality and usability are two key characteristics of Land Rover interiors - the position and logic of every control should be obvious the moment the driver enters. The concepts take this premise and address it in a truly contemporary way.

The form and function of the concepts are visually integrated in the interior layout; the door structure flows into the cabin before forming an elegant beam running the width of the dash. This means that the concepts can recreate the Series 1 three-abreast seating layout.

Social Seating
This seating arrangement, as well as creating a more social vehicle, extends its versatility. The passenger seat can be folded out of the way to increase carrying capacity. The middle seat conceals a large secure storage area while in front of it is a machined aluminium tray which contains induction charging technology to power electronic devices.

The innovative layout is particularly space-efficient, allowing for integrated storage areas both above and below the central beam and for the gearlever to be mounted on the centre console. This reduces the time the driver's hand is away from the wheel while changing gear, increasing control during off-road or high-speed driving.

Multi-functional Removable Touchscreen
Like the original Land Rovers, the DC100 concepts have a central instrument binnacle mounted above the gear lever. Combining the informatics functions of an instrument panel with an intuitive touchscreen interface, the unit is backed by powerful telematics technology that co-ordinates the ground-breaking technologies to be found in these concepts.
All of the concepts' functions can be controlled via this interface, using a combination of swipe and press gestures on the touchscreen. The steering wheel includes four shortcut keys that reconfigure the touchscreen to control functions such as navigation, audio and climate.

The control unit is removable from the concepts to extend its functionality. Finished in shock and water-resistant silicon and equipped with its own power source, camera and satellite connectivity, this allows it to be used as a portable navigation tool with an internal hard drive that can record waypoints, HD video footage and stills images.

Sustainable Materials
The cabins of both concepts have been finished with materials that share certain rugged, durable qualities. All these have been chosen for their sustainability both in terms of composition and manufacture, such as seat foam derived from castor oil - a first for a European manufacturer - and semi-structural panels and sound insulating boards made from flax and natural polymers.

Premium Performance
Taking its cue from technical sportswear, DC100 uses the latest generation of performance materials to create an interior of premium quality that is adaptable and hardwearing. The beam running the width of the cabin, door panels and seat bolsters are trimmed in Obsidian Grey and Carbon Black Ultrafabric, a technical cloth found on designer furniture and super yachts. Ultrafabric is not only antimicrobial, water-repellent, breathable and resistant to solar ageing, it is also PVC-free, low in volatile organic compounds and lightweight, making it a very sustainable product.

Complementing this is Superfabric, an almost indestructible textile with a premium feel. Normally found in protective clothing for extreme environments - including spacesuits - DC100 uses it on the seat cushions and to line the footwells and rear load space. The base fabric is 100 per cent recycled and the printed plate is made of eco-friendly non-toxic materials. Aluminium also features extensively and as a trim material - such as the drains in the fully washable rear load bed - it is made of 100 per cent recycled metal.

Traditional Toughness
DC100 Sport achieves the same singularity of purpose with a mixture of ultra-modern and traditional materials. The seats are trimmed in the original protective material; leather, with a lightweight, breathable mesh insert in a bold Tribal Tech pattern. The hide, itself a by-product, is sourced from Bridge of Weir, a Scottish company with impeccable environmental credentials that make it 97 per cent self-sufficient. The hide is covered with a 3D-textured mesh that alternately reveals and hides the Tribal Tech pattern.
The Tribal pattern is repeated on the floor of DC100 Sport where floor mats are made of Ombrae, a sculptural medium used in art installations and modern architecture. This dynamic 3D material changes its appearance through the use of light and shadow, depending on the angle from which it is viewed. The same pattern is also echoed in the hand-cut Pirelli tyres.

