Gumpert Apollo, 2008

 

The Gumpert Apollo is the perfect synthesis between road vehicle and racing car. It exceeds all expectations with its passion and maximum driving fun. 650 HP, up to 360 km/h top-speed and an acceleration of 0 to 100 km/h in just 3.0 seconds make it a full-blooded super sports car to which there is no alternative. The complete package is available at a cost-performance ratio unequalled in this exclusive vehicle class.

The production process is the one part of the manufacture philosophy in which exclusivity and precision are paramount to speed. Gumpert Sportwagenmanufaktur associates the term ‚manufacture' with it's the commitment to achieve quality and luxury by means of craftsmanship and hand-made production.

Roland Gumpert, founder, managing director and the driving force behind Sportwagenmanufaktur, has created a manufacturing environment that combines engineering excellence with a broad automotive and racing competence. Experts within the motorsports scene are all familiar with the name Gumpert: In the mid 1970s, the long-standing Audi manager was the driving force behind the development of the four-wheel drive "Iltis", the original predecessor of today's "Quattro". In 1979 he not only succeeded in preparing the gnarled four-wheel drive "Iltis" for the Paris-Dakar rally, but also achieved victory. In the years that followed under his management, Audi Sport won a total of 25 World Rally Championship races and was the 4-time winner of the World Rally Championship. Gumpert's professional success is distinguished by his ability to combine innovative ideas with proven technology effectively and successfully.
Gumpert Apollo

A team of automotive and motor sports specialists joined forces to pool their enthusiasm and energy into developing and creating the Gumpert Apollo. Their abilities create the space for the finest workmanship and utmost individuality, with the use of high-tech processes and integration of proven standard components securing the technical basis.

With the Gumpert Apollo we are providing a select clientele of ambitious sports drivers and car enthusiasts with the opportunity of experiencing the unique synergy between hand-made high-end components optimised for performance on the road and the track, and of distinguishing themselves from the remainder of the world of sports cars. Up to 100 vehicles will leave the factory each year - just enough to ensure that these exceptional vehicles retain their exclusive status.

Gumpert Sportwagenmanufaktur is an independent, privately financed company. The financial stability of the company is being secured by well-known investors. Their operative commitment will also promote the international sales and distribution of Gumpert Apollo.

The challenge was to develop an exceptional design that combined the extreme aerodynamic requirements of a performance-oriented, purist super sports car with the aesthetic design of an exclusive vehicle. We wanted to achieve the perfect synthesis of design and function. Without compromising. And we have succeeded with Gumpert Apollo: Its silhouette, optimised in numerous wind tunnel tests, reflects its by far superior capabilities.

In its profile, the Gumpert Apollo dynamic appearance is further enhanced by its dimensions (4.46 m length, almost 2 m width and 1.24 m height) and its streamlined, long and wide shoulder lines. The mid-engine layout is emphasised by the cockpit, which is clearly located toward the front of the vehicle, and the long wheel base; both factors ensure optimum driving qualities. Massive air inlets and outlets in the front and on the side in front of and behind the doors leave no doubt about its potency. Above all, though, they supply the two turbo-chargers and the high-performance braking system with enough fresh air to ensure optimum operation for the duration of a race. The high-set air intake for the engine is reminiscent of Formula 1 vehicles and emphasises Gumpert Apollo racing character. The dominant rear provides a view of the diffuser and the underbody, encased completely in carbon, - which, combined with the front diffuser and flow channels, achieves an exceptionally high negative lift for a road vehicle.

Gumpert Apollo leaves a lasting impression on anyone who sees it: It symbolises unusual power, dynamism and sportiness. It reflects above-average performance capability paired with timeless elegance, and even when it is not moving, shows that the design can only adhere to function: driving dynamics.

The secret of Gumpert Apollo is an innovative design concept from racing car engineering. The base and symbolic backbone of Gumpert Apollo consists a round tube frame made of top-quality and highly stable chrome-molybdenum-steel with an integrated monocoque safety cell made of high quality carbon fibre screwed directly onto the frame. The 161 kg (355 lbs.) construction design is so effective, so torsion proof and bend resistant that it complies with both the specifications of the European MOT approval and the international manufacture specifications of motor sports (see annex J of the FIA regulations). Gumpert Apollo succeeds in combining low weight with the rigidity of a racing car, finest driving dynamics and maximum safety. The Gumpert Apollo is one of the safest and most agile vehicles of its class.

PERFORMANCE IN A NEW DIMENSION

The Gumpert Apollo is not the only sports car on the market; however its concept is so unique and realised so consistently that it aspires to redefine the standard for this vehicle class. The Gumpert Apollo has more to offer:

•     * Approved both for use on the road and on the track
•     * Maximum safety in accordance with the international motor racing standards
•     * Low curb weight of below 1,200 kg (2,645 lbs.)
•     * Perfect road-holding and ultra-precise handling
•     * Maximum driving pleasure and unbeatable driving performance
•     * Excellent aerodynamic efficiency and driving dynamics
•     * Synthesis of reliable racing and series technology
•     * Unique, futuristic, and striking design
•     * Best cost-benefit ratio

Despite the series production process, every Gumpert Apollo is unique. It is customized to the owner's wishes and needs and proudly bears his touch. :

•     * Luxury package with air conditioning, navigation radio with DVD/CD-Player and backwards facing camera with rear-view mirror function
•     * Car body made of fibreglass (GFK) or carbon-fibre (CFK)
•     * Carbon fibre for various components and car body parts
•     * Design variants created by use of different air intakes for the engine
•     * Carbon rear wing (optional available)
•     * Engine variants with 650 / 700 / 800 HP output

In addition to these different options and equipment packages, we can of course also accommodate any other special requests made by our customers. Just talk to us.

The consistent achievement of maximum driving dynamics and uncompromising functionality is also visible in the interior design: Every detail was designed according to functional viewpoints equivalent to those of a racing car, yet without neglecting the required amount of comfort and quality.

TAILOR-MADE PURISM AND LUXURY
Light weight was the top priority and has been achieved through the exclusive use of high-tech materials. The instrument panel, like the monocoque it is integrated into, is made of carbon fibre. The seat buckets, too, are fitted into the monocoque - although you will not find seats in the conventional meaning in the Gumpert Apollo. The seat position is adjusted to each customer individually, using padding, upholstery, adjustable pedals, and the steering column. Yet you are not required to forgo proven technology in the Gumpert Apollo: air conditioning, high-end navigation system with an integrated reverse camera, CD/DVD player and much more are available.

The Gumpert Apollo is a tailor-made sports car, and individual masterpiece. In line with this principle, customers can design the interior to meet their preferences, be it pure performance or somewhat more luxurious. Decide the colours and designs yourself, whether leather, seams or embroideries are concerned. We guarantee you a car that will fulfil all of your requirements. Just talk to us.

READY FOR RACETRACK
A sports car's supremacy is not defined by pure engine power alone: only a car that can put this power on the asphalt and create a balance between all occurring internal and external forces will leave the contestants behind, on the road and the race track. The chassis is the key to this supremacy - and Gumpert Apollo has already proven itself spectacularly under the toughest testing conditions on various test tracks, public roads and real racing tracks such as Hockenheim, Imola and the historical "Nordschleife".

The Gumpert Apollo is built as a racing car according to FIA GT and ACO regulations upon request.
Success is one of Gumpert Sportwagenmanufaktur's clearly defined objectives in racing. Naturally the factory benefits from the years of experience in motor sports and the remarkable successes of company owner Roland Gumpert.

The Gumpert Apollo made a great third place with the Belgian racing driver, Ruben Maes, in the cockpit at its racing debut at the Divinol Cup in Hockenheim in April 2005.

