Having spent the morning at Prescott for the last of the season’s “Wheels at Prescott” event and with a Sunday diary commitment at MITCAR up in Derbyshire, not surprisingly, I pointed the car north out of that Gloucestershire venue, with a hotel booked in the vicinity of where I needed to be the following day. As the journey up there would be less than a couple of hours, that left quite a gap in the afternoon, and the logical thing to do was to stop by at Caffeine & Machine’s “The Hill” location was this would be almost directly en route, and was sure to yield some interesting cars as well as giving somewhere to grab a bite to eat. The weather was pretty horrid, and a portent of worse that was to come the following day, but there is plenty of cover at Caffeine & Machine, so on arrival, I duly parked up, and wandered around with the camera ready to snap cars of interest. Here is what that encompassed:

AC

No, I really should not call this an AC. Perhaps I should have called it a BMW, as this kit is based on a Z3, though I think BMW fans would probably also struggle to approve of the end result. Produced by Kobra, this is nothing more than a body conversion kit that has been designed and manufactured to fit the BMW Z3. The GRP kit is a straight forward replacement of body panels and addition of cover panels to a BMW Z3 body shell. The kit can also be fitted to any model and any year of the Z3. The conversion retains the full monocoque body shell, running gear, doors and glass of the donor vehicle. The finished car is hence exempt from IVA.

ALFA ROMEO

There were a couple of examples of current Alfa models here, the well received Giulia saloon and the rather less well received Tonale.

AUSTIN

“A British car to beat the world”. So read the billboards when the Austin Metro was revealed in October 1980. We had waited a long time for this car. There were many false starts, with thoughts first turning to how to replace the Mini going back to the late 1960s, but for various reasons, every effort had been cancelled. Fortunately, that extended to the ADO88 prototype which got to quite an advanced state of development in 1978, but which received less than favourable feedback at customer clinics. A hasty redesign was conducted. Despite carrying over the A Series engines, albeit in modified A+ guise, as BL had nothing else suitable an no money to develop an alternative, and that meant the 4 speed in-sump gearbox came with it, the little Metro has an immediate hit. It looked good, with pert, modern looks, and with a large hatchback, and some innovative ideas on how to maximise the use of space, this was a roomy car that Britain could indeed be proud of. That a young lady who came to prominence in the months following launch, the future Princess Diana, could be seen driving around in one probably helped still further. Five models were available at launch: 1.0, 1.0L, the economy-oriented 1.0 HLE, 1.3S and 1.3 HLS, and the cars were available in a wide range of bright and attractive colours, including a greater percentage of metallic paints than were typically offered to buyers of cars in this class. My parents bought a 1.0L in the summer of 1983, as a replacement for our Mini, and the car was a massive improvement in just about every respect. Unlike previous BL cars, this model was not dogged with build quality and reliability issues, though, sadly it did have the same propensity to rust as they did, but it took several years before that would become obvious. Before that happened, the range was expanded with the introduction of cheaper City and City X models, a top spec Vanden Plas and then the sporting MG version. There was a lot of angst about this last one, as the purists all bemoaned the fact that it was not a “real” MG, as it was a family hatchback not a sports car (conveniently ignoring the MG 1100/1300 saloons of the 1960s), but ti soon became apparent that this little car was a blast to drive, and something quite special with its red trim, including red seat belts and a liberal splashing of octagon logos around the car. A wilder Turbo model followed at the end of 1982, reflecting the craze for every manufacturer to bolt one on to every car that they could find to create a series of often rather unruly and lag-prone but fast machines. Although a lot of work was done in the mid 80s on developing what should have been another world class replacement (the AR6, the prototype for which is also hidden away at Gaydon), a lack of funds meant that for the next 7 years, all that happened was a lot of tweaking of the the trim, and specification and the incorporation of a pair of rear doors to create a 5 door model. This was at a time when the competition stood far from still, with the Fiat Uno and Peugeot 205 upping the ante in early 1983, Vauxhall joining the fray with the Nova mid year, a facelifted Fiesta with a five speed gearbox arriving later that year, a new Renault R5 the following year, along with several Japanese rivals coming out every 4 years. It all made the Metro look increasingly elderly, and also small, compared to all its rivals. This GS is one of the last of the original models before the car received a significant update including the new K Series engines.

DODGE

The Dodge Challenger SRT Hellcat is a high performance variant of the Challenger equipped with a supercharged 6.2-liter Hemi engine rated at 707 bhp and 650 lb/ft (881 Nm) of torque. This engine is also available in the Dodge Charger SRT Hellcat full-sized sedan, the Jeep Grand Cherokee Trackhawk SUV, and as the Hellcrate engine swap kit. The inner driving light on the left front has been removed to allow air to get into the engine resulting in more torque, and the wheel wells are different from the standard SRT to accommodate the 20-inch aluminum wheels. The SRT Hellcat is equipped with two separate key fobs; use of the “black” fob limits engine output to 500 hp (373 kW), while the “red” fob enables full output capability. The Hellcat has a quarter-mile time of 11.2 seconds; this was accomplished with street legal drag tires. On stock tires the Hellcat was able to achieve 11.6 seconds at 125 mph (201 km/h) on the quarter-mile. The Challenger SRT Hellcat can accelerate from 0–60 mph (0–97 km/h) in 3.6 seconds and can brake from 60–0 mph in 109 ft (36 yd; 33 m). Top speed is 199 mph (320 km/h). The Challenger Hellcat has a lateral acceleration of 0.94 g. The European-spec Hellcat is capable of accelerating from 0–62 mph (0–100 km/h) in 3.9 seconds, 0–124 mph (0–200 km/h) in 10.7 seconds, and 0–186 mph (0–299 km/h) in 38 seconds (although the speedometer appeared to be inaccurate by 10–15 km/h (6–9 mph)). Although the car has never officially been sold in the UK, a number of them have been imported here.

FERRARI

Launched at the 2015 Geneva Show, the 488GTB followed the lead set by the California T in bringing turbocharging into a modern-day, mid-engined V8 Ferrari supercar for the first time. The engine is completely new when compared with its V8 stablemate, not only in components but also in feel and character. It is a twin-turbocharged 3902cc unit whilst that in the California T is 3855cc. In the 488 GTB, it produces 660bhp at 8000rpm and 560lb ft at 3000rpm. Both outputs are significant increases over the normally aspirated 4.5-litre V8 used in the 562 bhp 458 Italia and 597 bhp 458 Speciale, and also greater than the car’s biggest rival, the McLaren 650S. The torque figure of the 488 GTB is such that it also exceeds the 509lb ft at 6000rpm of the normally aspirated V12 used in the range-topping Ferrari F12 Berlinetta. The mighty new engine in the 488 GTB drives the rear wheels through a revised seven-speed dual-clutch automatic gearbox derived from the 458. It features a new ‘Variable Torque Management’ system which, Ferrari says, “unleashes the engine’s massive torque smoothly and powerfully right across the rev range”. The gear ratios are also tuned to “deliver incredibly progressive acceleration when the driver floors the throttle”. The 488 GTB can crack 0-62mph in just 3.0sec, 0-124mph in 8.4sec and reach a top speed of 205mph. Its 0-62mph and 0-124mph times match the McLaren 650S’s, but the Woking car’s top speed is slightly higher at 207mph. The engine also accounts for the ‘488’ element of the car’s name, because each of the engine’s eight cylinders is 488cc in capacity when rounded up. The GTB suffix, standing for Gran Turismo Berlinetta, is a hallmark of previous mid-engined V8 Ferraris such as the 308 GTB. Not only is the new turbo engine more potent than the 4.5-litre V8 from the 458 Italia, but it is also more economical. Combined fuel economy is rated at 24.8mpg, compared with 21.2mpg in the 458 Italia, and CO2 emissions are 260g/km – a 47g/km improvement. Ferrari’s HELE engine stop-start system features on the 488 GTB. Developments on the dynamic side include a second generation of the Side Slip Angle Control system, called SSC2. This allows the driver to oversteer without intruding, unless it detects a loss of control. The SSC2 now controls the active dampers, in addition to the F1-Trac traction control system and E-Diff electronic differential. Ferrari says the result is “more precise and less invasive, providing greater longitudinal acceleration out of corners” and flatter, more stable behaviour during “complex manoeuvres”. Learnings from the Ferrari XX programme have also been incorporated into the 488 GTB, something that Ferrari says allows all drivers and not just professionals, to make the most of its electronic and vehicle control systems. It also claims the 488 GTB is “the most responsive production model there is”, with responses comparable to a track car. The 488 GTB has lapped Ferrari’s Fiorano test track in 1min 23sec – two seconds faster than the 458 Italia, and half a second quicker than the 458 Speciale. The dimensions of the 488 GTB – it is 4568mm in length, 1952mm in width and 1213mm in height – closely match the 458 Italia from which it has evolved. Its dry weight is 1370kg when equipped with lightweight options – 40kg more than the McLaren 650S. The new look, styled at the Ferrari Styling Centre, features several new aerodynamic features that improve downforce and reduce drag. Most notable is the addition of active aerodynamics at the rear through a ‘blown’ rear spoiler, where air is channelled from the base of the glass engine cover under the spoiler. This contributes to the 50% increase in downforce over the 458 Italia. Also new is a double front spoiler, an aerodynamic underbody, a large air intake at the front that references the 308 GTB, a diffuser with active flaps, new positioning for the exhaust flaps and new-look lights. The interior has been redesigned to be made more usable, including new switchgear, air vents and instrument panel. The multi-function steering wheel remains, while the infotainment system gets a new interface and graphics. The Spider followed the closed coupe model six months later,