Adaptable Interior
The concepts' outward modularity is repeated in the interior where the door canisters can be configured according to requirements with options ranging from portable barbecue sets to field first-aid kits.
This inclusion of technology extends to the rear of the two concepts with cutting-edge features in the fully configurable load spaces. Down the centre of each is an aluminium inductive charging strip which in the DC100 Sport is used to either chill or heat a removable compartment - perfect for picnics on the beach or hot drinks on the slopes - while the remaining space has been designed to accommodate three kite surf boards.

In DC100 the inductive strip can be used to charge a range of power tools on the move, with supplementary equipment carried in flanking canisters. A further charging area to one side is used in DC100 Sport for charging a bespoke removable speaker system from audio specialists Meridian that wirelessly streams music from concept to cabana. In DC100 this feature can be used to charge communication equipment or laptops.

Technology and Capability
These two concepts showcase the next generation of technologies that will extend Land Rover's reputation for legendary all-terrain prowess and 365 day-a-year usability.

21st Century Capabilities
As with any Land Rover, both DC100 designs have towing and load-carrying capabilities that exceed expectations but use two different and well-proven Land Rover suspension systems specifically tailored to their distinct performance parameters.
DC100 uses a development of the existing air suspension system that allows ride height to be altered by up to 320mm for extreme approach and departure angles, axle articulation and ground clearance. The DC100 Sport's performance remit sees it use the third-generation MagneRide adjustable suspension for sports car like on-road handling while losing little in all-terrain ability.

Auto Terrain Response
Powerful new off-road tools will extend the capabilities of the much-praised Land Rover Terrain Response programme to allow it to automatically optimise the concepts for any environment without driver pre-selection. The system combines data from sensors that assess suspension travel, steering angle, wheel slip and braking and acceleration inputs to allow the vehicle to react by continuously and unobtrusively altering spring, damper, gearing and power delivery parameters.

Terrain Response on the Land Rover DC100 concepts also features High-Definition cameras mounted on the front to analyse the visual spectrum of the ground ahead. This is then compared to images stored within a predictive neural network and allows the system to visually determine, for example, the difference between sand, grass, mud, gravel, snow and asphalt. Terrain Response can then actively alter the off-road performance parameters.

Intelligent Terrain Mapping
Acting as an early-warning system is the state-of-the-art Terrain-i mapper that creates a virtual 3D visualisation of the ground ahead and displays it on the central touchscreen. Similar to systems used by fighter pilots, Terrain-i uses a headlamp-mounted scanner that runs complex algorithms to assess the route ahead and warn the driver of obstacles potentially too large to be safely negotiated.

Instead Terrain-i will suggest alternatives, displaying the safe route on the central screen. Cameras mounted on each corner of the concepts, giving the driver a 360-degree field of vision of the immediate vehicle environs, supplement the system.

Terrain-i also plays a vital support role to the driver in crowded urban environments where the intelligent 3D scanner can identify pedestrians and other hazards with far greater accuracy than current systems. This can initially warn the driver and, if avoiding action is not taken, safely stop the vehicle.

Wade Aid
Land Rover has developed a sonar-based system for assessing water depth that allows the driver to make informed decisions as to whether to proceed into flooded areas.
The system utilises sensors mounted in the bumpers and wing mirrors. These are able to measure depth and by working in conjunction with inclinometers recognise whether the level is increasing or decreasing. All this information is displayed in an intuitive graphic on the central touchscreen.
The system will also automatically optimise the concept for a water crossing by raising the ride height, closing body vents, selecting a lower gear to maintain engine revs and advising on the optimum speed for the depth of water, allowing a maximum wading depth of 750mm.

On-Demand Spiked Tyres
Further allowing the concepts to adjust to changing conditions is a driver-deployable spiked tyre system. This is operated by an electro-mechanical system mounted within the tyre on the inside of the wheel; activation of the technology causes air to inflate a secondary air chamber, filling pods moulded into the tread of the tyre which contain the spikes. The spikes rise just above the tread surface and fix into place for driving on packed snow and ice. When conditions have eased, the spikes can be retracted, obviating the need to carry two sets of tyres or snow chains.

