Thứ Tư, 28 tháng 9, 2011

Scion tC, 2011

 
 Scion tC, 2011

Launched in 2004, the Scion tC quickly became Scion's top-selling vehicle, at the same time attracting the youngest buyer in the entire industry. Six years later, the second-generation Scion tC emerges with an aggressive new look, increased driving performance, and a more premium feel.

Enhanced performance is accomplished in the second-generation Scion tC with an all-new 2.5-liter inline four-cylinder engine with dual VVT-i that generates 180 horsepower, 19 more than the previous model, and 11 additional lbs.-ft of torque. In addition to increases in power, the new engine delivers an increase in fuel economy all while lowering emissions. Performance is further improved and heard through a new intake manifold design and a sport-tuned exhaust system that delivers a bold and aggressive sound.

The Scion tC features two all-new transmissions: the six-speed manual transmission has improved shift-feel and adds to the car's already fun-to-drive character, and a new six-speed automatic gains two gears along with sequential-shift.

The 2011 tC enters its second-generation riding on a new platform, including a specially tuned MacPherson strut front-suspension and a double-wishbone rear-suspension that rides lower than the previous model. Larger 18-inch aluminum-alloy wheels are wrapped in wider tires, giving the Scion tC a broader stance and elevated handling characteristics. The new model also comes standard with larger 16-inch disc brakes on all corners. A new performance-tuned electronic power-steering system provides the driver a confident feel that is more in-tune with the road. The elements brought together in the new chassis result in a premium performance that expands the Scion tC into a new dimension of driving enjoyment.

The design of the 2011 Scion tC projects a bolder and more aggressive stance. Important design cues like the helmet-inspired cabin shape were adopted from the Calty-designed Scion FUSE concept, which was unveiled at the 2006 New York Auto Show. The protruding fender flares amplify its wider, lower stance and are aggressively complemented by a sleek front grille and projector headlamps. The shape of the rear taillights flow cleanly into the overall shape of the trunk.

The Inside, a driver-focused cockpit starts with a sporty new three-spoke steering wheel that features a flat bottom and a new shape that offers a confident grip. Front seats feature robust bolsters that provide secure positioning while still offering spaciousness and comfort. The instrument-panel, gauge cluster and center-console all face inward in a V-shape, making controls easily accessible.

The cabin has been lengthened for a more comfortable passenger experience with increased versatility. Utility is enhanced with reclining rear seats that split 60/40, providing more storage capacity. The panoramic moonroof remains standard in the new Scion tC.

The new tC comes standard with an AM/FM/CD/USB audio system that features eight speakers. As with all Scion models, steering-wheel-mounted controls allow the driver to easily navigate through all of their music.

The new Scion tC is also reinforced with key safety features and is expected to achieve top safety ratings. In addition to standard Anti-lock Brakes (ABS), the new Scion tC also gains standard Vehicle Stability Control (VSC), traction control (TRAC), Electronic Brake Force Distribution (EBD) and Brake Assist (BA). Active front-headrests and eight airbags are also standard, including both driver and front-passenger knee airbags.

Scion iQ, 2011

 
 

Scion iQ, 2011

The Scion iQ succeeds at taking big ideas and concentrating them into a small package. Made possible by intelligent and functional packaging, the Scion iQ is a small car that offers the functionality and comfort that drivers expect from a car twice its size.

The Scion iQ's profile, defined by a strong and high beltline, glides from the large, stout headlamps, up the A-pillar, across the roof and wraps around the rear, emphasizing the Scion iQ's geometric shape. Side mirrors with integrated turn signals accent the clean design.

The rear emphasizes the vehicle's modern style. Trapezoidal lines run toward the wheels, from the hatch to the bumper's rear diffuser-like accent, creating a substantial presence. With a 78.7-inch wheelbase and a unique suspension design - consisting of MacPherson struts up front, and a torsion beam rear suspension - the three-door hatchback can deftly maneuver through city traffic. In addition, its overall length of only 120.1-inches, width of 66.1-inches, and short front and rear overhangs create a confident stance that still allows the Scion iQ to fit into virtually any urban parking scenario.

Engineering innovations like a compact air-conditioning unit, inverted front-mounted differential, and electronic power-steering system with compact steering column, all amount to significant decreases in front-end length. In addition, the Scion iQ is equipped with a flat gas tank housed beneath the floor that reduces rear overhang.

The Scion iQ's functional "3+1" seating equates to the world's smallest four-passenger vehicle. With the driver's and front-passenger's seats being slightly off set, this innovative seating arrangement allows for one adult behind the front passenger and a child, small package, or pet behind the driver. A first for Scion, extra-slim front seat backs are utilized to provide rear passengers with ample legroom. The rear seats are extremely versatile, featuring a 50/50 split and the ability to fold flat, creating enough storage to accommodate up to two golf bags.

The Scion iQ is small in size but large on safety. Active safety features include Vehicle Stability Control (VSC), an anti-lock brake system (ABS) with Electronic Brake force Distribution (EBD), Brake Assist (BA) and Traction Control (TRAC).

The Scion iQ will come standard with 10 SRS airbags, including the world's first rear-window curtain airbag. Other airbags include driver- and front-passenger airbags; driver- and front-passenger seat-mounted side airbags; side curtain airbags; driver- and front-passenger knee airbags; and a Scion-first driver seat-cushion airbag.

The 2011 iQ is equipped with a 1.3-liter, four-cylinder engine that produces over 90 horsepower and features the latest dual VVT-i, which allows it to be impressively efficient, providing a broader powerband yet requiring less fuel and generating fewer emissions.

The Scion iQ's engine is combined with a Continuously Variable Transmission (CVT) that helps deliver smooth acceleration and excellent fuel efficiency. The Scion iQ will be rated as an Ultra Low Emission Vehicle (ULEV-II), and it is expected to achieve a combined fuel economy in the high 30s, comparable to similar vehicles that feature less passenger and cargo capacity.

The Scion iQ comes standard with a six-speaker audio system and is available with multiple audio head units for various degrees of audiophiles. All iQs will be outfitted with USB and auxiliary ports, allowing personal devices to be easily integrated into the car. Steering-wheel-mounted controls command the audio system to adjust volume and shuffle through music sources such as CD, AM/FM, auxiliary input, or a library from your iPod or other USB device.

Thứ Tư, 14 tháng 9, 2011

Opel Flextreme GT-E Concept, 2010

 
 
 
Opel Flextreme GT-E Concept, 2010

Opel Flextreme GT/E Concept made its debut at the 80th Geneva Motor Show (March 4 - 14, 2010), it will boost the company's credentials as a leader in green technologies, offering expressive design with efficient environmental performance - and engineered with German precision.

In Opel's strategy for achieving more independence from fossil fuels, electricity plays a key role. The 4.7-meter long Opel Flextreme GT/E Concept illustrates how extended-range electric vehicle (E-REV) technology can be plugged into large or mid-size vehicles, as well as compact cars such as the upcoming Opel Ampera.

Opel calls this strategy e-mobility unlimited: adapting the highly efficient E-REV drive system - which removes the limitations of battery-only power - to vehicles across all market segments. To enjoy zero CO2 driving emissions Opel-style, the Flextreme GT/E concept shows that size doesn't matter.

The purposeful design also enables the Opel Flextreme GT/E Concept to achieve a projected drag co-efficient of just 0.22, which helps it reach a 200 km/h-plus top speed as well as conserve energy and extend its driving range. Stand-out visual features include a low and wide stance, wing-shaped lights front and rear, a distinctive nose and grille, floating C-pillars and muscular, sculptured bodywork.

Exterior design: expressing efficiency with emotion

The low, coupé-like proportions of the Opel Flextreme GT/E Concept explore the potential for evolving Opel's new design language - sculptural artistry meets German precision - within an envelope optimized for aerodynamic efficiency.