PROVEN PERFORMANCE IN A NEW DIMENSION
The impressive power of the high-performance eight cylinder engine is based on proven V8-high-performance aggregates from Audi. In the standard configuration this engine is optimised for use in racing and road vehicles and produces 650 HP as a Biturbo engine. Weighing only 196 kg (432 lbs.), it plays a major role in ensuring the ideal weight and fascinating driving dynamics of Gumpert Apollo. An angle of 90° between the two cylinder banks is a sign of a classic 8-cylinder engine. Efficient utilisation of its remarkable energy in the back wheels guarantees the fully-synchronised, sequential six-speed transmission that incorporates Formula 1 know-how. The short gear paths allow high speed gear changes. The arrangement of the gears in a longitudinal direction in the path of travel ensures a very low centre of gravity and optimum weight distribution. The characteristic sound of the double-flow exhaust system of the Gumpert Apollo with its 3-way catalytic converters says it best - the Gumpert Apollo is pure, unbeatable performance as reflected in the data. Like a comet, the Gumpert Apollo catapults its pilot from 0 to 100 km/h (0-62 mph) in just 3.0 seconds and only requires 8.9 seconds from 0 to 200 km/h (0-124 mph).

For connoisseurs form whom driving fun does not necessarily equal maximum motor performance and ultimate acceleration, the engine is also ideally suited for day-to-day driving at lower speeds.

DRIVING DYNAMICS REDEFINED
The Gumpert Apollo's suspension was developed to ideally complement the body's sophisticated aerodynamics. The resulting is unusual driving dynamics. The Gumpert Apollo is taut but not hard and provides driver and passenger with an extraordinar level of comfort for a car designed purely for performance. It demands the pilot's unswerving attention, yet due to its ultra-precise and predictable driving characteristics does not overwhelm, even at top speed.

An ideal weight balance of 42 to 58 percent between the front and rear axis rounds it off: It provides optimum traction during acceleration, whilst ensuring stable control even when braking in critical situations.

The Gumpert Apollo owes the finely tuned sensitivity of the suspension system and the optimised exertion of power to its double transverse control arm pushrod configuration at the front and back. The double transverse control arms ensure that the tires maintain optimum contact with the road surface, independent of the bound rate of suspension system. The suspension system allows the owner to seamlessly set the ground clearance in a range between 40 and 120 mm (1.57-4.72 in). Sealed uniball joints ensure that the forces are transferred precisely and with little friction. Stabilisers support the efficiency of the suspension and pitch compensation prevents the vehicle from diving during braking and lifting during accelerating. Despite its low trim, the Gumpert Apollo provides long wheel travel in compression and rebound, facilitating the finely-tuned and precise functioning of the absorbers and springs.

The high level of driving dynamics is supported by an agile electro-hydraulic power steering system that provides the driver with direct feedback. In order to securely transfer the 850 nm torque to the road, Gumpert Apollo has a traction control system (TCS) used in motor sports. Developed together with the company Racelogic, the permitted slip can be accurately set on the rear axle - according to the drivers wishes. An optional launch control, adjusted to the Gumpert Apollo especially, ensures swift starts like those of Formula 1. The Gumpert Apollo's driving performance is controlled with a 2-circuit high-performance braking system with adjustable 3-level Bosch-ABS, 378 mm (14.9 in) ventilated discs, and 6-piston callipers on the front and rear axle.

All of these are primary technical principles, the sportive orientation of which could not be clearer. Thanks to its suspension, the Gumpert Apollo proves itself in every curve: It redefines the term ‚driving dynamics'.

TECHNICAL SPECIFICATIONS
    * DIMENSIONS
          o Length 4,460 mm / 175.6"
          o Width 1,998 mm / 78.6"
          o Height 1,114 mm / 43.8"
          o Wheel base 2,700 mm / 106.3"
          o Wheel gauge
                + front: 1,670 mm / 65.7"
                + back: 1,598 mm / 62.9"
          o Boot volume: 100 l
    * WEIGHT
          o Kerb weight: below 1,200 kg / 2,645 lbs
          o Allowed total weight: 1,500 kg / 3,306 lbs
          o Approved axle load
                + front: 650 kg / 1,452 lbs
                + back: 900 kg / 1,984 lbs
    * ENGINE
          o Cylinders: 8
          o Type: 90° - V
          o Valves per cylinder: 5
          o Displacement: 4,163 cm3 / 254 in3
          o Stroke: 93 mm / 3.66"
          o Bore: 84.5 mm / 3.32"
          o Nominal output: 478 kW (650 HP) @ 6,500 rpm
          o Maximum torque: 850 Nm (626.9 lb-ft) @ 4,000 rpm [with 820 Nm @ 2700 rpm]
          o Maximum revs: 7,200 rpm
          o Compression ratio: 9,3
          o Recommended fuel type: 98 ROZ / 88 MOZ
          o Emission standard: Euro 4
    * GEARBOX
          o Sequential six-speed gear box with synchronisation and oil cooling
          o Twin plate clutch configuration (diameter 200 mm / 7.87" each)
          o Differential lock by Torsen
          o Custom-made gear ratios
    * WHEELS
          o Tire dimension
                + front: 255/35ZR19
                + back: 345/35ZR19
          o Wheel dimension
                + front: 10J x 19
                + back: 13J x 19
          o Wheel rim type: Aluminium cast wheels with centre lock
    * PERFORMANCE
          o Top speed: 360 km/h (224 mph)
          o 0-100 km/h (0-62 mph): 3.0 s
          o 0-200 km/h (0-124 mph): 8.9 s

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McLaren 650S Spider, 2015

 

 

 

McLaren Automotive has released images and full information for the convertible version of its latest model, the McLaren 650S, unveiled at the 2014 Geneva Motor Show. The McLaren 650S Spider is a no compromise open-top high performance sports car offering the same performance, handling and driver enjoyment, with the addition of a two-piece retractable hard top. The latest model is shown in Tarocco Orange, a new addition to the McLaren colour collection, developed with technology partner AkzoNobel.

The McLaren 650S Spider is mechanically identical to the 650S Coupé and is fitted with the unique McLaren M838T twin turbo V8 engine, producing 650PS (641 bhp) and 678 Nm (500 lb ft). This means a 0-100 km/h (62 mph) sprint of 3.0 seconds, identical to the Coupé, and 200 km/h (124 mph) is reached in 8.6 seconds, only 0.2 seconds shy of the fixed-head model. Maximum speed is 329 km/h mph (204 mph). Fuel consumption and emissions remain the same for the 650S Spider, returning 24.2 mpg (11.7 l/100km) on the EU combined cycle and 275 g/km.

Most competitors do not offer high performance iterations as convertibles due to the compromises that invariably plague open-roof cars. These models will be heavier and have substantially less torsional rigidity, to the detriment of handling and ride.

The carbon fibre MonoCell chassis at the heart of the McLaren 650S requires no additional strengthening or reinforcing in open-top guise, and gives the 650S Spider identical handling and ride, and virtually identical straight-line performance figures. The overall weight of the 650S Spider is 1,370 kg (dry), an increase of only 40 kg over the Coupé, with this additional mass coming from the Retractable Hard Top and roof mechanism, and is less than any other car in its class.

The two-piece Retractable Hard Top can be automatically raised or lower in less than 17 seconds, and can be activated while stationary or at any speed up to 30km/h (19mph).

As with the 12C Spider, the 650S Spider uses a heated glass rear window, operating independently of the roof. With the roof down, the rear window acts as a wind deflector, reducing cabin buffeting. Roof up, the rear screen can be lowered to allow more engine noise - and driving drama - into the cabin, and for a semi-open top driving experience even when it is raining. When down, the roof is stowed beneath a body-coloured hard tonneau cover incorporated in the twin rear buttresses. With the roof raised, the area beneath the tonneau cover can be used as additional luggage space.

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McLaren 650S, 2015

 

 

McLaren Automotive will return to the 2014 Geneva Motor Show with its fastest, most engaging, best equipped and most beautiful series-production supercar yet.

The McLaren 650S joins the range as an additional model alongside the 12C and sold-out McLaren P1, and learns from both models as well as 50 years of competing in the highest levels of motorsport. Available as a fixed-head coupé or as a Spider, with a retractable folding hard top, the McLaren 650S promises to redefine the high performance supercar segment, and has been designed and developed to provide the ultimate in driver engagement on the road and on the race track.