FIAT

Known as project 110, the brief for the Nuova 500 was to create a micro-car that would not only carry on the tradition of the earlier Topolino, but which would also take sales away from the ever popular Lambretta and Vespa scooters of the day. It clearly needed to be smaller than the 600 which had been released with a conventional 4 cylinder engine. Not an easy task, but development started in 1953 and by August 1954, two designs were ready to be shown to Fiat management. They selected one, and serious development began. At first the car was referred to as the 400, as it was going to have a 400cc engine, but it was soon realised that this was just too small, so a larger 500cc air-cooled engine was developed. It was signed off in January 1956, with production starting in March 1957 in advance of a June launch. Fiat’s marketing department got busy, with hundreds of the new car taking to the streets of Turin, each with a pretty girl standing through the open sunroof that was a feature of all the early cars. The press loved it. 50 units were shipped to Britain, where the car made its debut at Brands Hatch, and again the reception was enthusiastic. But the orders just did not come in. Fiat went for a hasty rethink, relaunching the car at the Turin Show later that year. power was increased from 13 to 15 bhp, and the poverty spec was lessened a little, with headlight bezels, brightwork on the side and chrome hubcaps, a Nuova500 badge on the engine cover, winding side windows (the launch cars just had opening quarterlights) and the option of a heater fan. It was enough to get sales moving. The original car was still offered, at a lower price, called the Economy. In the first year of production, 28,452 Fiat 500s were made. Over the next 19 years, the car changed little in overall appearance, but there were a number of updates with more power and equipment added. A 500 Sport was launched in August 1958, with a more powerful version of the 499cc engine. It lost the soft top, having a ridged steel roof, to increase strength of the body. It was only available in grey with a red side flash. The first major changes came in 1960 with the 500D. This looks very similar to the Nuova, but with two key differences. One is the engine size: the D features an uprated 499 cc engine producing 17 bhp as standard, an engine which would be used right through until the end of the L in 1973; and the other is the roof: the standard D roof does not fold back as far as the roof on the Nuova, though it was also available as the “Transformable” with the same roof as the Nuova. The D still featured “suicide doors”. There were larger rear light clusters, more space in the front boot thanks to a redesign of the fuel tank and new indicators under the headlights. A year later, Fiat added a light on the rear-view mirrors and a windscreen washer, but the car still lacked a fuel gauge. Sales increased from 20,900 in 1960 to 87.000 in 1961, 132,000 in 1962 and by 1964, the last year of production, they hit 194,000 units. The D was replaced in 1965 by the 500F, which finally moved the door hinges from back to the front, owing to changes in Italian safety laws. There was a deeper windscreen and thinner door pillars, which increased the height of the car by 10mm, improving visibility for the driver. The 500F ran through to 1975, from 1968 alongside the more luxurious 500L which was added to the range in 1968. The L is easy to tell apart, with its bumper overriders. The final updates created the 500R, which incorporated many changes from the 126 under the skin of the classic shape, and in this form production continued alongside the newer 126 until 1976.

FORD

Sporting Escorts appeared only a matter of months after the launch of the regular 1100 and 1300cc cars. The first of these was a higher performance version designed for rallies and racing, the Escort Twin Cam. Built for Group 2 international rallying, it had an engine with a Lotus-made eight-valve twin camshaft head fitted to the 1.5 L non-crossflow block, which had a bigger bore than usual to give a capacity of 1,557 cc. This engine had originally been developed for the Lotus Elan. Production of the Twin Cam, which was originally produced at Halewood, was phased out as the Cosworth-engined RS1600 production began. The most famous edition of the Twin Cam was raced on behalf of Ford by Alan Mann Racing in the British Saloon Car Championship in 1968 and 1969, sporting a full Formula 2 Ford FVC 16-valve engine producing over 200 hp. The Escort, driven by Australian driver Frank Gardner went on to comfortably win the 1968 championship. The Mark I Escorts became successful as a rally car, and they eventually went on to become one of the most successful rally cars of all time with arguably the Escort’s greatest victory in the 1970 London to Mexico World Cup Rally, co-driven by Finnish legend Hannu Mikkola and Swedish co-driver Gunnar Palm. This gave rise to the Escort Mexico, which had a 1600cc “crossflow”-engined, as a special edition road version in honour of the rally car. Introduced in November 1970, 10,352 Mexico Mark I’s were built. In addition to the Mexico, the RS1600 was developed with a 1,601 cc Cosworth BDA which used a Crossflow block with a 16-valve Cosworth cylinder head, named for “Belt Drive A Series”. Both the Mexico and RS1600 were built at Ford’s Advanced Vehicle Operations (AVO) facility located at the Aveley Plant in South Essex. As well as higher performance engines and sports suspension, these models featured strengthened bodyshells utilising seam welding in places of spot welding, making them more suitable for competition. After updating the factory team cars with a larger 1701 cc Cosworth BDB engine in 1972 and then with fuel injected BDC, Ford also produced, in the autumn of 1973, an RS2000 model as an alternative to the somewhat temperamental RS1600, featuring a 2.0 litre Pinto OHC engine. This also clocked up some rally and racing victories; and pre-empted the hot hatch market as a desirable but affordable performance road car. Like the Mexico and RS1600, this car was produced at the Aveley plant.

The Ford Escort was revised in January 1995, although it was still based on the previous model. This version had new front lights, bonnet, front wings, front and rear bumpers, wing mirrors, door handles and 4 different front radiator grilles (slats, honeycomb, circles and chrome). At the rear, the Ford logo moved from the right to the centre of the boot, except for the van and some convertible models, while the Escort badge had also changed. The interior of the car was hugely revised too following heavy criticism of the original 1990 car which featured low quality plastics for its interior mouldings – the car now featured an all new dashboard arrangement of competitive quality. However, the underlying car was now five years old and most of its rivals were either new or to be imminently replaced. The two entry level engines were revised – the 1.3 L received the latest (and final) version of Valencia pushrod engine – the Endura-E from the recently launched Mk IV Fiesta and Ka, whilst the 1.4L CVH was replaced by the updated CVH-PTE unit. There were no changes to either the venerable 1.8 diesel or the 1.6/1.8 Zetec units at the top end of the range. The improved iB5 version of the venerable BC-series transmission was also later introduced as a running change. Dynamically, the handling and ride were also much improved with revised suspension set up from that on the previous Mark V models. The sporty “Si” model had slightly stiffer suspension than the Encore, LX and Ghia variants, although the Si was otherwise the same as the LX with some additional standard, mainly cosmetic, enhancements such as front and rear spoilers (which were also available as options on the LX), sports seats and white-faced dashboard instruments. Some special trim levels of the Escort include: Calypso Cabriolet, Freedom, Serenade, Cabaret and Mexico. The RS2000 models ceased production in June 1996, and were the last Escorts ever to wear the famous RS badge. The RS badge did not resurface until the Focus RS arrived in 2002. A new Ghia X model was introduced around 1996, which included air conditioning and a 6 CD autochanger as standard. Although the equipment of the Ghia below it was reduced, it was now more affordable. The last “standard” model to be introduced in 1997 was the GTi – the only GTi-badged Ford to ever be sold in Europe. This used the same existing 115 PS 1.8 L Zetec-E engine found in other cars in the range, but included a body kit borrowed from the now cancelled RS2000 model, part-leather seats plus the standard fitment of ABS. The GTi was available in 3- and 5-door hatchback and estate bodystyles. In 1998, Ford announced an all-new car, the Focus, which replaced the Escort and superseded the “Escort” name that had been in use for 30 years. The Escort range was cut down to just “Flight” and “Finesse” editions, and sold for a further two years in parallel with the Focus. In the United Kingdom, all engines except the 1.6 L petrol and 1.8 L turbo diesel were dropped, as were the three-door hatchback, four-door saloon and cabriolet bodystyles. The range was also condensed in mainland Europe, New Zealand, South Africa, and South America.

Popular among visitors here are the Fiesta ST hatches, offered across a number of generations of Ford’s long-running but now obsolete supermini. The best of the cars came from the final two generations and these are the versions you see most often here. Indeed, both were represented here.

The regular second generation Focus cars were released in late 2004. An ST version followed very quickly, and for a long time, Ford maintained that was the only sporty Focus there was going to be. Finally, on December 17, 2007 Ford of Europe confirmed that a Mk 2 Focus RS would be launched in 2009, with a concept version due in mid-2008. t with an upgraded Duratec ST engine with 305PS Duratec RS, gearbox, suspension, and LSD. In 2008, Ford revealed the new Focus RS in “concept” form at the British International Motor Show. Contrary to numerous rumours and speculation, the RS was announced by Ford to have a conventional FWD layout. The Duratec RS engine was upgraded to produce 301 bhp and 325 lb/ft of torque. 0 to 100 km/h (62 mph) acceleration was quoted to be under 6 seconds. The RS used a modified Volvo -engineered 2,522cc five-cylinder engine found in the Focus ST. A larger Borg Warner K16 turbo now delivers up to 20.3-psi of boost. A new air-to-air intercooler has been developed as a complement, while the forged crankshaft, silicon-aluminum pistons, graphite-coated cylinder bores, 8.5:1 compression ratio and variable valve timing also up the power output. The car remained front wheel drive, but to reduce torque steer used a Quaife Automatic Torque Biasing LSD, and a specially designed MacPherson strut suspension at the front called RevoKnuckle, which provided a lower scrub radius and kingpin offset than traditional designs while avoiding the increased weight and complexity of double wishbone and multi-link suspension setups. Ford UK claim: “It’s as close as you’ll come to driving a full-spec rally car (Ford Focus RS WRC). The production car was finally unveiled on 5 January 2009. It looked very distinctive, as at the rear a large venturi tunnel and a dramatic rear spoiler created a purposeful look. It was available in three expressive exterior colours: Ultimate Green, Performance Blue and Frozen White. The ‘Ultimate’ Green was a modern reinterpretation of the classic 1970s Ford Le Mans Green of the Ford Escort RS1600 era.