The clean, frontal styling features a low hood line and an extended nose section, which is clasped by wing-shaped, signature LED headlamps. These are deeply carved into the front fenders and across the hood line. The new trapezoidal grille execution is slim but bold. The prominent wing-shaped chrome bar carries a large Opel emblem, which doubles as a socket for charging the Opel Flextreme GT/E Concept's battery pack.

The upper section of the grille is used to admit cooling air, the lower portion being covered by a translucent panel. The absence of additional air intakes allows a low frontal area for aerodynamic efficiency and also enables the Opel Flextreme GT/E Concept to meet future pedestrian protection requirements.
The sculpted hood, with an Opel signature central crease line, features narrow longitudinal vents on either side to draw air out of the engine compartment. The muscular fenders and wheel-arches sweep back into the side-body.

In profile, the Opel Flextreme GT/E Concept is distinguished by innovative, stubbed C-pillars. This floating design allows the glasshouse to be extended rearwards under the arching roofline, emphasizing the flowing lines of the side body. The car's dynamic character is further underlined by a fresh expression of Opel's signature blade motif, now a swooping swage line from the base of the C-pillar into the lower front fender.

Access to the cabin is enhanced by the adoption of rear-hinged rear doors, an evolution of the Opel FlexDoors concept from the new generation Meriva monocab. To preserve the clean exterior looks, all door handles are replaced by light sensors. These trigger the doors open when covered by the driver's or passenger's hand. To reduce air turbulence, exterior front door mirrors are also absent, replaced by small camera pods in the base of the A-pillars.

At the rear, a strong shoulder line embraces sculpted wheel-arches that further emphasize the Opel Flextreme GT/E Concept's wide, ground-hugging stance. The coupé look is completed by a steeply raked tailgate, carrying wing-shaped LED light units which echo the form of the front headlamps. Like that of the Insignia Sports Tourer, the tailgate has a wraparound design for improved trunk access. Its deep glass screen is slightly convex to improve airflow.
The translucency of the fixed glass panel in the center of the roof is adaptive, allowing sunlight to warm the interior in the cold of winter, but darkening for coolness in summer. A duct at the rear edge of the roof is for additional cooling of the battery and electronic components.

Managing airflow and saving weight

Integral to the Opel Flextreme GT/E Concept's expressive looks is the efficiency of the design execution. The small frontal area, low roof height (1308 mm) and a flat, enclosed underbody all enable the car to cleave the air with a minimum of disturbance.
A series of measures optimize airflow management. The 21-inch alloy wheels are relatively narrow, to reduce wind resistance, and fitted with 195/45, low rolling resistance tires. Clear, flush-mounted trim inserts also minimize air turbulence.

The minimal front intake improves airflow around the nose of the car and the underbody sweeps up, venturi-like, at the rear to further reduce drag.
The Opel Flextreme GT/E Concept also explores the potential for active shape shifting. At speeds above 50 km/h, a vertical panel extends along the body from the air extraction slot behind each rear wheel-arch. These 350 mm-long side spoilers guide high-speed airflow around the rear corners of the car, further reducing the amount of turbulence.

Mass reduction measures for the body include the use of lightweight, carbon composite outer panels, polycarbonate window glazing and aluminum alloy structural components. Compared to conventional materials, these offer a 40 percent weight saving which further contributes to reduced energy consumption and an increased driving range.

Innovative propulsion

The efficient concept also includes GM's ground-breaking E-REV drive system, already developed for the Opel Ampera. The Opel Flextreme GT/E Concept shows the versatility of this technology by displaying it in a larger, mid-size vehicle format.

Despite its greater size and a maximum speed of more than 200 kilometers per hour, the Opel Flextreme GT/E Concept is projected to offer performance similar to that of the Ampera: a battery-powered driving range of up to 60 km - with zero CO2 tailpipe emissions - and a total range of more than 500 km. Average fuel consumption is estimated at 1.6 l/100 km, with CO2 emissions of less than 40 g/km.

Unlike a hybrid vehicle, the wheels of the Opel Flextreme GT/E Concept are powered at all times by electricity. For typical journeys up to 60 km, energy is supplied by a T-shaped lithium-ion battery pack located under the floor and rear seat.

However, unlike a battery-only electric vehicle, the Opel Flextreme GT/E Concept eliminates any possibility of range anxiety through fear of being stranded without power. The small gasoline engine/generator is seamlessly engaged to provide electricity whenever the battery's supply becomes depleted. In this mode, the driving range is extended to more than 500 km, until the plug-in battery pack can be recharged or the car is refueled.

The motor in the electric drive unit delivers a substantial 370 Nm of instant torque, giving lively performance and projected zero to 100 km/h acceleration in less than nine seconds.
The Flextreme GT/E concept is a further step in Opel's unfolding strategy for the electrification of the automobile, which includes a wide portfolio of products using battery, extended-range, hybrid and fuel cell technologies.

Opel Flextreme GT/E Concept: Technical Data
    * Body style
          o Type: 5-door coupé, 4-seat upper mid-size concept vehicle
          o Co-efficient of drag: 0.22
    * Exterior dimensions
          o Overall length: 4762 mm
          o Height: 1308 mm
          o Width: 1871 mm
          o Wheelbase: 2900 mm
          o Front track: 1600 mm
          o Rear track: 1600 mm
    * Wheels/Tires
          o Wheel size: 21 inch
          o Tires: 195/45 R 21; extra low-rolling resistance
    * Powertrain
          o Type: Electric drive, front-wheel-drive
    * Battery system
          o Type: Advanced lithium-ion (manganese spinel)
          o Energy: 16 kWh
          o Nominal voltage: 350 volts
          o On-board charger: 3.3 kW
          o 100% recharge time (230V outlet): < 3.0 hours
    * Electric drive unit
          o Max. power: 120 kW
          o Torque: 370 Nm
    * Generator
          o Power: 53 kW peak output
          o Engine type: 4-cyl. 1.4l gasoline-fueled combustion engine
    * Performance
          o Pure electric mode range: 60 km
          o Full range, range extender engaged: > 500 km
          o CO2 emissions, combined cycle (est.): < 40 g/km
          o 0 - 100 km/h acceleration: < 9.0 seconds
          o Maximum speed: > 200 km/h

Opel Corsa, 2010

 
 
Opel Corsa, 2010

The Opel Corsa range has been rejuvenated to provide more power and more driving fun with less fuel consumption. Opel engineers have given the Opel Corsa a complete make-over, introducing an enhanced powertrain line-up that reduces fuel consumption by up to 13 percent, significant chassis improvements and a new steering calibration. In addition to its agile handling and greater ride comfort, drivers will appreciate engines that give more pulling power.

The enhancements are accompanied by the introduction in Germany of several new special editions like the sporty Color Line series. The Color Race, Color Edition and Color Wave variants feature distinctive bodywork finishes and attractive 17-inch alloy wheels. Also, in celebration of 111 years of automotive tradition, Opel will release a captivating 111 Limited Edition in Europe.

The Opel Corsa comes in two distinct body styles, the coupé-like three-door and the family friendly five-door. Inside the cabin, the Opel Corsa continues to offer one of the roomiest and most attractive interiors in its class. True to Opel's philosophy, it also features innovative technologies at an affordable price, including halogen Adaptive Forward Lighting (AFL), a heated steering wheel, active front head restraints, Hill Start Assist, a Panorama sunroof or the integrated FlexFix bicycle carrier which is unique to Opel.