The 650S badge designation refers to the power output-650PS (641 bhp), of the unique British-built McLaren M838T twin turbo V8 engine. 'S' stands for 'Sport', underlining the focus and developments made to handling, transmission, drivability and engagement. Performance figures will be confirmed ahead of the Geneva Show but will improve on the already rapid 12C which continues on sale.

The design is inspired by the McLaren P1, previewing a new family design language. The front bumper gives the McLaren 650S a dramatic, yet clean appearance and sits below new LED headlamps which reflect a similar look to the McLaren P1™. The more integrated front splitter contributes to increased levels of downforce, giving a greater level of steering feeling and confidence to the driver on turn-in, while also adding to the agility and the car's handling balance. Unique door blades behind the front wheels direct air from the trailing edges of the front splitter, further benefiting front-end grip and vehicle balance.

The aerodynamic performance of the McLaren 650S is as efficient as the 12C, boasting the same drag coefficient figure, yet the air is being worked harder and more efficiently as it flows over, and through, the functional bodywork. At 150 mph, downforce levels are increased by 24 percent.

The latest addition to the McLaren range accelerates to 100km/h (62mph) from rest in just 3.0 seconds, and can reach 200km/h (124mph) in just 8.4 seconds. The standing quarter mile (400m) takes 10.5 seconds, and top speed is 333 km/h (207 mph). This performance puts the latest model from McLaren a full second quicker than the iconic McLaren F1 road car to 200 km/h, and 0.6 sec faster over the standing quarter mile, underlining its performance focus. This represents a sprint time to 200 km/h more than half a second quicker than the rapid 12C.

The ‘no compromise’ McLaren 650S also performs efficiently, returning 24.2 mpg (11.7 l/100 km) on the EU combined cycle, and a CO2 figure of 275 g/km making it one of the most efficient models in class. This is testament to the drive by McLaren for continued improvement and class-leading efficiency.

Unique side intakes behind the dihedral doors feed large, efficiently packaged, radiators which help provide the cooling requirements of the mid-mounted, compact engine. A new design five-spoke lightweight forged '650S' alloy wheel is unique to the model, and are fitted with Pirelli P Zero Corsa tyres to offer optimised roadholding, handling and driver feedback - the bespoke 'MC1' branded tyres have been developed alongside the McLaren 650S by McLaren technology partner Pirelli, and offer strong performance in normal road conditions and on track.

The McLaren 650S builds on experience from success on the track, and groundbreaking technologies fitted to other McLaren models. Active aerodynamics, which feature on both the 12C and McLaren P1, have been further developed and honed to ensure the ultimate performance and ability for the McLaren 650S. The McLaren Airbrake, originally fitted to the 12C and 12C Spider and designed to offer optimised levels of downforce on the rear of the car, now operates with a greater level of functionality providing increased stability. The newly developed system means the Airbrake deploys whenever the car senses extra downforce is advisable - rather than simply under braking or when manually operated in 'Aero' mode. Below the Airbrake, a distinctive rear three-piece bumper, similar to the GT3 racing version of the 12C, compliments the aerodynamic shaping of the McLaren 650S.

The pioneering ProActive Chassis Control (PCC) suspension system, developed by McLaren, has been further enhanced for the McLaren 650S. A feature of the system is the ability to adjust the ride and handling modes - Normal / Sport / Track - in isolation from the drivetrain, which gives complete freedom in terms of ride and handling. These settings, for both powertrain and suspension, have been recalibrated to improve driver engagement. The updates are especially noticeable in Sport mode.

The McLaren 650S is designed to be the best and most engaging driver's car in its class, yet it is not a stripped out road racer. Ride comfort and refinement are to executive saloon standards. The McLaren 650S models are equipped with IRIS satellite navigation with Bluetooth telephony, DAB digital radio (SIRIUS satellite radio in North America), wireless tethering, audio streaming and voice control as standard, while also offering enhanced levels of optional specification than previously offered. Options include fixed-back carbon racing seats, based on the lightweight design found in the McLaren P1™, an electric steering column adjustment assisting ingress and egress, a rear parking camera and extended carbon fibre throughout the interior.

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McLaren 12C GT Sprint, 2014

 

  

McLaren GT is to produce a new high performance variant of the 12C, named the 12C GT Sprint, designed to offer further enhanced handling through optimised aerodynamics and track focus.

The track-only model signifies the continued development of the 12C model, and bridges the gap between the 12C, itself fully accomplished on both road and track, and the all-out racing 12C GT3 and 12C GT Can-Am Edition models. It has been designed and developed by McLaren GT, the race car building arm of the McLaren Group, and retains many of the unique systems from the 12C road car, on which it is based.

Built around the lightweight carbon fibre MonoCell chassis, and with developments to systems such as ProActive Chassis Control, (PCC), Brake Steer and the McLaren Airbrake, the latest model from McLaren GT has been honed to deliver a more track-focused GT racing experience whilst retaining the balance and precise characteristics much praised in the road car.

Generating 625PS, the optimised 3.8-litre twin turbo engine includes a unique oil system, and cooling system which features a 12C GT3 developed central front radiator. The GT Sprint retains the 12C's seven speed twin clutch gearbox.

The PCC suspension system has been tuned and recalibrated to suit the cars lower ride height and racing slick tyres, providing a firmer and more circuit-orientated setup. The McLaren 12C GT Sprint has three unique handling modes which allow the driver to select their preferred damping, roll stiffness and ESP settings.

Externally, the 12C GT Sprint features optimised aerodynamic and cooling upgrades. At the front is a more aggressive front bumper, GT3-inspired bonnet with radiator exit ducts and front wing louvres. Lowered by 40 mm, the 12C GT Sprint is fitted with track-focused braking system with carbon ceramic (CCM) brake discs. Tyre changes are made easier through an on-board air jacking system and centre-locking 19-inch OZ wheels, shod with Pirelli racing slick tyres.

The inside, the McLaren 12C GT Sprint is fitted with an FIA-approved rollcage and integrated fire extinguisher system. A fully adjustable HANS-approved, lightweight composite racing seat fitted with full six-point harness provides the optimum driving position, while an air-conditioning system is retained, albeit a lightweight version, offering added comfort.

A carbon fibre dash houses the race developed digital display and key vehicle controls which interface with a McLaren GT developed steering wheel.

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McLaren MP4-12C Spider, 2013

 

 

 

'The 12C Spider utilises all of McLaren's Formula 1 knowledge and expertise at building lightweight driver-focused sports cars. Just like the 12C, the 12C Spider is "pure McLaren" - it is built without compromise to offer maximum driving enjoyment and performance, but with the added appeal of roof-down driving. No other sports car has this combination of abilities.'

The new McLaren MP4-12C Spider, unveiled at the 2012 Pebble Beach weekend in California, is the second vehicle in the growing range of high performance sports cars from McLaren Automotive. This lightweight, mid-engine open-top sports car combines the astonishing performance of the 12C with the increased exhilaration of roof-down motoring. Unlike most other spiders or convertibles, the 12C Spider offers the same performance, handling and driver enjoyment as the fixed-roof coupé version.

The 12C Spider uses the industry-leading carbon fibre MonoCell as the 12C, which needs no extra strengthening to provide the necessary rigidity and strength for an open roof car. In conventional steel or aluminium chassis cars, extra strengthening - and associated weight increase - is normal during the conversion from fixed-head coupé to open-roof convertible. This can compromise performance, handling and driving enjoyment.

The composure of a sports car, the fun of a convertible
'In the new 12C Spider you get the best of both worlds,' says McLaren Automotive Managing Director Antony Sheriff. 'You get all the performance and driving integrity of the 12C, plus the thrill of open-roof motoring.

