It’s probably a measure of just ow busy I have been attending a huge variety of other car events that this is only the third visit to the iconic Caffeine & Machine in 2024. There are now three of them, and I have yet to visit either of the two that have opened more recently, as they are both further away from home, but accessing the one that they now call “The Hill” is easy as it is not that far away and it is also right in the middle of the country, so can form a convenient stop-off point when the ultimate destination is actually somewhere else. And that was the case on this occasion. I was headed to Mallary Park, in readiness for the 2024 version of Abarth Festival, which will feature in its own report, of course, but as we could not have access to the site for set-up activities until 5pm in the evening on the day before the Big Event, that left ample time to stop off at Caffeine & Machine to see some cars, and take advantage of some pleasant summery weather. You still need to select a 3 hour slot when booking your ticket, but you choose it to suite your availability rather than everyone picking the same now, so that means that there is an almost constant coming and going of cars, which adds a lot of interest and means it can be quite hard to sit still for long whilst waiting for food to arrive. Afternoons tend to be a little less busy than mornings, and whilst that was the case here, there were was still more than enough for me to look at before I had to head off. Here are the notable cars from my point of view.

ABARTH

Slightly surprisingly, there was only one Abarth here – mine. Perhaps everyone else was busy cleaning their cars, ready for the big Anniversario Abarth 75 event that was taking place the day after this visit? This time there were three Abarths present, including mine. Rumours started to circulate towards the end of 2014 that Abarth were going to upgrade the Competizione model, so as better to bridge the gap between the Turismo and the 190 bhp 695 Biposto that had been added to the range earlier in the year. It was Geneva 2015 when the result was finally shown to an expectant fan base. Most exciting news was that thanks to a bigger Garrett Turbo, the engine had been tweaked to 180 bhp, and with reduced CO2 emissions. A standard spec that included Koni Dampers, Brembo brakes, Xenon lights, Sabelt seats, Climate Control, parking sensors as well as other refinements that had been added like the TFT instrument display all proved very compelling, so not long after the first cars reached the UK  in June of 2015, I found temptation too hard to resist, and as is well documented here, swapped my 2010 car for one of these. At the time I ordered it, Cordolo Red, a tri-coat pearlescent paint which shimmers in bright sunlight looked set to become one of the most popular colours of the lot, even though it is a cost option. Indeed, the Launch Edition models were all offered either in this colour or Scorpion Black, with black wheels. Surprisingly, the colour was not carried over to the Series 4 cars.

AUDI

Sole Audi of note was this example of the still current RS5 Sportback.

AUSTIN

There was a nice example of the popular Seven here. Herbert Austin’s masterpiece which did much to put Britain on wheels in the 1920s was first seen  in 1922, as a four seat open tourer. Nicknamed Chummy, the first 100 featured a 696cc four cylinder engine, which was quickly upgraded to the 747cc unit that remained until the end of production some 17 years later. The first cars had an upright edge to the doors and a sloping windscreen, but from 1924, the screen became upright and there was a sloping edge to the doors, as well as a slightly longer body. Stronger brakes came along in 1926, along with a slightly taller nickel-plated radiator grille, conventional coil ignition, a more spacious body and wider doors. An even longer and wider body arrived in 1930, as well as a stronger crankshaft and improvements to the brakes which coupled front and rear systems together so they both worked by the footbrake. In 1931 the body was restyled , with a thin ribbon-style radiator and by 1932 there was a four speed gearbox to replace the earlier three-speeder. 1933 saw the introduction of the Ruby, a car that looked more modern with its cowled radiator. There were also Pearl and Opal versions. Development continued, so in 1937 there was a move to crankshaft shell bearings in place of the white metal previously used, and the Big Seven appeared. The last Seven was made in 1939, by which time 290,000 had been produced. Aside from saloons and tourers, there had been vans and sports derivatives like the Le Mans, the supercharged Ulster and the rather cheaper Nippy. Around 11,000 Sevens survive today.