The Opel Corsa is a highly popular choice throughout Europe, accounting for some 30 percent of all Opel/Vauxhall sales. In addition to its athletic dynamic styling and great driving fun, it also offers customers top class quality. Germany's DEKRA Defect Report 2010 named the Opel Corsa the overall winner, with the lowest defect rate (2.4 percent) of all the vehicles tested. DEKRA (Deutscher Kraftfahrzeug-Überwachungs-Verein) is a full-service provider for safe and efficient mobility and Europe's leading technical expert organization.

More power with improved fuel economy

The powertrain line-up consists of a wide offer of gasoline engine from the 1-liter 3 cylinder (48 kW/65 hp ) entry level version to the turbo charged 1.6-liter on the Opel Corsa OPC (141 kW/192 hp). On the diesel side, different versions of the 1.3 and 1.7 CDTI motors offer outputs ranging from 55 kW/75 hp to 96 kW/130 hp all with fuel consumption under 5 liters per 100 kilometers. The Opel Corsa ecoFLEX 1.3 l CDTI offers exceptionally low CO2 emissions of just 98 g/km for the 3-door variant, 99 g/km for the 5-door.

Opel engineers have developed the engines to give greater torque, while at the same time reducing their appetite for fuel and lowering CO2 emissions. All gasoline engines, and the new 1.7 CDTI diesel, comply with Euro 5 emissions standards.

The most popular gasoline powertrains - 1.0, 1.2 and 1.4-liter with manual and automated Easytronic transmissions - offer combined cycle fuel consumption between just 5.0 and 5.5 l/100 km, and CO2 ratings from 117 to 129 g/km with manual transmission. With an average fuel consumption of just 5.0 l/100 km and 117 g/km CO2, the Opel Corsa 1.0 is the cleanest of all gasoline-powered entries in its segment. The 1.4 engine comes in two variants, with 64 kW/87 hp and 74 kW/100 hp and is available with full automatic transmission in its most powerful execution. The 1.2 and 1.4-liter Twinport engines are now fitted with double cam phasing to allow variable valve timing on both inlet and exhaust sides for more efficient breathing.

The 1.3 CDTI engine is also improved, giving the Opel Corsa ecoFLEX model exceptionally low CO2 emissions of just 98 g/km for the 3-door variant, 99 g/km for the 5-door. The Corsa ecoFLEX is Opel's lowest emitting car, yet it is packed with 27 percent more power and 10 percent greater fuel efficiency. A diesel particulate filter and the "shift up" indicator in the cluster are standard.
The top-of-the-line 1.7 CDTI diesel engine now offers more power and torque - increased to 96 kW/130 hp and 300 Nm - as well as a nine percent cut in CO2 emissions and fuel consumption, to 118 g/km and 4.5 l/100km.

Uprated chassis and steering

Opel chassis engineers have upgraded all major suspension components and the steering system. The result is improved ride comfort, more precise steering feel and greater directional stability - without compromising Opel Corsa's acclaimed agility.

Dampers, springs, anti-roll bars, the rear axle, the electric steering gear and its calibration software all have been optimized. All the changes apply to Essentia, Enjoy and Cosmo variants, while versions equipped with the Sport chassis, GSi and ecoFLEX models benefit from additional improvements to the rear axle and steering. The Opel Corsa OPC took over the changes applied to the steering gear.

Thứ Ba, 13 tháng 9, 2011

Land Rover DC100 Sport Concept, 2011

 
 
 
 
 
 
 
Land Rover DC100 Sport Concept, 2011

Design
The Land Rover DC100 and DC100 Sport concepts preview a potential future direction for Land Rover. There is no doubt these concepts demonstrate that this world-famous and well-loved brand is firmly focused on the future, and is one that recognises its heritage but does not allow it to impede innovation.

Every Land Rover design starts with great proportions, and these concepts are no exception. Short front and rear overhangs, four-square stance, Command driving position and superb ground clearance are fundamental design elements that give these vehicles their unique character and capability. The exterior surface language is all about simplicity and strength, with a strong shoulder running the full length of the vehicle and defining the corners.

The interiors have been developed to have a uniquely Land Rover feel. A sense of open space is created by the low centre console and the strong chamfers on the instrument panel elegantly integrating into the A-pillar structure. The design has an inherent flexibility; for example the central instruments can be removed from the vehicle and used outside for continued 'on foot' navigation or to capture remote explorations on film, through inbuilt cameras.

Technology
The concepts are based on the same advanced mixed-alloy underpinnings - with a 100-inch wheelbase - and represent the flexibility of design and use inherent in this very capable platform. An eight-speed transmission with integrated Intelligent Stop/Start and a transfer case provides a wide spread of high and low ratios for on and off-road driving.

Also showcased is the next generation of Land Rover's world-leading, all-terrain technology. Building on the acclaimed Terrain Response system, these will work seamlessly together to reduce the workload on the driver by identifying potential hazards and advising on safe routes to avoid them. An advanced telematics programme unites the systems and allows vehicle to smartphone communication.

Design
Land Rover has a design integrity that stretches back more than 60 years. Reinventing and reinvigorating that design ethos is a challenge that has been met - in very different ways - by the two concepts, each of which represents different points on the Land Rover spectrum.

Simplicity and Strength
The bodywork below the waist reflects the Land Rover practice of avoiding extraneous detailing by following the principle of design working in harmony with function, leading to a purposeful simplicity of surface. The sharply defined shoulder line and near vertical panels of the concepts place all four corners within sight of the driver, to create Land Rover's hallmark confidence-inspiring Command driving position.

Compact dimensions, short overhangs and 22-inch alloy wheels lend both all-terrain concepts a fittingly purposeful, four-square stance. Further detailing common to both concepts - such as the triangular vent in the front wings, the bonnet edges set into the shoulder line and the prominent handle set into the trailing edge of the doors - also reference existing Land Rovers.

Dependable Design
There is arguably no other car in the world that inspires such loyalty and affection as a Land Rover, from the original Series 1 to today's Defender. Crucial to that appeal is the front-end design and DC100 Sport and DC100 represent the latest evolution of the Defender 'face' that has retained its timeless appeal for 60 years.

The key elements were a sense of openness and honesty; as a vehicle used in the most extreme conditions, a Land Rover must exude dependability. This is seen to greatest effect in DC100 with its signature twin round headlamps and purposeful grille. DC100 Sport represents a more assertive, performance-oriented interpretation of this classic Land Rover look.

DC100
The radically different design treatments above the waist demonstrate the modularity and flexibility of the platform. The shape of DC100 is instantly recognisable to generations and, like the original Land Rover and the Defender that followed it, looks equally at home alongside an English village green as traversing an Icelandic lava field.

As a dependable all-terrain workhorse, DC100 firmly emphasises the practical side of Land Rover. The upright windscreen provides excellent visibility on and off-road while the interchangeable rear cover allows for either maximum cargo capacity or transporting additional passengers. A winch, capable of supporting the weight of the car, is neatly integrated into the front grille and towing eyes have been built into each corner of the concept.

As a further extension of its capabilities, the DC100 roof is equipped with solar panels to power on-board systems, reducing the load on the engine and lowering emissions. The DC100 exterior is painted in soft metallic silver specifically intended to reflect the sun's rays, keeping the interior cool in hot climates and reducing the demands on the climate-control system.

DC100 Sport
With DC100 Sport, Land Rover has created a unique concept that occupies its own territory. It takes its cue from the early canvas-roofed Defenders with their fold-down windscreens that still typify the Land Rover spirit of adventure and exploration.

Reimagined as a performance concept for the 21st century, it features a wrap-around aero screen and cut-down side windows for exhilarating open-air motoring. Flowing back from the seats is a twin-humped fastback roofline that encloses a generous load bed that includes fittings designed to secure extreme sports equipment.
The DC100 Sport is finished in an exhilarating metallic amber that echoes the vibrant ochre hues found in Africa; eye-catching whether exploring mountain tracks, breezing along a beach or cruising through town.

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.

This 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.

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.