The new 12C Spider is mechanically identical to the 12C. It uses the upgraded 625PS engine, which is part of the 12C Model Year 2013 upgrade. Acceleration - 0-62mph (100 km/h) - takes just 3.1 seconds (when fitted with Pirelli P Zero Corsa tyres), the same as the coupé. Fuel consumption and emissions also remain the same, returning 24.2 mpg (11.7 l/100km) on the combined cycle and 279g/km. The figures are much better than most high performance convertible sports cars, in keeping with McLaren's commitment to class-leading fuel efficiency. Maximum speed is 204 mph (329 km/h).

The Retractable Hard Top (RHT) on the 12C Spider is a fully automatic two-piece design which can be raised or lowered in less than 17 seconds at speeds of up to 30 km/h (19 mph). When lowered, the roof stows beneath a body coloured hard tonneau cover which incorporates twin buttresses. With the roof raised, the area beneath the tonneau cover can be used as additional luggage space.

The 12C Spider features a heated glass rear window, which can be operated independently of the roof. With the roof down, the rear window moves automatically to an 'aero' position to minimise buffeting. Additionally, with the roof up, the window can be lowered to give direct access to the sound of the twin-turbo 3.8-litre V8 engine mounted directly behind the cabin.

A roll over protection system includes a steel structure within each of the rear buttresses to absorb any impact and protect occupants. An 'active' pop-up system was ruled out as it would have added weight.

The detail changes of the 12C Spider extend to both the audio and climate control systems. Audio output changes when the roof is open - to compensate for extra external noise - while the climate control adapts when the roof is lowered.

12C programme included Spider from the outset
'The 12C Spider is not a converted version of the 12C,' notes Sheriff. 'Importantly, the two were conceived and developed at the same time, and alongside each other. The 12C programme included a coupé and convertible from the outset. The carbon fibre MonoCell chassis and all other mechanical components were designed to produce maximum performance in both configurations.

'The 12C Spider fully subscribes to the McLaren overriding principle, that every single component should be 'Pure McLaren'. Each constituent part was conceived, designed and produced to McLaren specification - nothing is shared from other manufacturers. The goal is to maximise driving enjoyment, performance and efficiency. Just as important, we always seek to innovate. By producing the 12C Spider with all the performance, handling and ride quality of the 12C, we have done just that.'

12C SPIDER: THE DETAILS
As with the 12C, everything on the 12C Spider was designed for a reason. There is no unnecessary 'jewellery', no styling fripperies. It is a 'pure' sports car, designed to deliver maximum driving appeal and performance, with unmatched efficiency.

'As with all McLarens, the 12C Spider is a racing car at heart,' notes Design Director Frank Stephenson. 'That is not true of many - if any - other high performance convertibles.

'It has the same timeless elegant style that distinguishes the 12C but with the added romance of open-top driving,' adds Stephenson. 'We have tried very hard to preserve the same design purity. With the roof in place, it looks like a coupé sports car that could just as easily be at Le Mans, as in London or Los Angeles. With the roof down, it looks like it belongs on Sunset Boulevard or the Cote d'Azur.'

Retractable Hard Top (RHT)
The Retractable Hard Top (RHT) has been designed specifically for the 12C Spider. Low weight, combined with high strength, was of paramount importance - as with all areas of the 12C.

The two roof panels and tonneau are made from the same composite material used in the construction of the 12C body. This is light, strong and allows for a very high standard of paint finish. Heated rear glass completes the roof construction.

The fully automatic mechanism raises or lowers the roof in less than 17 seconds, and can be activated at speeds up to 30 km/h (19 mph). It is controlled by a two-position switch on the centre panel within the cabin.

At the end of the roof lowering cycle, the windows fully close, and the rear glass adopts an 'aero' position that also reduces cabin wind buffeting. Continuing to hold the switch after the cycle is complete fully lowers the windows and rear cabin glass.

The RHT is operated by a single hydraulic pump. It is mounted as low as possible in the vehicle to optimise the centre of gravity, and improve handling.

Dual-purpose tonneau cover
When lowered, the roof stows beneath a body coloured hard tonneau cover which incorporates twin buttresses. With the roof raised, the area beneath the tonneau cover can be used as additional luggage space. This can accommodate 52 litres of luggage in two specially designed bags, supplied as standard. This is in addition to the 144 litres of luggage space provided under the bonnet.

Retractable rear glass provides increased audible drama
The rear glass can also be operated independently of the RHT. Roof up, the rear glass can be lowered to allow more engine sound into the cabin and also allows for a semi-open driving experience even in inclement weather. Roof down, the screen acts as a wind deflector, minimising disturbance in the cabin.

Roll over protection system
A roll over protection system ensures maximum occupant safety. Each rear buttress contains a steel structure to absorb the impact energy and protect both driver and passenger. An 'active' pop-up system would have added unnecessary weight.

Carbon fibre MonoCell ideally suited for convertible use
As with the mechanically identical 12C, the 12C Spider is a mid-engine two-seat rear-drive high performance sports car. Unlike rivals, it uses a carbon fibre monocoque chassis, the MonoCell. This confers major advantages in weight, strength and torsional rigidity - all improving handling, ride comfort and performance.

The MonoCell is a unique one-piece moulded chassis that weighs just 75kgs (165lbs). It is 25 per cent stiffer than an equivalent all-metal structure and 25 per cent lighter than a comparable aluminium chassis (the difference with a steel chassis is even greater). It is also stronger and safer in a crash, acting as a safety survival cell, as it does in a Formula 1 car.

'It provides the perfect combination of occupant space, structural integrity and light weight,' explains Chief Engineer Neil Patterson. 'It is the ideal chassis to deliver groundbreaking efficiency and performance in the sports car market.'

The MonoCell is unchanged from 12C to 12C Spider, as it was originally designed for both applications. 'This is highly unusual,' notes Patterson. 'Most convertibles require a strengthened chassis to reduce flex, thus adding weight - while still not achieving the structural integrity of a coupé. This flex can compromise handling precision and reduce ride comfort; while the added weight affects performance.'

The carbon fibre MonoCell not only gives advantages in strength and weight, it also improves packaging. The one-piece moulded design has been created to provide the perfect cabin - roomy, yet compact. 'We started with the driver,' says Design Director Frank Stephenson. 'With the 12C and 12C Spider, the driver sits close to the centre line of the car, improving control and driver enjoyment. The pedals are positioned inboard, reducing wheel well intrusion. The result is the perfect driving environment- unique and uncompromised.'

The steering column is centred on the driver, and is parallel to his seat and shoulders. The brake and throttle pedals are both placed directly in line with the driver and all primary controls are within reach. The overall cabin architecture is both elegant in its design and uncluttered and intuitive to use.

As with the 12C, the 12C Spider has class-leading all-round visibility. 'Enormous emphasis was put on ensuring excellent visibility, both for safety and driving precision,' adds Stephenson.

McLaren: The carbon innovators
The carbon fibre MonoCell of the 12C and 12C Spider follows more than three decades of McLaren carbon innovation. In 1981, McLaren Racing introduced the carbon monocoque to Formula 1™. It offered an unbeatable combination of strength and weight-saving, and soon recorded the first victory for a carbon-based F1 car, at the British GP, driven by John Watson.

The legendary McLaren F1 road car, launched in 1992, was the first road car to use a carbon chassis and body. In fact, since 1981 McLaren has never built a car without a carbon chassis.

On the 12C and 12C Spider, aluminium extrusions and castings are jig welded onto front and rear structures and bolted directly to the MonoCell. Along with the carbon MonoCell, they carry the lightweight composite body panels. Apart from the roof, and the engine cover, body panels are identical to the 12C. A redesigned glass engine cover maintains an unobstructed view of the handsome twin turbo V8 engine.

'The front and rear aluminium structures are easy to repair,' adds Patterson. 'They absorb impacts and can be replaced easily. Cars with full aluminium chassis use their structure to absorb and crumple on impact, causing more damage and expense to the whole structure, including the passenger cell.'