Ford played much the same guessing game about whether there would be an RS version of the third generation Focus as they had done with the earlier versions. Production of the regular cars started in late 2010, but it was not until the 2015 Geneva Motor Show before the production ready MKIII Ford Focus RS was unveiled. It came packing the turbocharged 2.3-litre inline-four engine found in the Mustang EcoBoost. In the Focus RS, the engine itself produces 350 hp. Power is sent to all four wheels via Ford’s all-new Torque-Vectoring All-Wheel-Drive system with a rear drive unit designed by GKN, as well as upgraded suspension and brakes. As well as that, the new Focus RS will be fitted with Drive Modes – including an industry-first Drift Mode that allows controlled oversteer drifts – and Launch Control. The RS will boast a model specific aerodynamic package that helps to differentiate it from other Focus models. The RS is capable of accelerating to 100 km/h (62 mph) in 4.7 seconds. Sales finally started in mid 2016, with long waiting lists having been created, though Ford did eventually catch up with expanded production levels allowing them to meet the demand

HONDA

The S2000 was first alluded to at the 1995 Tokyo Motor Show, with the Honda Sport Study Model (SSM) concept car, a rear-wheel-drive roadster powered by a 2.0 litre inline 4-cylinder engine and featuring a rigid ‘high X-bone frame’ which Honda claimed improved the vehicle’s rigidity and collision safety. The concept car was constructed with aluminium body panels and featured a 50:50 weight distribution. The SSM appeared at many automotive shows for several years afterwards, hinting at the possibility of a production version, which Honda finally announced in 1999.  It featured a front mid-engine, rear-wheel-drive layout with power being delivered by a 1,997 cc inline 4-cylinder DOHC-VTEC engine. The engine produced outputs of 237–247 hp, and 153–161 lb/ft depending on the target market., and it was mated to a six-speed manual transmission and Torsen limited slip differential. The S2000 achieved what Honda claimed as “the world’s top level, high performance 4-cylinder naturally aspirated engine”. Features included independent double wishbone suspension, electrically assisted steering and integrated roll hoops.  The compact and lightweight engine, mounted entirely behind the front axle, allowed the S2000 to achieve a 50:50 front/rear weight distribution and lower rotational inertia. An electrically powered vinyl top with internal cloth lining was standard, with an aluminium hardtop available as an optional extra. Although the S2000 changed little visually during its production run, there were some alterations, especially in 2004, at which point production of the S2000 moved to Suzuka. The facelifted car introduced 17 in wheels and Bridgestone RE-050 tyres along with a retuned suspension to reduce oversteer. The spring rates and shock absorber damping were altered and the suspension geometry modified to improve stability by reducing toe-in changes under cornering loads. The subframe has also received a revision in design to achieve a high rigidity. In the gearbox the brass synchronisers were replaced with carbon fibre. In addition, cosmetic changes were made to the exterior with new front and rear bumpers, revised headlight assemblies, new LED tail-lights, and oval-tipped exhausts. Although all the cosmetic, suspension and most drivetrain upgrades were included on the Japanese and European S2000s, they retained the 2.0l F20C engine and remained designated as an AP1. A number of special editions were made, such as the more track-oriented Club Racer version offered in the US in 2007/8 and the Type S for Japan in 2008/9. The UK received a GT for 2009, which featured a removable hard-top and an outside temperature gauge. The S2000 Ultimate Edition (continental Europe) and GT Edition 100 (UK) were limited versions of the S2000 released to commemorate the end of production. Both included Grand Prix White body colour, removable hard top, graphite-coloured alloy wheels, red leather interior with red colouring for stitching on the gear lever gaiter. The Ultimate Edition was unveiled at the 2009 Geneva Motor Show and went on sale in March 2009. The GT Edition 100 was a limited run of 100 units released for the UK market. In addition to the Ultimate Edition’s specification, it featured a black S2000 badge and a numbered plaque on the kick-plate indicating which vehicle in the series it was. The car was never replaced, as Honda decided to head off in the same direction as Toyota, producing a series of very dull appliance-like cars that focused on low emissions and dependability but of no appeal to the sort of enthusiast who bought (and probably kept!) an S2000.

The sixth generation Honda Civic was introduced in 1995 with 3-door hatchback, 4-door sedan and 2-door coupe body styles, replicating its predecessor’s lineup. A 5-door hatchback was also produced to replace the Honda Concerto hatchback in Europe but this model, while using the same design language as the rest of the Civic range, was quite distinct, instead being a hatchback version of the Honda Domani, sharing that car’s platform which was related to the fifth-generation (EG/EH/EJ) Civic. The Domani replaced the sedan version of the Concerto in Japan while the sedan version of the Concerto was directly replaced by the sixth generation Civic sedan in other markets. Two wagons were also made available; the JDM Orthia, based on the Civic sedan/3-door hatchback line, and a 5-door hatchback/Domani-based model, sold as the Civic Aerodeck, in Europe. Neither were offered in North America. The Civic 5-door hatchback also formed the basis for the 1995 Rover 400 although the 4-door sedan version of the Rover was quite distinct from the Domani. At its introduction in 1995, it won the Car of the Year Japan Award for the third time. Although the same basic model was sold around the world, there were a lot of differences in available engines and specs. The seventh generation model arrived in 2000.

In September 2012, there were rumours about the confirmation of the next-generation of the Honda Civic Type R at the Paris Motor Show. A preview took place at the Geneva Motor Show in March 2014. In January 2015, Honda announced that the production-ready model of the fourth generation of the Civic Type R (called the FK2) would debut at the 85th Geneva Motor Show held in March alongside the European debut of the NSX. It is the first factory turbocharged Civic Type R. The FK2 Civic Type R is powered by the K20C1 Direct Fuel Injection 1,996 cc turbocharged inline-four engine with Earth Dreams Technology, having a power output of 310 PS (306 bhp) at 6,500 rpm and maximum torque of 400 Nm (295 lbft) at 2,500–4,500 rpm. The engine is mated to a 6-speed manual transmission with a factory equipped plate-style limited-slip differential. Honda claimed that the Type R can accelerate from 0–100 km/h (62 mph) in 5.7 seconds. The engine is manufactured at Honda’s Anna Engine Plant in Ohio before being exported to the UK. The fuel tank has a capacity of 50 L (13 US gal) and fuel consumption is 30.1/46.3 mpg (5 L/100km-7.81 L/100km) and 38.7 mpg (6 L/100km) (combined). Combined CO2 emission is 170g/km and the car has achieved Euro 6 Emission Standard. The Civic Type R is equipped with dual front airbags, front side airbags and front and rear side curtain airbags. Larger brakes are fitted for improved stopping power with front brakes having 351 mm (13.8 in) ventilated and drilled discs and rear brakes having 305 mm (12 in) solid discs. The anti-lock braking system, electronic brake-force distribution, hill start assist, and vehicle stability assist are standard. The British were able to purchase the FK2 as of July 2015 with two variants: the base Type R model and the Type R GT model. Although they both were priced differently, differences are limited to additional equipment and amenities. Key specifications related to power figures remain the same for both variants. In July 2015, Swindon, England (HUM) started exporting the FK2 Civic Type R to Japan, making it the third Civic Type R to be exported there. However, only 750 units were exported

The Honda S660 is a sports car in the kei class manufactured by the Japanese company Honda from 2015 until 2022. It is a two-seater with a targa top and a transverse mid-engine and rear-wheel-drive layout. It is the successor to the Honda Beat (with regard to segment), and the Honda S2000 (with regard to nomenclature, as it also belongs to Honda’s family of “S” models). The S660 is a lightweight mid-engined roadster with a targa roof. Its dimensions, due to kei car size restrictions, are nearly identical to the 1990s Beat. It is sold with either a 6-speed manual transmission or a 7-speed CVT with sports paddle shifters, both options being offered on the two trims available (Alpha and Beta). The S660 weighs approximately 830 kg with the manual transmission and 850 kg with the CVT, and have a front/rear weight balance of 45/55. The naming convention of using the letter “S” followed by the engine displacement is a long-held Honda tradition going back to Honda’s second production car, the Honda S500 (from which the S660 draws inspiration). The S660 is powered by the same turbocharged 658 cc S07A Turbo engine used in the N-One with some minor mechanical improvements. In the S660, this engine is mid-mounted and produces 64 PS at 6,000 rpm and 104 Nm (77 lb/ft) of torque at 2,600 rpm with a redline of 7,700 rpm for the manual transmission and 7,000 rpm for the CVT. The development team of the S660 was led by Ryo Mukumoto, who beat out 400 other participants in Honda’s in-house competition at the age of 22. Honda made him the youngest lead engineer in the company’s history in spite of his lack of engineering experience, and he was given 5 years to develop the S660. A prototype was shown at the November 2013 Tokyo Motor Show. The prototype and proposed production announcement were widely covered in auto enthusiast news sites and blogs. Initial reactions to the concept were favourable. The prototype S660 was photographed by car enthusiasts at a wintertime car event in early 2015 and published in the Japanese car enthusiast magazine Mag-X, and subsequently republished in the US car blog The Truth About Cars. The pictures included several exterior photos and one of the opened engine compartments. After the S660 entered the market, its first driving review was in June 2015 of a Japanese-market prototype driven by Top Gear in Tokyo. The author concluded that the car was “supremely manoeuverable” but lacked power, something he hoped an export model with a larger motor would amend and felt that such an export model might be a potential Mazda MX-5 competitor. Production of the S660 ended in March 2022, approximately 27,000 having been built.

HYUNDAI

A performance version called the i20 N was revealed for the European market in October 2020. It slots under the i30 N in the Hyundai N family. The i20 N is powered by a 1.6-litre turbocharged GDi engine mated to a 6-speed manual transmission with automatic rev matching. This engine has 201 bhp and 275 Nm (203 lb/ft) of torque. As the i20 N only weighs 1,190 kg (2,620 lb), it is able to accelerate from 0–100 km/h (0–62 mph) in a 6.2 seconds with a top speed of 230 km/h (143 mph). Its engine delivers peak torque between 1,750 and 4,500 rpm and hits peak power between 5,500 and 6,000 rpm. The broad power band helps its acceleration performance throughout the mid and high-speed range. Although the Smartstream engine is featured in other Hyundai models, for the i20 N it is equipped with a bespoke turbocharger and intercooler system. Changes also include a mechanical limited-slip differential, a reinforced chassis at 12 different points, and a reinforced front domes and knuckles with distinct geometry for the torsion beam suspension. The camber has also been increased while a new sway bar, new springs, and new shock absorbers have been fitted. The brakes have also been enlarged, being 40mm larger than the base i20 brakes. Production of the i20 N ceased for the European market in February 2024, and Hyundai N will only offer electric models in the region. Despite its discontinuation in Europe, the facelifted model of the i20 N is being prepared for export to the Australian market.