Chủ Nhật, 11 tháng 9, 2011

Pontiac Vibe, 2009

 
 Pontiac Vibe, 2009

The all-new 2009 Pontiac Vibe is a modern re-mix of a classic hit, infusing the functionality of a compact crossover with a bolder attitude of muscular styling, increased performance and tight handling. It arrives in dealer showrooms in early 2008.
Adding a richer harmony to the tune, the popular all-wheel-drive and GT models return to the Vibe lineup. Regardless of the model, each Vibe offers a level of athletic design, boosted performance and everyday versatility uncommon in the price range.

Engine performance

Packing more off-the-line power than ever before, the '09 Vibe delivers the type of responsive performance needed to safely navigate those unexpected everyday driving situations. A 132-horsepower (98 kW) 1.8L DOHC four-cylinder is standard on base models and delivers 128 lb.-ft. (174 Nm) of torque. The engine benefits from dual variable valve timing, optimizing both performance and efficiency, and is matched to a standard five-speed manual transmission or optional four-speed automatic.

A 4-speed automatic transmission is standard on the AWD. Customers of the 2.4L-equipped base or GT models can choose between a standard five-speed manual transmission or a new, five-speed electronically controlled automatic transmission featuring Driver Shift Control (DSC), which delivers a great combination of performance, fuel economy and smoothness. With DSC, the driver can manually select gears via tap up/tap down controls.

Fuel economy

With the 1.8L engine and the standard manual transmission, EPA fuel economy is estimated at 26 mpg in the city and 32 mpg on the highway; with the automatic, fuel economy is estimated at 25 in the city and 31 on the highway.

The 2.4L engine on the GT is estimated at 21 mpg in the city and 28 on the highway with the manual transmission and 21 city/29 highway with the five-speed automatic. On the AWD model, the 2.4L/four-speed automatic combination delivers an estimated 20 mpg in the city and 26 on the highway.

Ride and handling

Driving dynamics of the new Vibe have been refined to deliver a responsive driving experience, with a special focus on reduced noise, vibration and harshness. An array of chassis control systems enhances ride and handling, as well as safety.

The Vibe has a body-integral structure with underbody rails running from front to rear, giving the structure exceptional strength and a strong foundation on which to anchor the suspension systems. All models employ a MacPherson-strut front suspension design. The base model has a torsion-beam rear suspension that is revised for a more comfortable ride, while the AWD and GT models use a multi-link independent rear suspension for even sharper responses and enhanced driving control.

4-wheel disc brakes with ABS are standard on all models, as is electronic stability control and traction control. Steering control is augmented with an electric power steering system, providing variable-effort performance and (because there is no engine-driven power steering pump) enhanced fuel economy.

Exterior design
The Vibe has the looks to back up its performance. With a lean, athletic form, the Vibe's new exterior exemplifies the future of Pontiac's design - clean, purposeful shapes and a decidedly sophisticated aesthetic. The new Vibe's appearance melds the space-enabling design of a small SUV with a forward-looking profile, furthering the groundbreaking design pioneered by the original Vibe, launched in 2002.

All of the sheet metal is new, with minimal gaps that reinforce the Vibe's tailored appearance. A faster windshield angle contributes to the sleeker look, while large wheels and minimal overhangs give the vehicle an aggressive, firmly planted stance.
Vibe's three models - base, AWD and GT - are distinguished from one another with unique styling cues. For example, the AWD features a standard roof rack perfect for outdoor activities. The GT has its own front fascia - with larger fog lamps and lower-fascia air intake - rocker moldings, roof spoiler and a bright exhaust tip. All models offer distinctive wheel options.

Interior design and features

Like the exterior, the '09 Vibe's interior is all-new and has a driver-focused cockpit design more common to sports cars. The controls and gauges were redesigned for easier use, but retain a performance-oriented look and feel; and the interior quality and craftsmanship are reflected in class-leading gap/flush tolerances.

Interior material refinement is also stepped up a notch in the new Vibe, with a combination of low-gloss materials, varied grains on the instrument panel and other trim components, and satin-metal accents. New, knit-fabric seating surfaces are durable and have a premium look, while GT models are enhanced with standard leather-trimmed seats, three-spoke steering wheel and shift knob. Seating for five is standard on all models.

The Vibe's interior also is loaded with standard amenities not typically found in other vehicles in the segment, including a steering column with telescoping/rake adjustability; a 115-volt, three-prong auxiliary power outlet, six-way adjustable driver's seat and front active headrests.

Pontiac Solstice Coupe, 2009

 
 
 Pontiac Solstice Coupe, 2009

The making of a coupe

It is a modern sports car with classic lines. The roofline has a "fastback" shape with stylized "rails" that run from the front of the roof to the rear, culminating in a stylish and functional ducktail-style rear spoiler.
The coupe's roof is fixed aft of the B-pillars, with side windows and a rear liftglass for access to the cargo area. The roof panel is easily removed from the passenger compartment, and an optional soft roof cover stores in the cargo area.

The Engineering the design
Despite its dramatic new look, engineers made only minor structural changes to create the Pontiac Solstice coupe. The rear fenders and rear fascia are the same as those on the convertible. New taillight assemblies flow more smoothly into the tapered roofline.
The sleek lines of the new roof give the car a fresh appearance, only minimal changes were made to the body structure - it's a great example of building on an already solid foundation.

The Lightweight structure
The roof's structure was strengthened with additional support elements, including an aluminum roof bow attached with aluminum brackets. The bow and brackets are stiff, low in mass, a design feature that pervades the coupe's overall construction. The roof includes a lightweight sheet molding compound cover affixed to a rigid aluminum frame for additional lightweight support. A lightweight magnesium roof panel frame weighs just 31 pounds (14.2 kg) and can be removed by one person. The cover is also made of sheet molding compound.

The Interior additions

The coupe's interior remains the same as that of the convertible. However, the area behind the seats was redesigned for easy access to the cargo area, and a storage tray was mounted directly behind the headrests.

Removing the folding-top mechanism made way for a new, flat cargo floor and several storage compartments. The cargo area's covered bins provide secure storage for smaller items. Cargo tie-down hooks help secure irregularly shaped items.

Thứ Bảy, 10 tháng 9, 2011

Toyota Land Cruiser, 2010

 
 
 
 

Toyota Land Cruiser, 2010

The Toyota Land Cruiser enjoys a special status in the global market as a vehicle that has proved its tough, lasting and reliable qualities in the most extreme environments. This pedigree has provided the platform for the development of an all-new Toyota Land Cruiser that goes further than ever before to deliver a balance of go-anywhere performance with the poise, comfort and refinement motorists want in normal day-to-day driving.

Makoto Arimoto, new Toyota Land Cruiser's Chief Engineer explains: "Generally speaking, it's considered difficult to achieve both good off-road and on-road performance in the same vehicle. But with the new Land Cruiser, rather than making a half-hearted attempt at offering 50:50 ratio between on and off-road capabilities, we put no less than 100 per cent into developing both. We believe we have succeeded in refining and improving both of these seemingly conflicting qualities."

The success of new Toyota Land Cruiser is built on three core product values:
    * Quality, durability and reliability, building on Land Cruiser's long and distinguished history and reputation for lasting performance.
    * Unrivalled balance of on and off-road driving performance, supported by advanced suspension and driver aid technologies.
    * Refined and versatile interior, offering a functional but luxurious and comfortable on-board environment.

New Toyota Land Cruiser benefits from a higher level of advanced but user friendly handling and guidance features that help the driver tackle the most challenging routes. At the same time new suspension technology and on-board monitors make Land Cruiser more comfortable and easier to manoeuvre through everyday urban traffic, too. Clever interior packaging provides highly flexible seating and luggage space arrangements, with generous space for up to seven on board. Most models enjoy a high specification of luxury features, including a surround sound premium audio system, triple-zone automatic air conditioning and a DVD/gaming entertainment package for rear seat passengers, creating a welcoming environment inside the vehicle whatever the driving conditions outside might be like.