Unique Airbrake provides active aerodynamics

As with the 12C, the 12C Spider is fitted with the unique McLaren Airbrake - an 'active' rear wing that increases its angle to boost downforce and improve stopping power and stability through corners. 'As with every other aspect of the car, we have "added lightness",' notes McLaren Automotive Chief Test Driver, Chris Goodwin. 'Under heavy braking above 95 km/h, a piston operated by the transmission hydraulics raises the Airbrake to 32 degrees. Once this wing angle is set, and the Airbrake is pushed into the airflow, the centre of aerodynamic pressure forces the bottom of the wing up to 69 degrees. With the use of clever aerodynamics, rather than a bigger, heavier motor, the wing is deployed to its full and maximum angle. This weight-saving thinking has reduced the weight of the mechanism by 50 per cent.'

The 'active' aerodynamics of the McLaren Airbrake is another Formula 1™-derived innovation - although now banned, as it conferred a substantial performance advantage.

The total weight of the new 12C Spider is 1,474 kg, an increase of only 40 kg on the 12C, less than any other car in the class. The increase is because of the added weight of the Retractable Hard Top and other small changes, including a slightly heavier (by 2 kg) exhaust system. Overall, the 12C Spider is substantially lighter than most comparable convertibles, as well as being stronger and stiffer.

ENGINE AND TRANSMISSION

The light weight philosophy does not begin and end with the body and chassis of the 12C Spider. A light structure enables the designers to save weight through the whole design process. This includes the unique 3.8-litre twin turbo V8 engine, which weighs just 199 kg (439lbs).

Designed by McLaren Automotive, the British-made M838T engine features dry sump lubrication and a flat plane crankshaft, both of which have helped engineers place the engine extremely low in the chassis, lowering the centre of gravity and optimising handling and agility.

'The engine in the 12C and 12C Spider offers low weight, low-rev tractability, potent mid-range performance and extensive high-rev reach,' says Richard Farquhar, Function Group Manager for Powertrain. 'It also has a level of refinement and efficiency you wouldn't normally expect from a V8.'

Power boost for 2013

The McLaren MP4-12C Spider, along with the Model Year 2013 12C, gets the latest and more powerful 625PS (616hp) version of the engine, to give even more vivid acceleration with no loss of efficiency. Fuel economy has not been affected: it is still 24.2 mpg (combined) with emissions of just 279 g/km - excellent figures for so powerful a vehicle.

Revisions have also been made to the innovative Intake Sound Generator (ISG). This system works by controlling engine intake noise within the cabin at differing levels, depending on the Powertrain mode selected for the car. Moving up through Normal, Sport and Track Powertrain modes enhances the aural drama and driving experience of the 12C, allowing more of the natural sound of the V8 engine noise to enter the cabin. This allows the 12C Spider to be dramatic and exciting when required, but then also quieter for long distance journeys. With the 2013 specification 12C and 12C Spider, the driver can select the level of engine noise delivered in each mode through an electronic menu, accessible via the instrument cluster.

The exhaust system is the only part of the engine that has been changed for the 12C Spider. To ensure the audible experience is optimised for open-top driving, the exhaust has been developed to suit the harmonics of the 12C Spider body shape. An optional sports exhaust system is available, which is both lighter and louder than the standard equipment.

The seven-speed dual clutch 'SSG' transmission used in the 12C Spider is unchanged from that used in the 12C. It utilizes the Model Year 2013 upgrades, including crisper throttle response and improved clutch control. Gear changes are now faster and smoother. Like the 12C, it is available in Normal, Sport and Track gearshift modes providing progressively faster shifts, and differing shift points when in automatic mode. These modes are selected using the 'Powertrain' dial on the Active Dynamics Panel.

SUSPENSION

The goal with the 12C and 12C Spider was to offer executive car-like ride quality and sharp, agile handling. This is a combination of abilities that has never been seen on high-performance convertibles before.

Convertibles - especially fast convertibles - tend to have compromised ride and handling and often use different suspension settings than their fixed-head counterparts. The 12C Spider is a revelation. The exceptional strength and rigidity provided by the carbon fibre MonoCell means that the 12C Spider is able to retain exactly the same suspension components and settings as the groundbreaking 12C.

ProActive Chassis Control makes anti-roll bars redundant

The 12C Spider uses the same ProActive Chassis Control that proved such a revelation with the 12C. The suspension is based on double wishbones with coil springs, like a Formula 1™ car. Innovative adaptive dampers, interconnected hydraulically and linked to a gas-filled accumulator, provide pro-active responses, depending on road conditions and driver preferences. Normal, Sport and Track settings are available which operate independently of the transmission settings.

One of the advantages of ProActive Chassis Control is that it makes traditional metal anti-roll bars unnecessary. Notes Paul Burnham, McLaren Automotive Vehicle Dynamics Manager: 'An anti-roll bar is a popular and simple solution to reducing a car's roll. But the problem is that its stiffness is always there, reducing ride suppleness and comfort. The ProActive Chassis Control system, with its interconnected adaptive dampers, takes care of body roll without the need to use separate metal anti-roll bars. It is a large factor in our goal to offer the best high performance sports car handling and yet also offer executive car ride suppleness.'

Electronic sensors monitor the movement of the body and the wheels, increasing the levels of damping as and when required.

Brake Steer is another important technology that helps to boost the agility of the 12C Spider. It is yet another Formula 1™ technology that McLaren uses on the 12C. However, unlike many of those technologies, Brake Steer is now banned in Formula 1™ because it offered a clear performance advantage. This was shown by the successful implementation in 1997 on McLaren's 1997 Formula 1™ car.

The Brake Steer system offers the same benefits as a 'torque vectoring' differential, but is up to 20 kg lighter - part of the 'weight down' philosophy used on the 12C and 12C Spider. The system uses the hardware of the 12C's existing Electronic Stability Control (ESC) to apply braking forces to the inside rear wheel, improving turn-in to corners, boosting cornering speed, agility and driver confidence.

Standard brakes - forged aluminium bell and cast iron ventilated and cross-drilled discs - are optimised for weight, saving around 8 kg from standard cast iron. Optional Ceramic Composite Matrix (CCM) brake discs are also available saving a further 3.7 kg.

INTERIOR

The McLaren MP4-12C Spider cabin design is identical to the 12C, offering a range of material and colour options allowing customers a great degree of freedom to personalise their car. This includes the, new for Model Year 2013, Semi-Aniline leather sport interior, which features a more naturally textured finish. The interior of the RHT roof panels are lined either in Carbon Black Fabric or optional Carbon Black Alcantara.

Audio and climate systems specially calibrated for the 12C Spider

Typical of McLaren attention to detail, the climate control and audio systems have been totally recalibrated, to compensate for top-down driving.

The audio system, developed specifically for the 12C Spider by Meridian, the bespoke British hi-fi specialists, optimises the music output depending whether the car is running with the top up or down. Meridian was involved in the audio system's development from the very outset of the car's design, to optimise audio quality.

The Automatic Volume Control (AVC) and Automatic Tone Control (ATC) are both recalibrated for the 12C Spider. Individual speakers are automatically adjusted to take into account increases in external sound.

The climate control system is also recalibrated to automatically adjust when the roof is lowered. Airflow to the windscreen is reduced and, instead, redirected to the lower cabin vents. Fan speed also responds to vehicle speed, to maintain the desired temperature.

When the roof is up, the climate control settings from the 12C are applied. However, even when the rear cabin glass is lowered - which can be done independently of the roof - the climate control system is automatically adjusted to ensure constant cabin temperature and occupant comfort.

MANUFACTURING

The McLaren MP4-12C Spider is built at the new £40 million McLaren Production Centre (MPC) facility in Woking, Surrey, adjacent to the McLaren Technology Centre (MTC). The manufacturing facility was opened in November 2011 by UK Prime Minister David Cameron and 

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Koenigsegg One-1, 2014

 

 

Koenigsegg is creating six uniquely developed and designed production cars - the One:1 program. This is one of the most exclusive production car program ever envisaged.

The hp to kg curb weight ratio is an astonishing 1:1. This is the "dream" equation previously thought impossible. On top of this the One:1 is the first homologated production car in the world with one Megawatt of power, thereby making it the world´s first series produced Megacar. These are the reason for naming the car One:1.