LOTUS

It is now over 20 years since Lotus launched the Elise, a model which showed a return to the core values of simplicity and light-weight which were cornerstones of Colin Chapman’s philosophy when he founded the marque in 1955. The first generation Elise was produced for just over 4 years, with a replacement model, the Series 2 arriving in October 2000. It came about as the Series 1 could not be produced beyond the 2000 model production year due to new European crash sustainability regulations. Lacking the funding to produce a replacement, Lotus needed a development partner to take a share of investment required for the new car. General Motors offered to fund the project, in return for a badged and GM-engined version of the car for their European brands, Opel and Vauxhall. The result was therefore two cars, which although looking quite different, shared much under the skin: a Series 2 Elise and the Vauxhall VX220 and Opel Speedster duo. The Series 2 Elise was a redesigned Series 1 using a slightly modified version of the Series 1 chassis to meet the new regulations, and the same K-series engine with a brand new Lotus-developed ECU. The design of the body paid homage to the earlier M250 concept, and was the first Lotus to be designed by computer. Both the Series 2 Elise and the Opel Speedster/Vauxhall VX220 were built on the same production line, in a new facility at Hethel. Both cars shared many parts, including the chassis, although they had different drive-trains and power-plants. The VX220 carried the Lotus internal model identification Lotus 116, with the code name Skipton for the launch 2.2 normally aspirated version and Tornado for the 2 litre Turbo which came out in 2004. Fitted with 17 inch over the Elise’s 16 inch front wheels, the Vauxhall/Opel version ceased production in late 2005 and was replaced by the Opel GT for February 2007, with no RHD version for the United Kingdom. The Elise lived on. and indeed is still in production now, some 15 years later, though there have been countless different versions produced in that time. Whilst the first of the Series 2 cars came with the Rover K-Series engine, and that included the 111S model which had the VVC engine technology producing 160 hp, a change came about in 2005 when Lotus started to use Toyota engines. This was initially due to Lotus’ plans to introduce the Elise to the US market, meaning that an engine was needed which would comply with US emissions regulations. The selected 1.8 litre (and later 1.6 litre) Toyota units did, and the K-series did not. that MG-Rover went out of business in 2005 and engine production ceased confirmed the need for the change. Since then, Lotus have offered us track focused Elise models like the 135R and Sport 190, with 135 bhp and 192 bhp respectively, as well as the 111R, the Sport Racer, the Elise S and Elise R. In 2008  an even more potent SC model, with 218 bhp thanks to a non-intercooled supercharger was added to the range. In February 2010, Lotus unveiled a facelifted version of the second generation Elise. The new headlights are now single units; triangular in shape they are somewhat larger than the earlier lights. The cheapest version in Europe now has a 1.6 litre engine to comply with Euro 5 emissions, with the same power output as the earlier 1.8 136bhp car. Lotus has been through some difficult times in recent years, but things are looking more optimistic again, with production numbers having risen significantly in the last couple of years, after a period when next to no cars were made.

MAZDA

Mazda introduced rotary-powered vehicles in 1971, beginning with the R100 and eventually introduced the RX-2, RX-3, RX-4, RX-5, and three generations of the RX-7 sports car in the US and worldwide markets. However, due to the lack of conveniences and user-friendliness, coupled with the high price tag and declining interest in sports cars and coupés at the time, Mazda decided to withdraw the RX-7 from most major markets except Japan. After 1995, Mazda suffered from a relatively undistinguished and ordinary product line in the US except for the MX-5 Miata. As popular interest in import tuning and performance cars resurged in the late-1990s due in part to various popular cultural influences, Japanese automakers waded back into the performance and sports car market in the US and in worldwide markets. In addition, Mazda endeavoured to rejuvenate itself around this time, partially with financial and management assistance from its new owner Ford, and successfully developed a new product line of high quality cars with desirable styling and superior driving dynamics compared to their competitors, beginning with the Mazda6 and followed by the Mazda3, paving the way for the arrival of Mazda’s next-generation rotary powered sports car. The RX-8 combined two previous products (the internationally sold RX-7, and the Cosmo which was exclusive to Japan), with the exterior dimensions of the RX-8 to be slightly smaller than those of the Cosmo. Mazda chose not to install the 2.0 L three-rotor 20B-REW, which was discontinued in 1996 when the Cosmo ceased production. In Japan, sales were affected by the fact that the RX-8 did not comply with Japanese Government’s dimension regulations, and Japanese buyers were liable for yearly taxes for driving a larger car. The rotary engine had financial advantages to Japanese consumers in that the engine displacement remained below 1.5 litres, a significant determination when paying the Japanese annual road tax which kept the obligation affordable to most buyers, while having more power than the traditional inline engines. The development of the RX-8 can be traced as far back as the 1995 RX-01 concept car, which featured an early iteration of the 13B-MSP engine. Naturally aspirated with side exhaust ports, this engine has a power output of 210 bhp Because of Mazda’s financial position at the time and the growing market interest in SUVs, the RX-01 did not see further development or production. However, a “skunkworks project” engineering team within Mazda kept the development of the 13B-MSP alive using an elongated MX-5 chassis known internally as “gokiburi-ka”, or “cockroach car” translated to English, eventually catching the attention of management, which was by then heavily influenced by Ford. Development of the 13B-MSP advanced and eventually led to the RENESIS name debuting along with the RX-EVOLV concept car which began to bear semblance to the production version of the RX-8 with the “freestyle” rear suicide doors. The styling was further refined, in Mazda tradition, by competition between its design studios in Japan, the US, and Europe. The lead designer was Ikuo Maeda, the son of Matasaburo Maeda (the lead designer of the original RX-7). The project obtained official approval from management under one condition, that the resulting car should have four doors, and eventually the RX-8 concept car (design/engineering model) was produced and shown in 2001, closer resembling the production version. A near-production “reference exhibit” RX-8 was shown shortly thereafter at the 2001 Tokyo Motor Show, pending final approval for production. The production version of the RX-8 closely resembles this vehicle save for minor trim details, and “Job 1” began in February, 2003 at Mazda’s Hiroshima plant in Japan. The RX-8 was designed as a front mid-engine, rear-wheel-drive, four-door, four-seater quad coupé. The car has a near 50:50 front-rear weight distribution and a low polar moment of inertia, achieved by mounting the engine behind the front axle and by placing the fuel tank ahead of the rear axle. The front suspension uses double wishbones and the rear suspension is multi-link. Weight is trimmed through the use of materials such as aluminium and plastic for several body panels. The rest of the body is made of steel, except for the plastic front and rear bumpers. The manual gearbox model uses a carbon fibre composite driveshaft to reduce the rotational mass (momentum of inertia) connected to the engine. Power is sent to the rear wheels through a torque-sensing conical limited-slip differential for improved handling. While under-powered in comparison to the final variant of the RX-7, the RX-8 is considered its successor as Mazda’s rotary engine sports car. A prominent feature of the RX-8 is its rear-hinged “freestyle” doors (similar to suicide doors) that provide easier access to the rear seats. The RX-8 has no B-pillars between the front and rear doors, but the leading edge of the rear door acts as a “virtual pillar” to maintain structural rigidity. Because of the overlapping design, the rear doors can be opened only when the front doors are open. The RX-8’s cabin was designed to allow enough room to house four adults, making it a genuine 4-seater rather than a 2+2. In designing the RX-8, Mazda’s engineers were able to achieve a chassis stiffness rating of 30,000  The earlier models of the RX-8, having chassis codes SE3P, and JM1FE, were produced from the 2003 model year, though the car’s U.S. debut was for the 2004 model year. It is powered by the RENESIS 13B-MSP (2-rotor, multi-side-port) Wankel engine displacing 1.3 L (1,308 cc). The 4-port standard RENESIS was rated at 191 bhp and was coupled with either a 5-speed manual or 4-speed automatic transmission. The 6-port high power RENESIS was only available with a six-speed manual transmission and was rated at 238 bhp. For the North American market, Mazda revised the reported output rating of the standard and high power RENESIS soon after launch to 189 bhp and 237 bhp, respectively.With exhaust ports now located in the side housing, the RENESIS boasted improved fuel efficiency and emissions rating over the 13B-REW employed by the preceding RX-7, thereby making it possible to be sold in North America. At launch, the RX-8 was available in various models in different markets around the world. The variations according to different markets are as follows:  6-speed manual with a claimed output of 232 bhp at 8,250 rpm and 159 lb⋅ft (216 Nm) of torque at 5,500 rpm with a 9,000 rpm (redline limited) (Sold in North America). This model was equivalent to the “Type S” trim in Japan;  5-speed manual with engine tuned to 189 bhp with the redline reduced to 7,500 rpm. This powertrain combination was not available in North America;  6-speed automatic with manual paddle shifting option (introduced in the U.S. for the 2006 model year, replacing the 4-speed automatic transmission of 2004–2005) with the engine rated at 212 bhp and 159 lb/ft (216 Nm) of torque with a redline at 7,500 rpm. This was the revised standard RENESIS, now with two extra intake ports like the high power version. The 2006 automatic RX-8 model also was given a second oil cooler, as was standard in the manual transmission model. Automatic versions all had lower output/lower rpm engines due to the lack of availability of a transmission that would be able to reliably cope with the engine’s high rpm limits. In 2003 Mazda announced a factory Mazdaspeed Version of the RX-8 exclusively in Japan. Based on the Type S and tuned by Mazda’s in-house division Mazdaspeed, the car included both mechanical, suspension, and aerodynamic improvements over the standard RX-8’s. Mazdaspeed RX-8’s were considered the highest performance model of the pre-facelift RX-8. Mechanical and suspension improvements included a new performance exhaust system, upgraded spark plugs, grounding kit, lightweight flywheel, re-balanced eccentric shaft, performance brake pads, stiffer anti roll bars, four point front strut tower brace, rear strut tower brace, as well as a set of height and damping force adjustable coil-overs. Mazdaspeed also redesigned the aerodynamics of the car, giving it a new front bumper, with enlarged venting and oil cooler ducting, as well as side skirts, rear under spoiler, and a rear wing. The Mazdaspeed RX-8 was offered in either Strato Blue Mica, or Sunlight Silver Metallic as exclusive colours. A total of 480 factory Mazdaspeed Version RX-8’s were built, and had a suggested retail price of JP¥3,650,000.00. Mazda also sold Mazdaspeed accessories worldwide through their dealerships. These accessories included both parts that weren’t equipped on factory Mazdaspeed RX-8’s as well as nearly all the parts equipped on the factory Mazdaspeed Version. This allowed standard RX-8’s to be upgraded to Mazdaspeed standards through dealerships around the world. In November 2008, Mazda improved the RX-8 body rigidity through the addition of structural reinforcements, by adding a trapezoidal shock tower brace and enhancing the local rigidity of the front suspension tower areas. The rear suspension geometry was revised for better handling, and the final-drive-gear ratio on manual transmission cars was shortened from 4.444 to 4.777 for improved off-the-line performance. While minimal, these changes gave the updated RX-8 increased acceleration and performance. Mazda engineers claimed that the 2nd generation RX-8 was (slightly) faster than the previous generation due to the lower gearing and improved suspension.[citation needed] The Renesis II engine iteration that was launched in the 2009 model year included a third oil injection port in each rotor housing to feed oil to the middle of the rotor facing, making this their first all-new EMOP (Electric Metering Oil Pump) with a total of 6 lubrication injectors, plus an all-new engine oil pump with higher pressure rating that requires specific oil filter rated for the higher pressure. New catalytic converter was used to reduce clogging that resulted in overheating exhaust stream forward of the catalytic converter and eventual rotor side seal failure, which was responsible for majority of RX-8 engine failures.[citation needed] Ignition coil packs, which suffer reduced performance over time and leads to unburnt fuel and oil that eventually clogs the catalytic converter, was not upgraded from series 1 RX-8. Due to higher usage cycle that is two to three times higher in Wankel compared to Otto cycle, ignition coil packs on RX-8 can degrade much sooner than Piston engines using similar hardware, and cause unburnt fuel to reach the catalytic converter, clogging it and cause engine overheating leading to side seal springs failure. The updated RX-8 also received design enhancements that were meant to freshen the styling and give the RX-8 a new look, without impairing the basic design theme. Refinements for the 2009 model year included a more aggressive restyled front and rear bumper as well as a new front fascia. The updated RX-8 also came with sporty, high-quality finish front and rear headlamps as well as larger exhaust pipes (now measuring 90 mm (3.5 in) across). The 2009 RX-8 also offered a new five-spoke wheel design featuring a symbolic and sporty design reminiscent of the rotary engine, with different arrangements for each wheel size. A rear spoiler was also added dependent on the trim level selected. There were three trims available to consumers from 2009 to 2012: Sport, Grand Touring, and R3. European production ended in 2010 when the car could no longer meet emissions standards.