DESIGN
The design of the new Toyota Land Cruiser is true to its heritage and projects the qualities of a vehicle that is robust, powerful and entirely at home in any environment.

At the front there is a new over-size bumper design with integral fog lamps, which emphasises Land Cruiser's powerful stance. The impact of the front overhang on the off-road driving approach angle has been minimised by sharply trimming the lower section. The new front grille has vertical bars, highlighted in chrome and silver finishes on higher grade versions, framed by headlamp clusters with cylindrical high and low beam lamps and turn indicators that extend into the wings so they are visible from the side.

In profile, new Toyota Land Cruiser's displays fluid and dynamic lines, with the cowl moved 65mm forwards, the belt line raised by 20mm and integral front and rear wheelarches flared towards the rear of the vehicle, like those on the larger Toyota Land Cruiser V8.

At the rear high-visibility LED lamp clusters flank the side-hinged tailgate, which is inset deep into the rear bumper to provide a practical, level access step, protected by a hard-wearing cover. The tailgate includes a top-hinged glass hatch, giving easy access to the load space, particularly in tight parking spots where opening of the full tailgate might be impeded. The hatch can be unlocked and opened one-handed, using the smart key or a button release next to the bottom left hand corner of the glass. An integral roof spoiler houses the rear screen wiper and high-mounted LED stop light.

The door mirror-mounted turn indicators and the rear lamps use LEDs in place of conventional bulbs. These light up more quickly, giving other drivers more time to react to vehicle braking, and they use less electricity.

Aerodynamics

Seamless bodywork with minimal panel gaps and a series of aerodynamic enhancements have reduced the vehicle's coefficient of drag (Cd) from 0.37 (current model) to 0.35, which in return supports a marked improvement in high-speed cruising fuel economy.

Aerodynamic efficiency has been improved by reducing the overall height by 15mm, and by introducing front and rear spoilers to channel airflow under the body and direct it cleanly away from the trailing edge of the roof. Deflectors inside the engine compartment correct the flow of air through the radiator grille to reduce turbulence, and the design of the front bumper includes extended corners to push air away from the sides of the front tyres, making for a smoother rearward airflow. Front and rear spats are fitted to manage airflow around the tyres and cut turbulence.

Packaging

To preserve Land Cruiser's agile character, there are only modest increases in external dimensions: the new model is 45mm longer and 10mm wider than its predecessor, with a minimum turning radius of 5.8m.

The wheelbase (2,790mm) and rear overhang (1,075mm) remain the same and clever design of the new front bumper ensures that, although the front overhang is longer by 45mm (at 895mm), the 32° approach angle is unchanged. The departure angle is 25° (24° with electrically modulated rear air suspension) and the ramp breakover angle is 22°.

SAFETY

New Toyota Land Cruiser is equipped with a comprehensive and technically advanced range of active and passive on and off-road safety features. Advanced engineering and sophisticated electronic systems provide a high level of protection while at the same time making driving more rewarding, helping the driver explore and enjoy the limits of the vehicle's performance.

Body structure

Collisions between tall vehicles, such as SUVs, and passenger cars can result in the larger vehicle riding up over the smaller one. To counter this risk, Toyota works to ensure the safety systems of both vehicles involved in a collision can be used to their maximum potential.

To this end, the front crumple zone in the new Land Cruiser's frame is set at a height equivalent to that of an average passenger car. The frame and body are designed to effectively channel and absorb impact energies to help protect all parties involved, even those on the receiving of a collision in a smaller vehicle.

Numerous measures have been taken to control body deformation in a frontal collision, while preserving the structural integrity of the cabin. Reinforcements in the A-pillars have a multi-layer construction between the roof rail reinforcement and cowl to give increased buckling strength and improved energy sustainability when buckled, which helps limit body deformation. In addition, the lower front pillar reinforcements also have a multi-layer construction and high-strength outer rocker panel reinforcements have been introduced.

Using high-tensile sheet steel for the front pillar and roof rail reinforcement improves side collision performance. The roof header reinforcement has a closed top and bottom cross-section, giving added strength and floor cross-members are strategically placed to effectively distribute impact forces - measures which both further help to reduce the risk cabin deformation.

Pedestrian protection

New Toyota Land Cruiser's bonnet, cowl and front wings are all designed to absorb as much energy as possible in the event of a collision with a pedestrian.

The bonnet has a deep, energy-absorbing profile with longitudinal reinforcement ribs. Crush points and holes behind the bonnet striker reinforcement ensure there is an ample impact absorption zone.

The front wing mounting brackets have crush points for effective energy absorption, and the wings themselves incorporate energy-absorbing protectors, with a construction designed to slip down in a head impact, so reducing the reaction force sustained by the pedestrian.

Airbags and active headrests
New Land Cruiser is equipped as standard with seven SRS airbags: driver's dual-stage front airbag, a new driver's knee airbag, passenger front airbag, front side airbags and full-length curtain airbags, giving head protection to outer seat occupants in all three rows.

The front seats are fitted with seatbelts with pretensioners and new-design active headrests that help prevent whiplash injury. Extra protection is provided through a new seatback design, allied to a headrest shaped to sit as close as possible to the occupant's head in normal use. In a rear impact, the force of the body on the seatback causes the headrest to move up and forward to close the gap between the head and headrest, thus significantly reducing the risk of whiplash.

High Intensity Discharge headlamps and Adaptive Front-lighting
LC4 and LC5 versions of new Toyota Land Cruiser are fitted with High Intensity Discharge (HID) bulbs in the low beam headlamp projectors, which emit a near-daylight colour and give wider and longer illumination. The bulbs are also low-energy and have a long lifespan.

An Adaptive Front-lighting System (AFS) works in conjunction with the HID headlamps, swivelling the low beam in line with vehicle speed and steering angle to provide better lighting through bends and when turning at junctions. AFS also has a dynamic levelling function which maintains a constant beam height, whatever the load on board, or change in vehicle posture.

Braking and stability control systems
New Toyota Land Cruiser's servo-assisted braking system uses new 388mm ventilated front discs with width increased to 32mm. Four-piston callipers with larger pistons are used for improved stopping power and fade-free performance. At the rear there are 312mm ventilated discs with floating callipers.

The vehicle comes as standard with a full range of braking, traction control and stability systems: ABS with EBD and Brake Assist; Traction Control (TRC) and Vehicle Stability Control (VSC).

During emergency braking, the stop lamps automatically flash to alert following drivers.
Further brake control systems are provided specifically to enhance off-road performance and ease of use in taxing conditions, including Multi-terrain ABS, Active Traction Control (A-TRC), Hill-start Assist Control (HAC) and Downhill Assist Control (DAC). Details of their operation can be found in the Off-Road Performance section.

ON-ROAD PERFORMANCE
Much of Land Cruiser's legendary off-road toughness can be attributed to its robust and durable body-on-frame construction. This concept has been carried over from the previous generation model, but with rigidity increased by 11 per cent.

Another advantage over the monocoque design used by many rival SUVs is the ability of the ladder frame to absorb vibrations and noise from the engine, drivetrain and road surface, so limiting NVH disturbance in the cabin. To further absorb NVH and aid a comfortable ride, the frame-to-body mounts are packed with insulating rubber.

Suspension
New Toyota Land Cruiser uses an extensively revised version of the front independent double wishbone and rear four-link rigid suspension system that was used in its predecessor model, retuned for greater ride comfort and better steering feel.