The 2014 One:1 truly raises the bar of performance. The One:1 features new and unique solutions to enhance track perfomance without compromising top speed or everyday usability, with a stunning visual appearance to go with it.

Examples of features; unique track optimized aero winglets, extended venturi tunnels and side splitters, Le-Mans inspired active wing configuration and optimized active undertrim air management. Large air vents for improved cooling, roof air scoop to support the 1 Megawatt of power. 8250 RPM rev limit, complimented with Custom made Michelin Cup Tires, upgrade rear triplex suspension with carbon bevel springs and active shockabsorbers and ride hight, combined with upgraded revolutionary Koenigsegg Aircore carbon fiber wheels.

Koenigsegg was the first extreme car manufacturer to take steps toward green technology with the release of the biofuel CCXR in 2007. The One:1, a sibling of the highly competitive Agera R, follows in the footsteps of the CCXR as it also runs on E85 biofuel, Racefuel or normal Petrol.

In order to give the One:1 maximum flexibility when it comes to power delivery, Koenigsegg has implemented its patented variable turbo geometry technology in the One:1 Program. This technology gives improved response and more low end torque than otherwise possible. As an example the One:1 engine has over 1000 Nm of torque between 3000 to 7500 rpm.

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Koenigsegg Agera R, 2012

 

 

THE DESIGN
The Agera is designed with the minimalistic "less is more" philosophy in mind. This philosophy means that the shape of the car has to be purely functional with no added features except those purely needed to meet regulation, added safety, ergonomics, practicality and aerodynamics. We believe that if this philosophy is followed, the car will also be beautiful as it is purely purposeful. A good analogy is the evolution of a dolphin that has had to meet similar criteria in order to reach their present configuration through the evolution of nature.

The Agera is proportionate, compact and muscular. Its timeless, efficient and distinctive shape is truly a testament to time. The original shape and concept of the Koenigsegg CC, created 15 years ago, is still valid, fresh and highly competitive today. The Agera manage to stay true to the original philosophy, shape and size of the original CC. At the same time, it looks, feels and performs like something belonging to the future.

THE ENGINE
Koenigsegg differs from other low volume hypercar manufacturers by the fact that Koenigsegg develops and produces its own engine in-house. This is, by most observers and competitors, deemed as more or less impossible or way too expensive to even consider.

However, year after year Koenigsegg has proved them wrong. Not only are the engines developed in-house, they also have class leading characteristics in many important areas. To mention a few: Lightest and most compact hypercar engine in the world, weighing only 197 kg complete with flywheel, clutch, dry sump system, Inconel exhaust manifold with turbo. The low engine weight is quite astonishing, as the Agera engine also has class leading power and torque characteristics. To give an example, the Koenigsegg 5 litre V8 bi-turbo engine develops more than 900 hp on 95 octane regular fuel, and more than 1100 hp on E85 bio fuel. The Agera produces over 1000 Nm of torque from 2500 rpm and in the Koenigsegg Agera R format the engine has a peak torque of 1200 Nm over a 3300 rpm rev range, showing great flexibility.

These are extraordinary numbers considering the size and reliability of the engine without forsaking drivability or flexibility. This is truly downsizing, without drawbacks. These characteristics make it one of the most flexible and easy to use hypercar engines in the world.

The Agera engine has a BMEP of 28 bar running on 95 octane fuel and the E85 Bio fuel Koenigsegg Agera R engines has an astonishing BMEP of 30 bar. These numbers show how extreme the Koenigsegg engines are compared to any other production engine in the world. The reason why Koenigsegg can obtain such BMEP figures is due to some proprietary and critical factors:

•     A unique shape of the combustion chambers, improving the resistance against detonation.
•     High cylinder head clamp load, enabled by a specially designed engine block. This has proven to give a zero failure rate to combustion overpressure, even considering the extreme cylinder pressures.
•     A unique engine block design, where the cylinder sleeves are used to further stiffen the aluminium block.
•     A connecting rod design reducing TDC dwell time and therefore enabling higher mean pressures without detonation.
•     Exhaust manifold and intake plenum trumpets designed to ensure absence of RPM peak resonance and back pressure.
•     An efficient ejector pump system reducing the crankcase pressure and aerodynamic losses.

The Koenigsegg engines also meet all the required emission standards in the world. This is nothing short of astounding, given their size and power output.

Koenigsegg has its own engine lab, with simulation programs, rapid prototyping machines, engine and chassis dynamometers, and a 1.7 km test track adjacent the factory enabling Koenigsegg to take the cars to 0-320-0 km/h at any time. Furthermore, a 25 minute drive away from the Koenigsegg Factory there is Knutstorp Racetrack, which is described by many as a miniature Nordschleife. Here Koenigsegg can put the engine and car through serious testing and make sure they work in perfect harmony. This gives Koenigsegg unique possibilities to develop technologies normally exclusive to much larger companies.

No other production engine in the world, regardless of car type, has the same amount of power potential compared to its EU cycle average CO2 emission(310g of CO2) or cycle fuel consumption( 14,7 litre per 100 km / 16MPG). However, what makes Koenigsegg most proud is how drivable, smooth, responsive, torquey and reliable the engines are - especially given their extreme performance.

The Agera engine complies with the most stringent environmental regulations in the world, EU5 and LEV2, and delivers a significant power increase compared to previous Koenigsegg engines.

Fuel consumption, and thus CO2 emissions, has been lowered. This is an astonishing feat for a 900+ hp hypercar. Turbo response is of vital importance when it comes to driving pleasure and the possibility to control massive amounts of power. Therefore Koenigsegg has joined forces with Borg Warner and adapted to the latest technology when it comes to turbine materials. The Koenigsegg Agera R turbines are made from a material called Gamma-Ti which is an inter metallic compound comprised of aluminium and titanium. This new material drastically reduces the inertia of the turbine wheel and axle and therefore gives improved response. Furthermore Koenigsegg has coupled this latest generation turbo technology with patent pending and proprietary response/back pressure reduction system, invented by Christian von Koenigsegg to really give the Agera engine a competitive edge when combining maximum power while complying with the strictest emission regulations in the world.

Furthermore the large air to air intercooler on the left side of the engine sucks enormous amounts of fresh air, eliminating the need for water in the intercooling system, thereby saving weight and avoiding heat soak issues, during extended performance driving.
Following the Koenigsegg tradition the engine has a dry sump lubrication in order to lower the engine as far as possible in the chassis and have full control of the crankcase oil even given the massive g-forces involved.

The large 80-litre tank ensures long driving range, due to the relatively low average consumption. The Agera follows the previous generation Koenigsegg and has its fuel tank well protected, built-in centrally into the carbon fibre monocoque chassis. Since the fuel is centrally placed in the car, the weight distribution does not change regardless if the tank is full or empty. Thanks to the safe fuel tank position, the challenging US high-speed rear impact test, was passed at first trial.
The Koenigsegg Agera R has four intelligent bio fuel grade return-less fuel pumps to deliver the correct amount of fuel at any given time. This reduces the energy needed to operate the fuel pumps and eliminates the waste of excessive fuel transport.

The inconel/titanium patent pending exhaust system is key in order for the Agera to achieve its remarkable emission and power levels. The exhaust system uses a completely new principle created by Christian von Koenigsegg. The new technology drastically reduces back pressure and gives earlier catalytic light off than any other turbo exhaust system. At the same time the acoustics of the exhaust has been examined carefully in order to maintain the typical Koenigsegg thunderous growl.

THE TRANSMISSION
The newly developed 7 speed gearbox for the Agera features a world's first dual clutch system for a single input shaft gearbox. In order to keep the gearbox light, compact strong and reliable, Koenigsegg together with Cima chose to develop a new gearbox type that enables the use of a combination of a dry and wet clutch system, in order to get class leading shift times. First there is the normal twin disc dry clutch that operates in a traditional fashion. Then there is a hydraulically operated wet clutch-brake inside the gearbox that is engaged during each up shift in order to slow down the input shaft, simultaneously as the gears are changed and prior to the normal synchronisation. This cuts the synchronisation time by two thirds, as the gear is presynchronized. The result is a very sporty, smooth and extremely fast shift. Compared to a traditional DCT system, this gearbox is lighter, smaller, has less moving parts and gives a more distinct shift feel, with almost no interruption to the acceleration. Furthermore, the electro hydraulic shift mechanism actuates the shift forks directly with no intermediate mechanical parts. This brings down the inertia of the shift mechanism and any potential slack is minimized since the shortest possible path of engagement is achieved.