MORRIS

The success of Ford’s Cortina did not pass unnoticed, and by 1968, when British Leyland was formed as a merger of BMC and British Motor Holdings and the new management realised that apart from the soon to be launched Maxi, there were no new models under development, it was decided to give priority to a mid-sized car that would replace the elderly Minor and Farina saloons and take the Ford head on in the quest for sales. Conceived,. designed and put into production in record quick time, of just 18 months, the Marina was launched in the spring of 1971. An utterly conventional car, with rear wheel drive, and simple proven mechanicals using the familiar A and B Series engines, the model was launched as a 2 door Coupe and 4 door Saloon. Unusually, the Coupe was cheaper than the Saloon, which should have given the Morris something of an advantage over the Dagenham rival, who charged quite a premium for a Capri over a Cortina. However, the Marina had one attribute which completely eluded the Ford, certainly in its more powerful guises: terminal understeer. It is understood that when the British press got the chance to drive the car some while before launch, they all complained bitterly about this and the dire consequences that could follow, but BL management assured them that this would be fixed for the production cars. It was not, and a usually loyal press struggled to contain their disappointment in what they wrote in early Road Tests. About 30,000 cars were built like this before a revised suspension design was deployed and gradually the early cars were tamed somewhat. This weakness not withstanding, the Marina quickly picked up sales, and although it hardly ever outsold the Cortina in any given month, it became a strong performer in the UK Sales Charts, all the more so when an Estate model was added to the range in the autumn of 1972. The Marina was only intended to have a short life, very much like contemporary Ford products which were replaced every 4 or so years, but by the mid 1970s, BL had run out of money and had to be rescued by the British Government. That meant that there were no funds for an all new car, so the proposed ADO77 replacement model was cancelled, and the Marina was simply facelifted in the autumn of 1975 to create the Series 2, with revised suspension, new seats, a new dash to create more room for the front passenger, and upgraded equipment levels and then updated again in the autumn of 1978 when the new 1700cc O Series engines were ready to replace the venerable B series unit. As the 70s went on, the Marina’s limitations in the face of more modern competition not just from Ford, but Vauxhall’s Cavalier, the Car of the Year winning hatchback Chrysler’s Alpine, a whole slew of Japanese rivals such as the Datsun Bluebird and Toyota Carina as well as the Renault R12 and VW Passat made life ever more difficult for the car, and it was only significant fleet sales from a sector which still largely held a “Buy British” policy and something of a fear of the costs of front wheel drive cars which kept the car earning money for its maker, and meant that when the model was replaced by the Ital in mid 1980, over 800,000 had been made. Since then, of course, the Marina has become the butt of many a joke, and famously has been destroyed several times by Top Gear. However, there are fans of the car, and a few hundred have still survived.

NISSAN

The very first generation of the 240SX can be divided into two distinct versions, both having the sporting advantage of rear wheel drive standard. Each of these variants came in two distinct body styles: hatchback, which was offered in both base and SE trim, LE trim, and coupe, which was offered in base, XE, LE and SE. Both styles shared the same front bodywork as the Japanese-market Nissan 180SX, featuring the sloping front with pop-up headlights. This bodywork distinguishes the coupe model from its Japanese-market counterpart, the Silvia, which featured fixed headlights. Both styles in all markets share the same chassis, and with few exceptions, most components and features are identical. The 240SX is a popular car in the sport of drifting due to its long wheelbase, low cost, ample power, light weight, well balanced chassis and abundant after-market support. 1989 and 1990 models are powered by a naturally aspirated 140 bhp, 152 lb/ft (206 Nm) 2,389 cc SOHC KA24E engine with 3 valves per cylinder (instead of the turbo-charged and intercooled 1.8-litre DOHC CA18DET offered in Japan and Europe in the 180SX and Silvia). Four-wheel disc brakes were standard, with antilock brakes available as an option on the SE. Both models were offered with either a 4-speed automatic or 5-speed manual transmission. “Coupes” offered a Heads-up display (HUD) with a digital speedometer as part of the optional Power Convenience Group. The 240SX received some updates in 1991. The matte silver, teardrop wheels were replaced by polished aluminium 7-spoke wheels that had better brake cooling properties but more drag. The nose was smoothed out by getting rid of the non-functional slots and gave back the aerodynamic efficiencies lost by the wheels. This gave the car an overhaul that included a minor update of the exterior and a new cylinder head. A new “LE” hatchback trim package was added that included leather interior. The SOHC KA24E was replaced by the DOHC KA24DE, now with 4 valves per cylinder, rated at 155 bhp at 5,600 rpm and 160 lb/ft (217 Nm) at 4,400 rpm of torque. An optional sports package including ABS, a limited slip differential, and Nissan’s HICAS four wheel steering was now available on hatchback models. The S13 was known for sharp steering and handling (thanks to front MacPherson struts and a rear multilink suspension) and relatively light weight (2700 lb) but was regarded in the automotive press as being underpowered. The engine, while durable and relatively torquey, was a heavy iron-block truck unit that produced meagre power for its relatively large size. It was only modestly improved by the change to the DOHC version in 1991. Furthermore, despite the modest power output, relatively low vehicle weight, and good aerodynamics, gas mileage was mediocre. These engines are the primary difference between the North American 240SX and the world-market Silvia/180SX/200SX. The KA24DE did not come turbocharged while the SR20DET did. The U.S. version was regarded as a highly capable sports car that only needed a better engine. Other differences include a standard limited slip differential on overseas and Canadian models, available digital climate control in Japan, and manual seat belts standard in Japan and Canada vs. automatic restraint seatbelts in America. In 1992, a convertible was added to the lineup and was exclusive to the North American market. These vehicles began life in Japan as coupes and were later modified in the California facilities of American Specialty Cars (ASC). For the 1994 model year, the only available 240SX was a Special Edition convertible equipped with an automatic transmission. The US 240SX convertible differed from the Japanese market version, in that the Japanese market model had a power top cover boot, whereas the US market model had manually installed boot cover once the top is down. It was also produced in Japan, rather than by ASC. A replacement model was launched in the autumn of 1994.

The R32 generation Skyline debuted in 1989 and  was available as either a 2-door coupe or 4-door hardtop sedan, all previous bodystyles were dropped. The R32 featured several versions of the RB-series straight-6 engines, which had improved heads (the twelve port inlet was gone) and used the ECCS (Electronically Concentrated Control System) injection system. Also available was an 1,800 cc 4-cylinder GXi model. Most models had HICAS four-wheel steering, with the rear wheels being hydraulically linked to the front steering. The 2.5-litre GTS-25 became one of the first Japanese production cars to feature a 5-speed automatic transmission. The GTS-t came in standard and Type M configurations, with the Type M having larger five-stud 16-inch wheels, four piston front callipers and twin piston rears plus other minor differences. ABS was optional (except for the GT-R and GTS-4), mechanical LSD was standard on the GTR and viscous LSD was standard on all turbo models and optional on all but the GXi. Nissan also produced 100 Australian models of the R32. In addition, there was a 4WD version of the GTS-t Type M, called the GTS-4. This generation was considered a “compact” under Japanese legislation that determined the amount of tax liability based on exterior dimensions. The smaller engines were offered so as to provide Japanese buyers the ability to choose which annual road tax obligation they were willing to pay. The station wagon bodystyle was discontinued, and replaced by the Nissan Stagea. 296,087 of these cars were sold in its five year production run.