At the front a long wheel stroke has been retained and the shock absorbers and springs have been optimised. The shocks themselves are larger than before. The lower arm and knuckle have been reinforced and all the bushings have been retuned. To achieve better handling stability, the roll steer ratio has been modified from five to eight degrees.
At the rear the long wheel stroke has been enhanced with optimised springs and shock absorbers, with, again, larger shocks adopted. Bushings have been retuned and the axle housing has been reinforced for added strength and durability.

Kinetic Dynamic Suspension System

The new, electrically modulated Kinetic Dynamic Suspension System (KDSS), fitted to LC4 and LC5 models, optimises the effect of the front and rear anti-roll bars for better on and off-road performance (see Off-road Performance section below for further details).

On-road the system works to minimise body roll, improve steering response and absorb the effects of driving over poor road surfaces.

Individual hydraulic cylinders are fitted to the anti-roll bars, each with an upper and lower chamber. The front and rear upper chambers and front and rear lower chambers are connected to each other by separate hydraulic lines, each containing an accumulator.

As the vehicle begins to roll in a turn, equal wheel forces occur on the outer wheels. As a result, the fluid in the hydraulic lines remains still, holding the front and rear cylinder pistons in place, so the anti-roll bars suppress the suspension stroke and body roll is reduced.

On rough surfaces, however, a slightly uneven force is experienced between the front and rear wheels. In this case, the electrically controlled accumulator valves rapidly open and close to absorb the movement of fluid in the hydraulic lines. This dampens vibrations by absorbing bumps in the road surface, making for a more comfortable ride.

Adaptive Variable Suspension
An Adaptive Variable Suspension (AVS) system is fitted to LC5 models, allowing the driver to fine-tune the Land Cruiser's ride characteristics. Three settings are available, controlled by a switch on the centre console: Normal mode for everyday driving; Comfort mode for extra comfort when cruising; and Sport mode for better body control and precise steering response when cornering.

AVS automatically adjusts suspension performance at all four wheels independently, monitoring data from numerous sensors to continuously optimise the damping force of each shock absorber by activating the appropriate actuator.

Working in response to driver inputs, vehicle body motion and road surface quality, AVS activates adjustable damping to fulfil a range of specific control functions:
    * Vehicle speed-sensitive control gradually increases the damping force as speed rises, to achieve low-speed comfort with high-speed driveability and stability.
    * Anti-dive control increases the front-end damping force under braking to reduce front-end dive.
    * Anti-squat control increases the rear-end damping force to minimise squat during acceleration.

Selecting Sport mode automatically increases the different between inner and outer shock absorber damping through corners to further reduce vehicle roll.

The AVS system also incorporates Roll Posture Control, to give a vehicle posture that matches the driver's intuitive feeling. By controlling the damping force the phase difference between roll angle and pitch angle when cornering is minimised.

Electronically Modulated Rear Air Suspension
An electronically modulated rear air suspension system (fitted to Toyota Land Cruiser LC5 models) works in conjunction with the AVS to maintain optimum control of the rear suspension and give uncompromised stability and ride quality, regardless of how many people are on board, or how much cargo is being carried. It also excels in absorbing high frequency vibrations to reduced road-generated NVH.

The system has five control modes:
    * Auto Levelling, which maintains a constant rear body height, regardless of number of occupants or size of load.
    * Switchable Height Control, which lets the driver select a Normal, High or Low vehicle height setting.
    * Speed-Sensitive Control, which ensures the best stability and ride comfort by automatically returning the vehicle from High or Low vehicle height to the Normal setting once a certain speed has been reached.
    * Ignition-off Linked Control, which, activated for a certain length of time after the ignition is switched off, prevents the rear height from rising after passengers get out of the vehicle.
    * Height Control OFF switch, which disables height control when lifting or towing the vehicle.

Variable Flow Control Power Steering
New Toyota Land Cruiser uses the same hard-wearing hydraulic power steering system as its predecessor, but with the benefit of revision and the addition of Variable Flow Control (VFC). VFC combines direct response and feel when cruising with effortless operation at parking speeds, plus a dedicated setting for off-road driving.

The steering gear ratio has been modified for a more agile response to steering inputs, and the steering rack support bushings have been returned to reduce steering shake and vibration under braking, giving a more comfortable ride.

VFC is an evolution of traditional speed-sensitive power steering that takes into account factors such as vehicle speed, steering angle and steering rate to deliver an idea steering fluid flow in all driving conditions. Controlling the flow in this way adjusts how heavy or light the steering feels to the driver.

When the Land Cruiser is travelling in a straight line, VFC is in stand-by mode, reducing the power draw on the engine and thus improving fuel economy. When cornering or manoeuvring, VFC gives instant response to steering inputs with the correct fluid flow rate. At low speeds the flow rate is increased to reduce steering effort, making the wheel easier to turn. As vehicle speed rises, the flow rate progressively decreases to give a more direct and responsive steering feel.

Because it is hard to judge terrain conditions if the steering feel is constantly changing, VFC incorporates a dedicated off-road setting that is automatically activated when the driver selects L4 mode. This setting recalibrates the system to give a constant fluid flow rate regardless of vehicle speed, steering angle or steering rate. This constant level of steering assistance helps the driver gain a better idea of how much grip the tyres have through the steering wheel.

Quietness
In addition to the significant NVH benefits from its body-on-frame construction, new Toyota Land Cruiser also features a number of measures designed to cut wind and road noise, resulting in a very quiet cabin environment.

Air cavities have been introduced into the bonnet silencer, reducing engine noise. Sound insulation materials are placed in the A, B, C and D-pillars and the door sill and head sections to minimise the transmission of noise through the bodyshell. Sound dampening and insulating materials are used throughout the cabin, in the carpeting, door trims, roof headliners, luggage compartment side trim and dashboard silencer.

Measures to reduce wind noise include an acoustic windscreen which has an inner layer of film sandwiched between the glass. The step between the windscreen and the roof and side rain gutters has been kept to a minimum, and a front spoiler and undercover are fitted to smooth the airflow under the front of the car.

OFF-ROAD PERFORMANCE
An SUV designed to tackle truly tough off-road terrain has to have a generous ground clearance. But this is not just about the distance between the lowest point of the vehicle body and the ground: there are three other measurements that dictate the quality of off-road ability: the approach angle, ramp breakover angle and departure angle.

The new Toyota Land Cruiser has a minimum ground clearance of 215mm. The approach angle, which determines the maximum gradient the vehicle can approach with the underside of the front bumper hitting the ground, is 32°. The ramp breakover angle (measured from the centre of the underbody to the contact points of the front and rear tyres), which determines the gradient the vehicle can crest without the ground contacting the underbody, is 22°. And the departure angle, which governs the maximum gradient the vehicle can negotiate without the underside of the rear bumper hitting the ground, is 25°, or 24° on models equipped with air suspension.

New Land Cruiser can also be driven at a maximum bank angle of 42° and at a maximum forward or reverse pitch angle of 42°. Its maximum wading depth is 700mm.

Suspension
As detailed in the on-road performance section, new Land Cruiser has a revised independent front suspension design and a four-link rear system with a lateral rod, giving strength, reliability and durability with the degree of long wheel stroke that is required for outstanding off-road performance.

The left and right sides of the rear suspension are connected by a rigid axle, giving better ground clearance and body stability that could be achieved with an independent design.

Working in conjunction with the new Kinetic Dynamic Suspension System (see below), Toyota Land Cruiser's wheel articulation ensures all the tyres can gain the best possible ground contact, even over the most severe terrain.

Kinetic Dynamic Suspension System
Full details of the Kinetic Dynamic Suspension System (KDSS) operation can be found in the On-road Performance section. In off-road driving, KDSS, fitted to LC4 and LC5 models, optimises the effect of the front and rear anti-roll bars to increase wheel articulation (the vertical distance an individual wheel can move while the others remain in contact with the ground).