Telematics
Underpinning these systems is a powerful telematics programme that seamlessly integrates many of the vehicle functions and presents information to the driver in the clearest, most straightforward manner.
In addition to this, the telematics allow communication between the concepts and a smartphone or laptop, letting the owner to check everything from the tyre pressures to the cabin temperature and, for instance, operate the climate control remotely.

In addition, the telematics system can store data from every one of the car's journeys and download them for comparison. So, for instance, information from the Wade Aid system could chart changes in water depth or data from the traction control could be used to assess the rate of terrain erosion.
The system also has full on-the-move connectivity via 3G and satellite and can deliver not just traffic alerts but also weather warnings for remoter areas.

Leisure Key
Land Rover prides itself on offering solutions to everyday as well as extraordinary situations. Land Rover has adopted Radio Frequency Identification (RFID) technology to increase the accessibility, usability and security of the concepts.
The concepts come with a set of RFID chips built into impact and water resistant items such as wristbands and watches. These allow the main key fob to be left in a slot in the glovebox, which deactivates it and transfers its lock and unlock functions to the rugged RFID chip. Once the system is armed and the car secured, only that specific RFID smart tag will allow it to be unlocked and reactivate the key fob.

Future developments of the system will allow each family member to have their own smart tag, which would save their personal audio, climate, communication and seating settings. This would also allow parents to restrict vehicle power and speed when their children used it. Third-generation smart tags could also include biometric data that would use facial systems to increase security.

Park Assist
Extending the DC100 Sport's capabilities in the urban environment is a Park Assist system, which parallel parks the concept with minimal input from the driver. Sensors scan the side of the road to select a suitably sized space. If the driver confirms the selection, the DC100 Sport can then reverse into the space, performing all the steering functions automatically while the driver retains control over the brakes and accelerator.

Drivetrain
Land Rover is actively researching the next generation of powertrains appropriate to the extreme uses and environmental challenges to which its cars are put. In association with research centres, suppliers and universities, the company is looking at a wide range of options to reduce fuel consumption and CO2 emissions.

Intelligent Stop/Start
The eight-speed ZF automatic transmission, with Intelligent Stop/Start fitted to the two concepts represents the first stage in Land Rover's programme to introduce suitable, sustainable technology.
Designed with future hybridisation in mind, the gearbox utilises the Twin Solenoid Starter system that offers considerable benefits over more conventional Stop/Start technologies such as the ability to restart the engine during its rundown phase. The addition of a transfer case for a wide spread of ratios and wheel-mounted paddles for manual selection allow for great control both on and off road.

Appropriate Powertrains
Both concepts are powered by variations of a 2.0-litre four-cylinder engine. The go-anywhere DC100 is diesel-powered for maximum mud-plugging torque while the more performance-biased DC100 Sport is petrol-powered for a sportier drive. Both engines are capable of being configured as parallel or plug-in hybrids, as appropriate to their role.

Torque Vectoring
A new electronic torque vectoring system greatly extends the stability, traction and handling of the DC100 concepts on any surface. As opposed to purely mechanical differentials, those designed for torque vectoring use electronic control systems to channel specific amounts of power to each individual wheel.

In on-road driving situations this allows for both a sportier and safer drive, with the torque vectoring acting to further enhance vehicle performance by working in conjunction with stability programmes. During off-road driving, torque vectoring confers even greater benefits, being able to infinitely and instantaneously send torque to whichever combination of the four wheels has the most grip.

Driveline Disconnect
Driveline Disconnect reduces friction losses by sending drive to the front axle only unless conditions dictate that all-wheel drive is required. Unlike conventional switchable four-wheel drive, which reroutes engine power electronically, the Land Rover system physically decouples the rear propshaft from the centre differential for greater efficiency benefits with potential fuel savings of up to 7 per cent. The system can recouple and send drive to the rear wheels when it detects a loss of traction as swiftly as an electronic programme.

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