This is an S15-generation Silvia, a car not sold new in the UK, though its predecessors had been, under the name 240SX. New in 1999, the engine of the S15 now boasting 250 PS (247 bhp) at 6,400 rpm and 275 Nm; 203 lb/ft at 4,800 rpm of torque from its SR20DET Inline-four engine, thanks to a ball bearing turbocharger upgrade, as well as improved engine management system. The non-turbo SR20DE produced 165 PS. The S15 Silvia included aggressive styling inside and out, updating the previous Silvia styling in-line with modern car design trends. The body dimensions were reduced from the previous generation so that it would comply with Japanese Government compact class, which had an effect on sales of the previous model. The S15 Silvia model lineup was initially simplified to just the Spec-S and Spec-R, both models offering an “Aero” variant with a large rear wing and side skirts/valances. This generation of the Silvia was only sold in Japan, Australia and New Zealand but was available as a grey import in most other countries. In Australia and New Zealand the car was sold as the Nissan 200SX. Within the Australian domestic market (AUDM), the S15 sold in 2 trim levels as noted above; Spec-S and Spec-R – however both models featured the SR20DET motor, albeit slightly detuned from the JDM spec cars. Nissan S15s were never officially sold with the naturally aspirated SR20DE engine in Australia or New Zealand. These two models were available at Nissan showrooms until the Nissan 200SX GT was introduced in 2002, the last year of production for the S15. Main differences here were namely the wheels being finished in a silver shadow chrome, chrome interior door handles, chrome gear selector surround, “sports” metal pedal set and an updated larger rear wing. As of August 2002, Nissan stopped producing the S platform with the S15-series Nissan Silvia being the final variant. Production of the Silvia ended amidst Nissan’s efforts to reduce its myriad of platforms. The S15 Silvia was therefore the last car to hold the Silvia badge. Nissan’s worldwide sports car platform is now the FM platform, which underpins the current Fairlady Z (the 350/370Z outside Japan), as well as the 2001–present Nissan Skyline (the Infiniti G35/37 in North America).

The Nissan 370Z (known as the Fairlady Z Z34 in Japan) is a 2-door, 2-seater sports car (S-segment in Europe) manufactured by Nissan Motor Company. It was announced on October 29, 2006, and was first shown at an event in Los Angeles ahead of the 2008 Greater LA Auto Show, before being officially unveiled at the show itself.  The 370Z is the sixth generation of the Nissan Z-car line, succeeding the 350Z. The 370Z marks the last production car with a naturally aspirated and high-rev V6 coupled to a manual transmission. Almost every piece and component of the 370Z has been redesigned from the previous 350Z. The wheelbase is 4 in (100 mm) shorter at 100.4 in (2,550 mm) and an overall length 2.7 in (69 mm) shorter at 167.1 in (4,240 mm). The overall width has been increased by 1.3 in (33 mm), the rear track by 2.2 in (56 mm), and overall height reduced by 0.3 in (7.6 mm). The smaller exterior dimensions and use of more lightweight materials helped reduce weight. The 370Z features a front aluminium subframe, aluminium-alloy engine cradle, aluminium door panels, an all-aluminium hood, and an aluminium hatch. Front body torsional rigidity is improved by 10 percent with an extensively revised body structure, which includes a new front suspension cradle to reduce front body lateral bending, new rear structural reinforcements, and an underbody “V-bar” to help reduce rear lateral bending. Rear body torsional rigidity is improved by up to 22 percent and rear body vertical bending rigidity is improved by up to 30 percent. Additional enhancements include the use of a carbon fibre composite radiator housing and strengthening of the rear fender and hatch areas. The new structure weighs slightly less than the 350Z. The 370Z uses a front double wishbone suspension, with forged aluminium control arms and steering knuckle. The rear multi-link suspension uses a forged aluminium upper control arm, lower arm and radius rod, the toe control rod is steel and wheel carrier assembly is aluminium. The refreshed 2013 model uses new dampers with the Sport package models. The brakes have been changed from the more expensive Brembo racing brakes to Nissan branded brakes which are manufactured by Akebono. The coefficient of drag is 0.30 and 0.29 with the Sport Package, figures identical to the 350Z. The Japanese model of the 370Z Coupe went on sale in December 1, 2008. The vehicle was unveiled in the 2008 Los Angeles Auto Show, with sales of the North American model beginning at Nissan dealers in early 2009. Standard and optional equipment includes 19-inch RAYS wheels, Bluetooth, Sirius/XM satellite radio, heated electric seats, viscous limited slip differential, Bose sound system with dual subwoofers and 6-CD changer, and automatic climate control. Deliveries of the European model began in April 2009. There was also an open-topped car, the 370Z Roadster  which went on sale in late summer 2009 as 2010 model year vehicle. Early models include the 370Z and 370Z Touring, with Sport Package and Navigation packages for the 370Z Touring. European models went on sale as 2010 model year vehicles. Although there were numerous limited edition models that followed, the car changed little over the next several years. The 2020 model year was the final model year for the 370Z. The line was continued by the Nissan Z (RZ34) on a modified version of the same platform.

The R35 generation of the GT-R was launched in 2007 with UK sales starting in 2009, and have only recently ceased. You used to see quite a lot of them at venues like this, but they are becoming rarer, not least because the price of the car got hiked massively as it evolved.

RENAULT

The first generation Mégane RS was introduced in September 2004 and is based on the Renault Mégane II small family car. The Mégane II RS was available in three-door and five-door hatchback versions, both with the same engine and was built at Renault’s Dieppe factory by using body shells made in Palencia, Spain. The Mégane Renault Sport 225 uses double-axis strut suspension with independent steering axis at the front and an electric power steering. The RS uses a turbocharged 2.0-litre petrol engine that produces 225 PS, allowing the car to achieve 0–100 km/h in 6.5 seconds (0–60 mph in 6.5  seconds), with a top speed of about 240 km/h (149 mph). Ninety percent of the engine’s torque is available from 2,000 rpm until redline. A twin-scroll turbocharger minimizes turbo lag, especially when throttle is applied at over 2,000 rpm. The turbocharge functions at 1,800 rpm. The transmission is a six-speed manual. Renault’s claimed combined economy is 8.8 L/100 km (32 mpg). The Mégane Renault Sport has a speed-limiter, which prevents the car from passing a user-determined speed. It can be disabled or recalled with a button-press, and is set in the same way as the cruise control. The Mégane RS is equipped with leather/cloth seats, seat belts with red stitching, 18-inch alloy wheels, dual sunroof, eight airbags and xenon headlights with headlight washers and Brembo brake discs. Other features include automatic double optic headlights, 18-inch alloy wheels, air conditioning, ABS with EBD and electronic stability control. The Lux models feature metallic paint, hands free Renault card, electronic folding mirrors, tyre pressure monitor, electronic front and rear windows, climate control, leather upholstery, 4x15W RDS radio with CD-MP3 player and 6 speakers, front carpet mats, electronic rear view mirror, rear spoiler (petrol engine models only) and 18-inch alloy wheels over the base model. Introduced in 2005, the Megane Renault Sport 225 Cup includes the Cup Chassis option, which adds drilled brake discs, red front and rear brake calipers and increased brake master cylinder diameter, different 18-inch wheels plus revised stiffened steering. Other features include carbon grey interior upholstery with silver stitching. The car is 10 kg (22 lb) lighter than the 225 Sport Hatch and has a gross weight of 1,790 kg (3,946 lb). The handling improvements featured on the Cup were made to the standard Mégane, beginning in late 2005. The Mégane RS received a facelift in July 2006. The facelifted model introduced new safety features and minor exterior changes such as new tapered headlights, a revised front grille and bumpers along with translucent taillights. The Megane Renault Sport 230 Renault F1 Team R26 is a version that commemorates the success of Renault in the Formula 1 World Championship with the 2005 and 2006 Constructors’ and Drivers’ Championship titles and is named after the 2006 F1 car (R26). It is based on the facelifted Mégane RS. The engine is rated at 227 hp at 5,500 rpm and 310 Nm (229 lb/ft) at 3,000 rpm. It incorporates the improved version of the Cup Chassis package now with a limited slip differential fitted for the first time in addition to 18-inch Anthracite spoked alloy wheels with Michelin Pilot Sport 2 235/40 R18 tyres, Brembo front and rear red brake calipers and an increased brake master cylinder diameter, plus revised stiffened steering. Other features include a sport exhaust, Recaro seats, climate control, 4×15-watt RDS radio single CD/MP3 player with 6 speakers, Renault F1 decals, numbered plaque, limited slip differential and a rear spoiler. The car weights 1,355 kg (2,987 lb) kerb, 1,820 kg (4,012 lb) gross. The Megane Renault Sport dCi 175 is a version with a 2.0-litre diesel engine. Engine is rated at 173 bhp at 3,750 rpm and 360 Nm (270 lb/ft) at 2,000 rpm. The Cup Chassis option (available for dCi 175 Lux) includes tyre pressure monitor deletion, 18-inch anthracite alloy wheels with 225/45R18 Continental SportContact 2 tires, retuned dampers and spring rates, disconnectable ESP and anthracite coloured door mirror housings. The Sport Hatch version includes Recaro front seats, and the vehicle is 20 kg (44 lb) lighter (1470 kg kerb, 1,875 kg (4,134 lb) gross). The R26.R is based on the Mégane Renault Sport 230 F1 Team R26, but it is 123 kg (271 lb) lighter. Weight reduction is achieved via the removal of the rear seats and seat belts, passenger airbag and curtain airbags (the driver’s airbag remains), climate control (air conditioning remains as standard), rear wash/wipe and heated rear window, front fog lamps, headlamp washers, radio/CD player and most of the soundproofing. Other features include a carbon fibre bonnet, polycarbonate tailgate and rear side windows, Sabelt seats with carbon fibre shell and aluminium base, 6-point harnesses, a rear spoiler, optional roll cage and an optional titanium exhaust. New parts include new front springs (14 mm/100 kg), new rear springs (16.2 mm/100 kg), recalibrated shock absorber settings, grooved brake discs, new alloy wheels are fitted with a different offset increasing the track by 4 mm (0.2 in), optional Toyo Proxes R888 225/40R18 tyres (Michelin Pilot Sport 2 235/40R18 standard) and stiffer lower arm bushes. The car was unveiled at the 2008 British International Motor Show and went on sale in October 2008 at just under £23,000. 450 vehicles were made with 230 destined for the UK market though Renault struggled to sell them all and some were returned to France.