Driving over rough ground generates unequal front and rear wheel forces, which causes the piston in each hydraulic cylinder to create an opposite stroke. This counteracts the resistance of the anti-roll bar and allows the suspension to move freely. With both front and rear anti-roll bars virtually disconnected, the available wheel stroke is maximised, ensuring all four tyres can remain in contact with the ground wherever possible.

Adaptive Variable Suspension and Electronically Modulated Rear Air Suspension
Both the Adaptive Variable Suspension (AVS) and electronically modulated rear air suspension systems on the Land Cruiser LC5 have bespoke off-road settings to maximise the vehicle's all-terrain abilities.

The AVS has a new Damper Optimisation Control feature that automatically adjusts shock absorber damping force to suit vehicle speed when L4 mode is selected. At slow speeds the dampers are optimised for crawling over the roughest terrain, while at moderate speeds they adjust to suit normal driving conditions. This degree of control allows for uncompromised off-road performance while keeping the bumps and jolts caused by rough, off-road surfaces to a minimum.

In addition, when driving off-road, the valve on the hydraulic pipe connection between the left and right hand rear air suspension units remains open to ensure maximum wheel stroke and articulation.

OFF-ROAD TECHNOLOGY
The new Toyota Land Cruiser is engineered to excel over sand, rocks or any other demanding conditions it might encounter; giving maximum traction at all times to deliver the level of off-road performance for which the model is renowned.

The grip, slip and torque requirements generated by different terrain will make different demands on the permanent four-wheel drive system. For instance, soft terrain, such as sand, requires as much power as possible to be transferred to the ground, allowing a large amount of slip to let the tyres dig in and achieve maximum grip. By contrast, the slow traverse of rocks or slippery surfaces requires precise regulation of power to the wheels to control wheelspin and ensure a constant, steady level of grip.

Full-time four-wheel drive with Torsen limited slip differential
The new Toyota Land Cruiser's proven permanent four-wheel drive system uses a Torsen limited slip differential (LSD) in the centre differential. The LSD uses low viscosity oil to reduce friction and support vehicle fuel efficiency.

The unit has a motorised transfer shift actuator for easier High-Low gear ratio shifting and the shift effort itself has been reduced by 30 per cent, giving better performance in cold weather.

In normal conditions, torque is split 40:60 front to rear, but the LSD can automatically vary the ratio from 50:50 to approximately 30:70 in order to achieve the optimum distribution in any given driving scenario.

The four-wheel drive system also has a new rear differential, designed for greater reliability and strength with a 34 per cent increase in torque capacity. An additional rear diff lock is fitted to LC5 models, increasing stability especially in extreme off-road conditions.

Instead of a conventional transfer shift lever, the new Land Cruiser has an easy-to-use dial switch, located along with the centre and rear differential locking switches on the centre console. Using these switches in combination lets the driver choose H4F, H4L, L4F and L4L modes - that is High or Low gear ratio with the centre differential Free or Locked.

Active Traction Control
The Active Traction Control (A-TRC) system uses brake and engine control and the distribution of appropriate torque between all four wheels to maintain traction when pulling away or driving on low-grip surfaces.

The system receives constant speed signals from each wheel, so it can detect which might be spinning and which have traction. By braking the spinning wheels, controlling engine output and distributing torque to those with grip, it automatically provides maximum traction on rough terrain. It also helps avoid wheelspin when pulling away or accelerating, even on slick roads and muddy tracks.

Multi-terrain Select

A standard feature on the Toyota Land Cruiser LC5, Multi-terrain Select (MTS) is an evolution of the A-TRC system and a Toyota first.
MTS automatically modifies vehicle acceleration, braking and traction control to suit the off-road conditions, providing the driver with optimum traction and vehicle control.

The system is activated using the multi-information switch on the steering wheel and accessed via the multi-information display. It offers four terrain modes: Mud and Sand, Loose Rock, Mogul and Rock. The mode selected is shown in the display, with an additional prompt to the driver of the required H4 or L4 four-wheel drive transfer range. The Multi-terrain Monitor (full details in the Driver Information section) automatically displays the view ahead of the vehicle.

Mud and Sand mode gives high wheel slip level in L4 or H4 to allow the wheels to dig into the surface and secure traction. The MTS traction control minimises selective wheel breaking to permit a necessary degree of wheelspin. These functions work in combination to prevent the vehicle from getting bogged down on soft ground.

Loose Rock mode works in the L4 range to allow a degree of wheel slip to maintain tyre momentum and to affect a greater degree of selective braking to control wheelspin. This is mode is particularly useful for maintaining vehicle momentum when climbing gradients.

Mogul mode, which operates in L4 range, makes grip the priority by only allowing a moderate amount of wheel slip, to maintain a slow, steady vehicle speed. At the same time, MTS traction control applies moderate selective braking to maintain grip. This mode is recommended for any conditions that do not specifically match the other MTS modes. It will retain momentum over even the most severe, irregular, undulating terrain.

Rock mode, also used with the L4 transfer range, minimises wheel slip to give maximum grip, while simultaneously applying strong selective braking. With the slip ratio of each wheel controlled independently, maximum grip and traction are obtained, even when traversing large obstacles.

Drivers should choose an MTS mode on the basis of the amount of wheelspin encountered. For example, when excessive wheelspin prevents the vehicle from gaining enough traction, a more aggressive mode, closer to the Rock setting, should be selected. Conversely, when there is too little wheelspin to achieve the necessary traction, a less aggressive setting, closer to Mud and Sand is recommended.

Crawl Control
Crawl Control, another standard feature of the Land Cruiser LC5, can help the driver ascend or descend slopes at walking pace, or free the vehicle when stuck, without having to touch the pedals.

The system works in L4 range and is activated by a dashboard switch. It gives a range of five speed settings, automatically controlling engine and brakes to maintain the desired speed. With no need for careful use of the throttle or brake pedals, the driver can concentrate fully on steering the vehicle.

Crawl Control has a number of other benefits. Its smooth control allows a slow and steady pace to be maintained, avoiding the risk of wheels spinning or locking. This reduces the amount of body movement on severe terrain, helping prevent the vehicle from bottoming out and causing damage. It also permits wading at a similarly slow and even speed, reducing the risk of the engine flooding, or submerged objects causing damage. Crawl Control operates in reverse gear, too, helping the driver when backing up over difficult surfaces.

Multi-terrain ABS
The multi-terrain ABS system fitted to the new Toyota Land Cruiser has been calibrated to give remarkable stopping power across a wide range of off-road surfaces. While the system prevents the wheels from locking under braking on tarmac roads in the same way as a conventional ABS, it deliberately allows for a certain degree of wheel-locking on loose surfaces, helping the tyres find purchase by digging in, so increasing stopping power.

Hill-start Assist Control and Downhill Assist Control
Hill-start Control and Downhill Assist Control are fitted to both new LC3 and LC4 grades (LC5 is fitted with Crawl Control).
Hill-start Control detects any backward slip of the vehicle during an uphill start and temporarily applies the brakes to all four wheels for a maximum five seconds, allowing the driver to pull away without losing control.

DRIVER INFORMATION
The Multi-terrain Monitor, fitted to LC5 versions of new Toyota Land Cruiser, works in conjunction with MTS to give the driver a better view of areas immediately around the vehicle that might be hard to see or obscured from the steering wheel. The system uses an array of four external cameras that feed live images to the multi-information screen on the dashboard, when moving forwards or in reverse.

The front camera uses a wide angle lens to give the widest possible forward view. Areas out of sight of the driver, such as immediately in front of the bonnet and to within 50cm of the bumper can be seen using the system.