The entire transmission weighs only 81 kg, which is by far the lightest 7 speed Hypercar transmission in the world. The transmission can also be set in full auto mode.

The small size and very low weight, considering the longitudinal 7 speed layout, made it possible to maintain the shortest in class rear overhang, and thereby excellent central mass position and neutral behaviour in extreme conditions.

Koenigsegg E-Diff
The Koenigsegg Electronic Differential (E-Diff) is lighter and faster, compared to traditional E-Diff solutions. The difference lies in the fact that Koenigsegg has retained a limited slip differential with plates and ramps with a built-in amount of analogue limited slip functionality. This means that the active hydraulic element can be smaller, more compact and therefore faster and lighter compared to traditional E-Diff solutions. The analogue part of the functionality also has zero processing time as it reacts directly. The analogue system is supplemented by a digital active system.

The way Koenigsegg has obtained one of the lightest and fastest E-Diff solution on the market. Furthermore the Koenigsegg developed algorithms that control the E-Diff, takes input from; throttle angle, g-force, steering wheel angle, yaw angle, car speed, engine rpm, selected gear, plus weather condition.
The way all this data is analysed and how the car reacts to this data also makes the Koenigsegg E-Diff unique and that makes the Agera very safe on the limit and improves performance and feel.
The Koenigsegg E-diff works in harmony with the new traction control system that is the fastest reacting in the industry, with auto adapt functionality to different road conditions and driving styles as well as several manual settings.

THE CHASSIS
The Agera´s unique carbon fibre monocoque chassis is designed to achieve its maximum stiffness without a roof, as the roof is detachable and stow-able in the front of the car. This in itself is an unusual feature for such a compact Hypercar.
The Koenigsegg carbon monocoque chassis has an astonishing stiffness of 65.000 Nm/deg and only weighs 70 kg including the integrated fuel tanks.
The result of constant weight saving exercises is a dry weight of only 1330 kg making the Agera the lightest fully homologated Hypercar presently in production.

THE SUSPENSION
The suspension geometry of the Agera was designed to further enhance the award winning behaviour of the CCX. The Agera track is wider at the front compared to the rear of the car, compensating for the narrower front tires and giving the car a square stance of 2 meters in both the front and the rear.

In typical Koenigsegg tradition, the Agera has the longest wishbones of all hypercars presently in production. Long wishbones have several advantages - for example: less track width deviation during wheel movement or cornering and improved geometry over a longer wheel stroke. This is one of the reason why F1 cars have very long wishbones. The wishbones are produced from seamless aeronautical chrome-molybdenum tubing, in order to minimise weight in combination with maximum strength and stiffness.

The extremely strong and light uprights are machined from 7075-T6 aeronautical grade aluminium, and contains 240 mm SKF dual angle contact bearings, normally only found on Lemans prototype cars. The very large bearings contribute to the overall stiffness of the wheel assembly and therefore give better control, handling and comfort. The uprights have large 4.5" diameter carbon fibre cooling ducts for the brake discs in order to maximise brake cooling.

Brakes
The Agera is equipped with the absolutely latest ABS technology and is based upon, a very lightweight and performance oriented, racing ABS system. The system makes it possible for the ABS function to react to differently depending on performance mode. Furthermore the ABS braking system operates on massive 392×36 mm and 380×34 mm ventilated and drilled ceramic discs, for unparalleled braking performance and zero fade regardless of track or road condition.

RTD (Rear Triplex Damper) Suspension
Christian von Koenigsegg has invented and pioneered a new type of rear suspension system for a road car. The Agera has a shock absorber and spring connecting the right and left rear wheel. This system gives unique benefits as the two rear wheels can influence one another when desired.
There are multiple benefits of this system. For example, the extra spring and damper works in series with the normal spring and dampers allowing their spring and damping rates to be lowered. This results in increased comfort and better handling on rough and wet surfaces without compromising dry track handling.

Furthermore the RTD system has an anti-squat effect. Traditional anti-squat systems are designed into the geometry of the suspension. These systems do not add any components or weight. However they compromise the geometry of the suspension for other aspects of handling than anti-squat.
By adding the RTD system, Koenigsegg can maintain true suspension geometries for handling, but still have the anti-squat feature and harvest other new found benefits. As the RTD system compliments the normal dampers and springs, these can be made lighter. Hence, the added benefit does not significantly affect the overall system weight.

DEDICATED MICHELIN TIRES
Koenigsegg continued its long standing partnership with Michelin in the tire development for the Agera. Hence the Agera features specially developed, latest generation Michelin Super sport tires.
Due to the tires, advanced suspension and aerodynamics, the Agera achieves lateral accelerations up to 1.6 g in dry conditions with improved handling in wet.
The new tires were developed for the Agera through testing at the Michelin Ladoux test centre in France.
The tires fitted to the Agera are rated for speeds over 420 km/h making it the highest top speed rated tire in the world, whilst offering cup tire levels of grip and outstanding wet performance , all in one package.

Koenigsegg are very proud of being a selected development partner of Michelin.

VGR - Vortex Generating Rim spokes
The Koenigsegg VGR wheels are not only for looks. They are real air turbines, increasing the down force of the car by measurable amounts and improve brake cooling. All four wheels are individual so that turbine blades always face the correct direction for extraction. Given that the offset and width is different front to rear, all four wheels have their unique design. The VGR wheels are forged and then fully machined to the final shape. Due to the forging and machining process all excess material has been removed minimising weight, whilst displaying outstanding levels of stiffness.

THE AERODYNAMICS
The Aerodynamics of the Agera has been honed and perfected over many years in CFD and wind tunnel in order ensure best possible outcome. Even with the massive dynamic rear wing, the drag of the Agera is only Cd 0.33, in high speed mode and Cd 0.37 in track mode. Even though the Agera is a full 2 meters wide, it only has a frontal area of 1.87 m2. This results in a Cd*A value of only 0.62 and thus a theoretical top speed of around 440 km/h (Agera R), given the gear ratio and power available. All Agera models are limited to 375 km/h in standard mode, but can be unlocked by Koenigsegg for shorter periods of time, if all necessary conditions are met, such as road condition, tire wear, service level of car etc. The car is set in full speed mode by unlocking the top speed mode in the Infotainment system.

The two large side air intakes greatly add to the Agera´s high speed stability as they ensure that the pressure point of the car is behind the mass centre of the car. This makes the car more directionally stable with increasing speed. This is a crucial safety feature when it comes to driving at extreme speeds. Great care has been taken that the car also is stable under high speed braking. The front splitter and rear diffuser has been designed and optimized with this in mind.

For maximum performance and safety it is important that the down force stays as constant as possible even in yaw situations. Therefore the rear diffuser was developed and evaluated specifically to give substantial down force even at wide yaw angles.

Dynamic rear wing
Hypercars of today generate massive amounts of down force in low to medium speed and less down force in very high speed, in order not to overload the tires and not to create too much drag. Most hypercars therefore have heavy hydraulically operated wings and flaps to cater for this need.

Koenigsegg however, following the "less is more" philosophy, has designed a dynamic system to that take care of the above described needs. The most visual and obvious part of this system is the new dynamic rear wing. The wing changes its angle of attack, not with the help of hydraulics, but with the pressure of the wind. It is therefore dynamically controlled by the speed or wind resistance at any given moment in time and thus actually compensates for headwind or tailwind at the same given speed. This is an intelligent way of dealing with adaptive aerodynamics, as the system becomes lighter, less complex and more intuitive compared to heavy and complex hydraulics systems. Koenigsegg had to work heavily with CFD in order to create the dynamically controlled adaptive aerodynamics of the Agera.