It did not take Renault long to add an RS version to their 3rd generation Megane range. debuting the car at the 2009 Geneva Show. This new Megane Renault Sport 250 included a 2.0litre twin-scroll turbo 4-cylinder F4Rt engine rated at 250 PS (247 bhp) at 5500 rpm and 340 Nm (251 lb/ft) at 3000 rpm with a 6-speed manual gearbox, Brembo front brakes, front splitter, extended sills and wheel arches, rear diffuser with central exhaust pipe, and 18-inch alloy wheels wearing 225/40R18 tyres. Aluminium pedals, a Renault Sport steering wheel with thumb grips, analog rev counter and sport seats with extra lateral support dress up the cabin. Other features include front LED daytime running lights and bi-xenon headlights. The 250 Cup variant contains a number of sharpened performance features including a stiffer chassis, track focused suspension, a limited slip differential and a slightly lighter gross weight. The Cup is differentiated visually with painted red brake calipers, instead of the silver calipers for the normal Sport. 18×8.25″ “Ax-l” alloy wheels are fitted with wider 235/40R18 tyres, while 19×8.25″ “Steev” wheels were available as an option with 235/35R19 tyres. In June 2011 Renault Sport revealed a limited edition 265 PS (261 bhp)  version of the Mégane III called the Mégane R.S. Trophy. The Megane R.S. Trophy uses the same 2.0 four-cylinder as the standard 250 PS R.S. but thanks to modifications such as a new air intake and higher turbo pressure it gains an extra 15 hp, increasing the power output to 265 PS. It reaches 0–62 mph in six seconds flat and goes on to a top speed of 254 km/h (157 mph). It is recognizable thanks to model-specific decoration such as Trophy stickers on the doors, a new spoiler and specific 19″ rims with R.S. centre caps. It comes in a model-specific metallic yellow (Jaune Sirius) but is also available in more low-key colours such as white (Blanc Glacier), black (Noir Étoilé) and grey (Gris Cassiopée). Production was limited to 500 examples. In 2012, the Megane R.S. adopted the updated engine from the Trophy version with 265 PS (261 HP) and offers the same “Cup” and “Sport” versions like the previous 250 PS (247 HP) model. Changes include Piano Black interior highlights and wider LED daytime running lights with 6 LEDs per side rather than the 3 LEDs found in the RS250. The 18″ wheels were changed to a new design called “Tibor”, while the 19″ wheels carried over from the 250. Extreme Blue and Sport Yellow were dropped as colour options. In Australia, the Cup and Cup Trophée models were replaced with the Cup, Cup+ and Trophy+ with slightly more flexible specification levels.

SUBARU

Now heading towards 30 years old are the first generation Impreza Turbo models. There have been seven noted versions of the WRX dating back from Subaru’s original World Rally Cross staging vehicles. Subaru adopted the name “WRX” to stand for “World Rally eXperimental” as all WRX versions (1992 to present) feature rally inspired technology, including all wheel drive, stiffened suspensions and turbocharged four cylinder engines. The STi versions were marketed with consecutive numbers. Another way to determine the version of a WRX was to look at the chassis code. All WRX sold between 1992 and 2000 have the beginning chassis code of GC8 2/4 door sedan or GF8 hatchback; this is followed by a letter from A to G. Coupe versions share the “GC” code with sedans, except in the US, where they have a separate chassis code of “GM”. In 1994, Subaru introduced Subaru Tecnica International (STi badged) versions of the WRX in Japan. These models were upgraded from the standard WRX in many categories, including blueprinted performance-tuned engines, transmissions, and suspensions. The STi versions of the WRX were immensely successful in rallies and popular among street racers but were only sold in the Japanese market. Compared to the WRX, the STi had mostly mechanical modifications. (STi prepped Subaru rally cars since 1988 including the Legacy RS, the WRX STi Version was just the first car with an actual STi badge, though with handcrafted tuning). The WRX debuted in November 1992 with 240 PS. The centre differential was a viscous coupling type, the rear limited slip differential was a viscous type. The WRX Type RA is a stripped down version of the WRX that was available in the Japanese market for people to purchase for motorsports and tuning. Targeted for race and rally, the RA versions were generally lighter in weight; featuring reduced soundproofing, manual windows, car horn delete, no air conditioning, no anti-lock brakes, and added racing features such as more robust engines, 5th injection, intercooler water spray and shorter gearing. The WRX Type RA uses a closer ratio gearbox and a three-spoke leather steering wheel from Nardi. The ra model chassis code between GC8-(000000 to 005000) are only sold to the race team by order. Close ratio transmission is anticipated race use, the gap between each gear is brought closer together and a specific close ratio transmission is used. In Europe, the WRX was introduced as the Impreza GT, and as the Impreza Turbo 2000 (UK). It came with 208 hp. A bewildering array of different versions would follow until the release of the second generation Impreza in 2000.

This is a P1 version of the first generation Impreza. To counter the grey imports of high-performance Japanese variants, Subaru UK commissioned Prodrive to produce a limited edition of 1,000 two-door cars in Sonic Blue, called the WRX “P1”. Released in March 2000, they were taken from the STI Type R lines and used for the P1. The car was the only coupé version of the WRX STI GC chassis to receive ABS. In order to allow for ABS, the DCCD was dropped. Engine output was boosted to 276 bhp, and the suspension optimised for British roads. Options were available from Subaru consisting of four-piston front brake calipers, electric Recaro seats, 18-inch wheels and a P1 stamped backbox. The P1, or Prodrive One, is echoed in the name of the Prodrive P2 concept car. They are among the most sought after of all Subaru Impreza models now.

Subaru introduced the “New Age” Impreza, the second generation car, to Japan in August 2000, and it arrived in Europe towards the end of that year. Larger in size compared to the previous iteration, the sedan increased its width by 40 millimetres (1.6 in), while the wagon notably increased by just 5 millimetres (0.2 in)—placing the two variants in different Japanese classification categories. The coupe body style from the first generation did not reappear for the new series, and the off-road appearance package that included contrasting-coloured bumpers did carry over forward. Marketed as a separate model line, this North America-only variant was, as before, badged the Outback Sport. Naturally aspirated flat-four (boxer) engines comprised the 1.5-litre EJ15, the 1.6-litre EJ16, the 2.0-litre EJ20, and the 2.5-litre EJ25. Turbocharged versions of the 2.0- and 2.5-litre engines were offered in the WRX and WRX STI models. STI models featured a more powerful 2.0-litre (2.5-litre outside of the Japanese market) turbocharged engine. WRX models featured a 2.0-litre turbocharged boxer engine until 2005, after which they switched to the 2.5-litre turbocharged engine. As with the first generation, the turbocharged STI variants were available in numerous specifications with a myriad of limited edition variants sold. The bug-eyed styling was not well received, and Subaru had two further attempts at the front end, neither of which was entirely successful, either, but enthusiasts were happy to overlook the gawky looks because the way the car drove. Subaru issued yearly updates to the STI, tweaking cosmetics and equipment levels, and also improving performance and handling. The car was replaced in 2007 by the third generation Impreza, widely regarded as inferior in many ways to this version.

SUZUKI

The Cappuccino was a tiny Japanese sports car that found a small niche when offered to UK buyers. Designed to meet the Kei car specifications for lower tax and insurance in Japan, this tiny front mid-engined machine weighed just 725 kg and took its power from a turbocharged, three-cylinder, 12 valve 657 cc DOHC engine which generated 63 bhp. Its dimensions also conformed to Kei car regulations on length and width, being 3,295 mm (129.7 in) long and 1,395 mm (54.9 in) wide. Three removable roof panels meant that the car can be used as a closed coupé; T-top; targa; or, on retraction of the rear window and roll bar, a full convertible. Roof panels stowed in the boot, taking almost all the luggage space), and the rear window/rollcage assembly retracts into the body behind the seats. Unlike many convertibles of the time, the rear window is glass and wraparound, with demisting elements. Production began in 1991 and ceased in 1997. Suzuki UK decided that they wanted to sell the car, and it took 18 months of negotiation and technical co-operation between the Suzuki Motor Corporation and Suzuki GB to get the Cappuccino type approved and homologated for the UK market, with 23 adaptations to the Japanese Cappuccino. Finally, in October 1992 the Cappuccino had its first public viewing outside Japan, at the British International Motor Show. At the show, the Cappuccino won two prestigious IBCAM Design awards: “best sportscar under £20,000” and “best car of the show”. In October 1993 the Cappuccino was officially launched in the UK with a price of £11,995. Due to the car’s initial success in Japan, and the tight import quota of Japanese products to the UK, the original allocation of 1,500 cars was cut to 1,182. Such limited quantities dictated a streamlined colour choice: red and silver in the ratio 80:20. Between 1993–95 a total of 1,110 cars were registered in the UK, with the balance sold to other Suzuki distributors across Europe: Germany, France, the Netherlands and Sweden.

TOYOTA

The Starlet Glanza is the sports version of the P90 generation Starlet, and is the successor to the 80 series naturally aspirated Starlet 1.3 Gi and Starlet GT Turbo. The Glanza S was powered by the naturally aspirated 1331 cc 4E-FE and the Glanza V was powered by the turbocharged 1331 cc 4E-FTE. The 4E-FE used in the Glanza S generated 85 PS (84 bhp) which, for the extremely light Starlet, was enough to propel the car from 0–100 km/h in 11.9 seconds. The turbo 4E-FTE used in the Glanza V generated 140 PS (138 bhp) at 6400 rpm with a 0–100 km/h time of 8.2 seconds (factory brochure stats). In December 1996, the Glanza S Limited was released. It has standard body kits same as Glanza V Turbo except the scooped-hood and the engine did not have a Turbo. A lightweight version of the Glanza V was also available without air conditioner and electric windows to keep the car as light as possible, being intended for competitive usage. The Glanza S and Glanza V were only officially available on the Japanese market, although some used private imports made their way to the UK, New Zealand, and many other right-hand drive markets.