As well as front and rear-facing cameras, there are cameras mounted on the door mirrors, which can project views from either the front or rear sides. The versatile display mode can show front and side views independently, or in a combined form. The driver can change the mode using the multi-information switch on the steering wheel and the display will indicate which cameras have been selected. When the shift lever is moved to the "R" position, the display automatically switches to the rear view.

The monitor also displays comprehensive information relating to the front view, including the camera range and location of any obstacles detected by the clearance sonar. Steering-linked guidelines are shown, mapping the predicted path of the front tyres to help the driver avoid any hazards ahead. The inner and outer edges of the front tyre paths are show in red (within 0.5m) and yellow (within 1.0m) to indicate the distance from the front of the vehicle.

The side cameras let the driver view an image of the area around the left and right, front or rear tyres simultaneously, regardless of the vehicle's direction of travel.

Additional side camera information provided on the monitor includes the view range, location of obstacles detected by the clearance sonar and the position of the contact areas of the front and rear tyres. Parallel lines indicating the vehicle width are displayed 350mm from the side of the vehicle, and front and rear lines 100mm from the front and rear ends, helping the driver judge distances and accurately position the vehicle, even in the tightest surroundings.

Tyre Angle Display
New Land Cruiser LC5 models are also equipped with a Tyre Angle Display, which compliments the Multi-terrain Monitor's predicted tyre path function. The system can be selected using the multi-information switch when MTS is operating. Guidelines linked to the vehicle's steering angle are projected in real time on to the display. Moving through seven steps, to keep the driver constantly informed about changes in tyre angle between zero and 45 degrees. The Tyre Angle Display is also handy when parking, giving driver's an instant reminder of steering angle and tyre direction.

ENGINE AND TRANSMISSION
For the UK market the new Toyota Land Cruiser is offered with a single powertrain: a 3.0-litre D-4D diesel engine matched to a five-speed sequential automatic transmission.

3.0 D-4D engine
The 2,982cc, 16-valve DOHC common rail unit develops 171bhp at 3,400rpm and 410Nm of torque from 1,600 to 2,800rpm. This enables nought to 62mph acceleration in 11.7 seconds and a top speed of 109mph.

The engine is highly durable and meets Euro 4 emissions standards. Compared to the previous Land Cruiser, CO2 emissions have been reduced from 224 to 214g/km. Fuel consumption is significantly better, too, with the official combined cycle figure improving from 31.4 to 34.9mpg. The use of new high-pressure, fast response fuel injectors has played a key role in achieving cleaner, more fuel-efficient performance.
Under light engine loads, a valve-operated Exhaust Gar Recirculation (EGR) cooler bypass is activated to prevent the temperature inside the combustion chamber from falling to an abnormally low level, enabling optimum EGR operation and maintaining the best possible emissions performance.

Five-speed sequential automatic transmission
The five-speed sequential automatic transmission has a number of features that promote smooth shifts, low noise, strong performance and good fuel efficiency, whether driving on or off-road.

Manual override
The transmission has a sequential manual override function that lets the driver assume greater control and enjoy more involvement through manual shift selection. The system is activated by selecting "S" in the shift gate. The driver can then limit the gear range by selecting the upper limit to which the transmission will operate. The gear selected is shown on the central instrument display.

Flex Lock-up Control
Flex Lock-Up Control increases the operating range of the lock-up clutch by precisely controlling slippage, improving fuel economy. Under acceleration, the distribution of power transmitted between the lock-up clutch (mechanical drive force) and the torque converter (fluid drive force) is adjusted according to driving conditions, dramatically increasing efficiency. Under deceleration, the lock-up clutch operates until the lowest possible vehicle speed is reached, increasing the fuel cut-off range for better fuel economy.

AI-SHIFT Control
The Artificial Intelligence (AI)-SHIFT Control automatically changes the gear shift map according to road conditions and individual driving styles. Road Condition Support Control, an integral part of this system, promotes a more comfortable and responsive drive by avoiding unnecessary up-shifts when driving uphill, and automatically downshifting to automatically gain the benefit of engine braking when travelling downhill.

Eco Driving Indicator
The Eco Driving Indicator helps drivers adopt a more fuel-efficient driving style, with a light on the instrument panel that illuminates when accelerator operation is within its most efficient range. When acceleration moves beyond this zone, the Eco light goes out and the display begins to flash.

INTERIOR FEATURES
While it remains a tough, go-anywhere off-roader, new Toyota Land Cruiser is a first-class on-road vehicle with a high level of refinement, interior quality, comfort and convenience, and practical application of advanced technology.

Design
The new dashboard has a strong horizontal form, interrupted by the prominent vertical console, which contains the audio and air conditioning controls and the TFT multi-information screen.
This configuration ensures drivers keep a clear view of all the key controls and meters when driving over steeply banked terrain. The large air-con and audio control knobs have also been designed to be easy to use in demanding conditions, such as poor light, or when wearing thick gloves

Similarly, the driver's instrument binnacle is designed for maximum clarity at all times. It features large, white-illuminated Optitron speedometer and tachometer dials with turquoise accent rings and a 3D effect for the scale markings.

The dials are separated by a large multi-information display, described in detail in the Convenience section below.

Toyota has made it easier for drivers to find their ideal position at the wheel, adding both reach and rake adjustment to the steering wheel. The driver's seat has six-way manual adjustment on LC3 models and electric eight-way adjustment with power lumbar control and heating on LC4 and LC5 versions; passenger seat adjustment is four-way manual or power, according to grade. The LC5 also provides a seat memory function.

Second row seats

The new second row seating configuration gives more flexibility for arranging the interior to cope with different accommodation and load carrying requirements. The seat bases slide independently through a 135mm range, to gain extra legroom or load space as required. In LC3 models, which do not provide third row seats as standard, the second row seats can be double-folded to free up even more luggage room.

On the passenger side the second row seat has a new walk-in function that is easier to use than the conventional seat-tumble system. A lever positioned on the side of the seat can be operated one-handed to simultaneously fold the seatback forwards and slide the seat base to its maximum forward position, to give generous access to the third row.

Third row seats

Instead of the "occasional use" seats found in some SUVs, the Toyota Land Cruiser provides two proper seats with integral headrests, which can be folded completely flat into the loadspace floor.

The seating position has been made more comfortable by increasing the distance between the hip point and the foot; thanks to the sliding second row seat function, legroom is up to more than double that of the current Land Cruiser, ranging from 489 to 618mm. Passengers up to 180cm tall can be comfortably accommodated on LC4 and LC5 versions.

The left and right-hand seats, complete with headrests, can be lowered or raised independently in a smooth and easy action. A power option is available on LC4 and LC5 models, using controls mounted inside the tailgate and behind the nearside second row seat. This feature also allows the third row seats to be reclined at the touch of a button.

Storage

Improved packaging of the rear seats helps give new Toyota Land Cruiser extra load capacity, compared to the current model in which the third row seats are stowed vertically on each side of the vehicle. With all second row seats in place, there is room for four suitcases to be carried in the rear loadspace; when the third row seats are raised, there is still space for one large and one medium size suitcase. Minimum loadspace width has increased from 810 to 1,110mm, while the length from the tailgate to the back of the second row seats is now a maximum 1,075mm, compared to 1,020mm in the predecessor model.

The loadspace is fitted with a luggage net, tie-down hooks, utility rails (LC4 and LC5), a storage tray and a 3.8-litre storage box. A toolbox is stowed in a purpose-designed compartment in the tailgate.

Storage points are provided all around the cabin. Front seat storage includes a capacious glovebox, overhead sunglasses holder (with built-in conversation mirror), cupholders in three different sizes, larger front door pockets with built-in bottle holders and a small storage compartment equipped with a USB point for connecting and charging digital music players. There is also a large storage box under the centre console armrest, big enough to hold four half-litre bottles (with a coolbox function on LC4 and LC5 models) and fitted with an upper level tray.