Furthermore, an interesting multifunction feature of the adaptive wing is that the pylons for the wing also act as air extrusion channels. The air channels goes from the engine bay to the back of the pylons, thereby creating an air passage. This causes a venturi effect, from the air rushing past the pylon, evacuating hot engine bay gases, reducing pressure in the engine bay and increasing the flow of cooling air through the side radiators. This also means that the pressure under the car is reduced and giving more low drag down force.

THE INTERIOR
The interior of the Agera is like no other car. No other materials than those deemed worthy by Koenigsegg are allowed in the interior. This means that what you get to touch and see inside the Agera is only aluminium, carbon fibre, precious metals, alcantara and aniline leather. All switch gear is highly bespoke and features wonderfully unique solutions, as for example the Koenigsegg Ghost light, that make solid aluminium buttons gleam with LED powered symbols appearing out of nowhere. A world first in the car industry. The illumination shines through the billet aluminium buttons and surfaces by way of almost invisible micro holes, creating excellent visibility of the symbols as well as a very clean and stylish appearance, framed by an all-new carbon fibre centre console and tunnel assembly.

The new super light full carbon airbag steering wheel incorporates many vital functions directly in front of the driver. Similarly to the CCX, the shifting paddles are mounted directly on the steering wheel to enable shifting without taking your hands off the steering wheel during hard cornering.

The central high-definition touch screen infotainment system controls the audio functions, satellite navigation, Bluetooth phone and secondary functions such as performance meters and car telemetrical data.
The very comfortable and optionally heated carbon seats are great for long journeys but also give excellent lateral support when needed.

The Interior of the Agera is truly minimalistic and efficient in the purest Swedish sense. Nothing in the interior is there only to add visual drama; instead everything is there for a functional purpose. According to Koenigsegg, this is the essence of beauty, as it follows a less is more philosophy that embodies every engineering aspect of the Agera.

CI - Configurable Instruments
The CI is specifically developed for the Agera by Koenigsegg. It features a unique and configurable interface that can be adapted to driver specific demands. As it is connected to the cars CAN bus system it freely communicates with the infotainment screen and all other functions in the car.
By pushing the left stalk button, different priority graphics can be chosen, depending on need. For example in track driving mode, there is a focus on; RPM, pressures, temperatures, lap times, and g-forces. Compared to GT mode, where: car speed, auto shift, satnav, power, music etc is prioritized.

THE LUGGAGE SPACE
The luggage space is something Koenigsegg is very proud of. It is the largest luggage compartment in the hypercar world, with a space of over 120 litres. It is so well shaped that it actually can fit the one piece Agera roof/hardtop, meaning the driver can choose to go open or closed at any given time during a longer trip. Given the fact that Koenigsegg has engineered the roof to fit the car, it is actually also possible fit a set of golf clubs. This is unheard of in the hypercar world. Given the high comfort level and the large luggage space, the Agera can truly been seen as one of the first GT hypercars.

Custom Carbon fibre Thule Lightning Roof Box
At the 2011 Geneva Motor show, Koenigsegg presents the Koenigsegg winter package - the first lifestyle packages offered from Koenigsegg. The main element of this package is the exceptional Lightning Roof Box System.
The Lightning Roof Box is developed together with the Swedish rack and roof box manufacturer Thule. The high performance lightweight box is made completely from carbon fibre and has been through several iterations of CFD simulation to ensure it is safe up to 300 km/h, making it the fastest roof box in the world.

The roof box, which has an incorporated roof panel, replaces the normal roof in under 10 minutes. The standard roof is then stored in the luggage compartment in the front of the car, so that when the driver arrives to his destination, the roof box can be quickly removed and the normal roof can be put in place for a more elegant look.
The Lightning roof box truly enables the driver to use the Agera for longer trips with massive luggage. This gives a whole new spectrum of hypercar utilization.

The winter package also includes Michelin snow tires on forged Koenigsegg wheels and custom designed Koenigsegg skis from the Swedish high end ski manufacturer, Extrem.
Part of the winter package is also a Swedish winter resort experience in Åre - Sweden's most popular skiing resort and the place of manufacture of the Koenigsegg skis.
During the stay in Åre, the Koenigsegg customers will be fitted for their skis and they can witness first hand when they are being hand made in "Åres skidfabrik", a state of the art ski production plant.

While their skis are being made, they will be checked into the delightful Copperhill Mountain Lodge that is towering snow-capped forests and sparkling frozen lakes.
The following day the skis are ready for use and Åre´s many and varied ski slopes are available for test runs, in direct access from the Copperhill Mountain Lodge.
Together with the Golf club options this marks the start of the Koenigsegg extended lifestyle program for Koenigsegg cars.
We would also like to thank Full Tilt, Houdini Sportswear, Sweet Protection, Sport Lodge'n Trysil and Moods of Norway, for assisting us in creating the winter experience at the Geneva motorshow.

THE ELECTRONICS
Not only does Koenigsegg develop their own engines, but also many of the electronic control units, CAN protocols, and management strategies are developed in-house. If you would look closely at many of the circuit boards in the car, inside the control units, you will find the name Koenigsegg in scripted directly on the circuit boards.

Of course there is no self fulfilling need to develop so many critical items in-house, unless it gives the car a competitive edge doing so. This is actually the main reason for Koenigsegg doing it. This, for example, gave Koenigsegg the possibility to pioneer the CCXR and Agera R - the two first environmentally conscious hypercars in the world.

An example of this development is In the Semiconductor Electric Control Central. The ECC controls most of the electronic functions in the car. Most physical fuses or relays have been replaced by software controlled semiconductors which are configurable in function and enable monitoring all power and threshold values. The ECC communicates via CAN with the infotainment system in order to display necessary information to the driver. For example if a door is open, a lamp is broken, or not all roof locks are tight in place, information will appear on the instruments as all electrical functions are controlled and monitored by the ECC.

Intelligent Lifepo4 Battery - ILB
The Agera is the first combustion engine powered production car in the world, with an intelligent Lithium Iron battery as standard equipment. First of all, this battery type saves significant weight and is more compact compared to traditional led acid batteries. Secondly lithium iron cells cannot reach thermal runway, unlike Li-ion batteries, which makes them very safe for automotive use.
Koenigsegg has therefore implemented a minimum current protection mode, to make the above issues something of the past. The new ILB therefore has an intelligent circuit built into it, so if the car is left on or standing for a long time, the battery shuts down when the voltage drops below a certain threshold. The shut down does not occur sooner than a traditional battery would have been left depleted and useless, so it does not take away any expected battery capacity. Then, if any essential buttons or a door knob is touched, the battery kicks back into life for 5 minutes and has enough power to operate all the functionalities in the car and start the engine and thereby giving charge back to the battery.

TECHNICAL DATA

•     Koenigsegg developed, aluminium/carbon fibre, dry sump, 32 valve, Twin Turbo, V8 engine
•     Torque: 1100 - 1200Nm - depending on version and fuel
•     Displacement: 5.035 L. Bore: 90.7mm. Stroke: 95.25 mm. Compression ratio: 9.0:1. Max rpm: 7250
•     Power: 940-1115hp - depending on version and fuel
•     7-speed, dual clutch, single input shaft, AMT Transmission with E-diff.
•     Frontal Area: 1.873 m2
•     CD 0.30 (no rear wing) - 0.33 (fixed normal Agera rear wing) - 0.33 to 0.37(adaptable wing)
•     Luggage space: 120 litres
•     Dry weight: 1330 kg
•     Curb weight 1418 kg (all fluids plus 50% fuel)
•     Maximum laden weight: 1600 kg(full tank, two passengers, full luggage)
•     Length: 4296 mm
•     Width: 1998 mm
•     Height: 1120 mm
•     Wheelbase: 2662 mm
•     Front Track: 1700 mm
•     Rear Track: 1650 mm
•     Front overhang: 885mm
•     Rear overhang: 752mm

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