This is an example of the sixth, and penultimate generation Celica. Launched in October 1993, the styling of this version was quite different from the car it replaced. Initially it was offered in  notchback coupe or liftback form, with a convertible coming later, though the 2 door Coupe was not sold in the UK. ST and GT trims were offered, with the former using a new 1.8 litre 4 cylinder engine and the latter using the larger 2.2 litre that had been in its predecessor. There was also a GT-Four version, the most  powerful Celica to date, which produced 239 hp in export versions from an updated 3S-GTE engine. Influenced strongly by Toyota Team Europe, Toyota’s factory team in the World Rally Championship, the final version of the GT-Four included improvements such as an all-aluminium bonnet to save weight, four-channel ABS (with G-force sensor), an improved turbocharger (incorrectly known by enthusiasts as the CT20B), and Super Strut Suspension. The 2500 homologation cars built to allow Toyota to enter the GT-Four as a Group A car in the World Rally Championship also sported extras such as all of the plumbing required to activate an anti-lag system, a water spray bar for the Intercooler’s front heat exchanger, a water injection system for detonation protection, a hood spoiler mounted in front of the windscreen to stop hood flex at high speed and the standard rear spoiler mounted on riser blocks. The car proved to be quite competitive in the 1995 World Championship. However, the team was banned from competition for a year after the car’s single victory due to turbocharger fixing – a device that meant there was no air path restriction on the intake – when the jubilee clip was undone this would flick back into place so as to go un-noticed by inspectors. Toyota has always claimed that they knew nothing of the fix – but opponents say it was one very cleverly engineered device. In some respects this car was a true sports car; in order to qualify for rallying it has a lot of special features and a unique strut arrangement. A minor facelift was applied for 1996, with new bumpers, a smaller air dam and revised rear spoiler. This version of the Celica was replaced in 1999 by the last car to bear the name.

This Supra is from the fourth generation of the model, known as the A80. Design work began in February 1989 under various teams for design, product planning, and engineering. By the middle of 1990, a final A80 design concept from Toyota Technical Centre Aichi was approved and frozen for production in late 1990. The first test mules were hand-built in A70 bodies during late 1990, followed by the first A80 prototypes being hand-assembled in 1991. Again using subframe, suspension, and drivetrain assemblies from the Z30 Soarer (Lexus SC300/400), test model pre-production started in December 1992 with 20 models, and official mass production began in April 1993.  This redesign saw Toyota placing great emphasis on a more serious high-performance car. The new Supra was completely redesigned, with rounded body styling and featured two new engines: a naturally aspirated Toyota 2JZ-GE producing 220 hp at 5800 rpm and 210 lb/ft at 4800 rpm of torque and a twin turbocharged Toyota 2JZ-GTE making 276 hp and 318 lb·ft of torque for the Japanese version. The styling, while modern, does seem to borrow some elements from Toyota’s first grand touring sports car, the Toyota 2000GT. For the export model (America/Europe) Toyota upgraded the Supra turbo’s engine which increased the power output to 320 hp at 5600 rpm and 315 lb/ft at 4000 rpm. The turbocharged variant could achieve 0–60 mph in as low as 4.6 seconds and 1/4-mile in 13.1 seconds at 109 mph. The turbo version was tested to reach over 285 km/h (177 mph), but the cars were restricted to just 180 km/h (112 mph) in Japan and 250 km/h (155 mph) elsewhere. The twin turbos operated in sequential mode, not parallel. Initially, all of the exhaust is routed to the first turbine for reduced lag. This resulted in boost and enhanced torque as early as 1800 rpm, where it already produced 300 lb/ft (410 Nm) of torque. At 3500 rpm, some of the exhaust is routed to the second turbine for a “pre-boost” mode, although none of the compressor output is used by the engine at this point. At 4000 rpm, the second turbo’s output is used to augment the first turbo’s output. Compared to the parallel mode, sequential mode turbos provide quicker low RPM response and increased high RPM boost. This high RPM boost was also aided with technology originally present in the 7M-GE in the form of the Acoustic Control Induction System (ACIS) which is a way of managing the air compression pulses within the intake piping as to increase power. For this generation, the Supra received a new 6-speed Getrag/Toyota V160 gearbox on the turbo models while the naturally aspirated models made do with a 5-speed manual W58, revised from the previous version. Each model was offered with a 4-speed automatic with manual shifting mode. All vehicles were equipped with 5-spoke aluminium alloy wheels, the naturally aspirated model had 16″ rims and the turbo models were 17″. The difference in wheel size was to accommodate the larger brakes equipped as standard onto the turbo model, but in Japan were optional extras. Both models had a space saver spare tire on a steel rim to save both space and weight. Toyota took measures to reduce the weight of this new model. Aluminium was used for the hood, targa top (when fitted), front crossmember, oil and transmission pans, and the suspension upper A-arms. Other measures included hollow carpet fibres, magnesium-alloy steering wheel, plastic gas tank and lid, gas injected rear spoiler, and a single pipe exhaust. Despite having more features such as dual airbags, traction control, larger brakes, wheels, tyres, and an additional turbo, the car was at least 200 lb lighter than its predecessor. The base model with a manual transmission had a curb weight of 3,210 lb (1,460 kg). The Sport Roof added 40 lb while the automatic transmission added 55 lb. It had a 51:49 (front:rear) weight distribution. The turbo model weighed 3,450 lb (1,560 kg) for the manual, automatic added another 10 lb (4.5 kg). Weight distribution was 53% front/47% rear. The Supra was heavier than the spartan Mazda RX-7 and all aluminium bodied Acura/Honda NSX, but it was lighter than the Mitsubishi 3000GT VR-4. The Supra soon became something of a legend, establishing itself as an effective platform for drifting in Japan, and for roadracing, with several top 20 and top 10 One Lap of America finishes in the SSGT1 class. Despite its curb weight, in 1994 the A80 managed remarkable skidpad ratings of 0.95 lateral g’s (200 ft) and 0.98 lateral g’s (300 ft), and the car has proved popular even as it ages in the UK, with several “grey market” cars having been brought here over the years.

The third-generation MR2 was marketed as the Toyota MR-S in Japan, Toyota MR2 Spyder in the US, and the Toyota MR2 Roadster in Europe. Also known as the Midship Runabout-Sports, the newest MR2 took a different approach than its predecessor, most obviously becoming a convertible and receiving the ‘Spyder’ marketing nomenclature. The first prototype of MR-S appeared in 1997 at the Tokyo Motor Show. The MR2 Spyder chief engineer Harunori Shiratori said, “First, we wanted true driver enjoyment, blending good movement, low inertia and light weight. Then, a long wheelbase to achieve high stability and fresh new styling; a mid-engine design to create excellent handling and steering without the weight of the engine up front; a body structure as simple as possible to allow for easy customizing, and low cost to the consumer.” The only engine available for the ZZW30 was the all-aluminium alloy 1ZZ-FED, a 1.8 litre Inline-four engine. Like its predecessors, it used DOHC and 4 valves per cylinder. The intake camshaft timing was adjustable via the VVT-i system, which was introduced earlier on the 1998 MR2 in some markets. Unlike its predecessors, however, the engine was placed onto the car the other way round, with the exhaust manifold towards the rear of the car instead of towards the front. The maximum power of 138 bhp at 6,400 rpm and 126 lb/ft (171 Nm) of torque at 4,400 rpm was quite a drop from the previous generation, but thanks to the lightness of the car it could still move quite quickly, accelerating from 0 to 100 km/h (62 mph) in 6.8 to 8.7 seconds depending on the transmission option, the Sequential Manual being unable to launch and shift as quickly as the clutch operated manual. Curb weight is 996 kg (2,195 lb) for manual transmission models. In addition to the 5-speed manual transmission, a 6-speed manual or 5-speed Sequential Manual Transmission (SMT) was also available starting in 2002. The SMT was a standard feature in Australian market; however, air conditioning was optional. After 2003, a 6-speed SMT was an option. The SMT had no conventional H-pattern shift lever or clutch pedal. The driver could shift gears by tapping the shift lever forward or backward or by pressing steering-wheel mounted buttons. Clutch engagement is automatic, and the car will automatically shift to second and then first gear when stopping. Cruise control was never offered with the manual transmission, but was standard for SMT-equipped cars. The MR2 Spyder featured a heated glass rear window. A hard top was also available from Toyota in Japan and Europe. Production ended in 2007 and there was no direct successor.

Needless to say, there were a number of examples of the Yaris GR here.

VAUXHALL

This is an Astra VXR Nurburgring Edition. Launched in 2008, this car cost over £1500 more than the standard – and already excellent – VXR. The changes seem limited to some new wheels and tyres, another 15bhp and endless Nurburgring badging that reflects the obsession that carmakers – and some car magazines – have with the lengthy, lethal German racetrack. It is readily identifiable from the distinctive graphics, in the form of a chequered flag that runs from nose to tail. Otherwise, Nurburgring branding abounds; it’s on the fake carbon kickplates as you get in, it’s stitched into the headrests of the excellent (and all-leather in this case) Recaros, it’s on the fascia and on the numbered plaque that reminds you that your car is one of a limited run of 835. Might have been useful if one of the circuit graphics had included pace notes and the location of medical help for novices. But it was more than a sticker-job. There was a new Remus exhaust tuned by Vauxhall’s touring-car team Triple Eight which releases another 15bhp, but as it’s essentially an aftermarket conversion Vauxhall can’t quote official new performance or torque figures. There’s a slightly wider track and new white wheels and Dunlop tyres, which cut unsprung weight by an impressive 3kg per corner, which ought to aid ride and handling.

VOLKSWAGEN

At the Frankfurt Motor Show in September 2007, Volkswagen launched the ‘R Line’ R36, created by Volkswagen Individual GmbH. The R36 uses a 3.6 litre VR6 engine rated 296 bhp (300 PS) and 350 Nm (258 lb/ft) of torque, which pushes the saloon and Variant (estate/wagon) to 100 km/h (62.1 mph) in 5.6 and 5.8 seconds respectively. The name “R36″ is derived from the engine displacement, 3.6-litres. The R36 features redesigned front and rear spoilers, four wheel drive, DSG gearbox with paddleshift on the flat-bottom steering wheel, 18” Omanyt aluminium alloy wheels, 20 mm (0.8 in) lowered suspension, ‘R’ engraved stainless steel pedals, Recaro seats with R36 logo, heated front and rear seats, Bi-Xenon headlights with cornering function, and twin rear muffler tailpipes. There was a very long wait for the car to reach the UK market, and it was not that well received by the press. Sales were low and the car was quietly withdrawn when the range underwent a significant update for 2012. So to see two here was definitely something that does not happen very often.

I’ve certainly been to this venue many times when there have been both more cars and more interesting cars here, but part of the charm of Caffeine & Machine is that you never know just what will be onsite, as people come and go, within the limits of the ticketing system where that has to cut in to ensure space for everyone site. For sure the weather probably was something of a discouragement and it also seems to be true that afternoons can be quieter than weekend mornings or evenings, too. Even so, I enjoyed my time here and was pleased that I ad stopped by rather than just heading up to my evening hotel accommodation. I am sure I will be back before very long.