BMW

The first car to bear the 6 Series nomenclature was the E24, which was launched in 1976, as a replacement for the E9 model 3.0 CS and CSL coupés first produced in 1965. The 3.0 CS was almost changed by adding a few centimeters in height to make it easier for customers to get into the car. However, Bob Lutz rebelled against the decision and rough drafted an alternative version that soon became the 6 series. Production started in March 1976 with two models: the 630 CS and 633 CSi. Originally the bodies were manufactured by Karmann, but production was later taken in-house to BMW. In July 1978 a more powerful variant, the 635 CSi, was introduced that featured as standard a special close-ratio 5-speed gearbox and a single piece black rear spoiler. The bigger bore and shorter stroke facilitated max 218 hp at 5200rpm and a better torque curve. For the first year, the 635 CSi was offered in three colours (Polaris, Henna Red, Graphite), and could also be spotted by the front air dam that did not have attached fog lights. These simple cosmetic changes reportedly worked to reduce uplift on the car at high speeds by almost 15% over the non-spoiler body shape. This early model shared suspension components with the inaugural BMW 5-series, the E12. In 1979 the carburettor 630 CS was replaced with the 628 CSi with its fuel injected 2.8 litre engine taken from the BMW 528i. In 1980 the 635 CSi gained the central locking system that is also controlled from the boot. Also, the E24 body style converted from L-jetronic injection to a Bosch Motronic DME. In 1982 (Europe) and 1983 (US), the E24 changed slightly in appearance, with an improved interior and slightly modified exterior. At the same time, the 635 CSi received a new engine, a slightly smaller-bored and longer-stroked 3430 cc six to replace the former 3453 cc engine and became available with a wide-ratio 5-speed manual or an automatic. This slight change was in fact a major change as pre-1982 cars were based on the E12 5-series chassis; after mid-1982, E24s shared the improved E28 5-series chassis. The only parts that remained the same were some of the exterior body panels. E24s produced after June 1987 came with new, ellipsoid headlamps which projects beam more directly onto road surface (newly introduced E32 7-series also sporting them). The sleeker European bumpers were also discontinued. Previous cars had either a European-standard bumper or a larger, reinforced bumper to meet the US standard requiring bumpers to withstand impact at 5 mph without damage to safety-related components. 1989 was the last year for the E24 with production stopping in April. The E24 was supplanted by the considerably heavier, more complex, and more exclusive 8 Series. BMW Motorsport introduced the M 635 CSi in Europe at the Frankfurt Motor Show in 1983. It is essentially an E24 powered by the powerplant of the BMW M1 – the M88 with 286 PS). Most of the cars were equipped with special metric 415 mm diameter wheels requiring Michelin TRX tyres. A catalysed, lower compression ratio version of the car with the S38 engine (260 PS) was introduced in the U.S. in 1987. All M6 cars came standard with a 25% rear limited slip differential. U.S. models included additional comforts that were usually optional on models sold in Europe such as Nappa leather power seats and a dedicated rear A/C unit with a centre beverage chiller.  4,088 M635CSi cars were built between 1983 and 1988 with 1,767 U.S. bound, badges as the M6.

There was also an examples of the latest and rather blocky-looking  M2.

CITROEN

Development of the AX started in 1983, and was initially also going to form the basis of a sister model from Talbot to replace the Samba; however, the falling popularity of the Talbot brand – coupled with the huge success of the new Peugeot 205 – had led to Peugeot deciding to axe it by the time the Citroën AX was launched, and so the Talbot version never made it into production. The car was available on the left-hand drive continental markets from its launch on 2 October 1986, as a three-door hatchback with 1.0, 1.1 and 1.4-litre TU-series belt driven OHC engines. A range of five-door models was added in 1987 and a 1.4 litre diesel engine was introduced in 1988. The latter was replaced by a 1.5 litre unit in September 1994. The right-hand drive version for the UK market was launched in August 1987, initially only as a three-door hatchback, with a five-door version joining the range a year later, effectively replacing the five-door Citroën Visa, which was discontinued that year. With the final demise of the classic Citroën 2CV in 1990, the AX became the smallest model in the Citroën range. The very earliest cars had an issue with gear shifters falling off; this was rectified by the time the AX reached export markets. It was initially backed by a memorable television advertising campaign filmed in China, starring actress Janet Mas and an elderly gentleman, whose character was simply known as Mr. Wong. The car was very economical, largely because of excellent aerodynamics for its class of car (drag coefficient of 0.31) and a very light weight of 640 kg (1,411 lb) for the basic version. This was due to the extensive use of plastic panels in non-load bearing areas and varying the thicknesses of steel in the bodyshell to be the minimum needed to take required loads. Another target for the engineers was lowering friction in the engines. The AX has fully independent suspension with unusually long wheel travel. It also optionally used self-coloured plastic bumpers. This technology came from the PSA Peugeot-Citroën / Renault / French government ECO 2000 project. The production version was much more conservative than the original ‘one box’ design prototype, that was closer to the Eco 2000 styling after negative reactions in focus groups. The “one-box” city car eventually came to market with the Renault Twingo, launched in 1992. In 1989, a naturally aspirated diesel AX, using the 1360 cc all aluminium alloy TUD engine, managed a figure of 2.7 litres/100 km (100 mpg), totalling over 1,000 miles from Dover to Barcelona. This was the longest ever distance travelled on 10 gallons of fuel and earned it a place in the Guinness Book of Records as the most economical production car. Also available was a 4×4 variant, but with limited success when compared to the rival Fiat Panda 4×4. The AX 4×4 was only available with five doors and was not sold in the United Kingdom. The first performance version was the limited-run AX Sport from 1987, with a 1.3 engine and twin carburettors producing 95 bhp, wearing iconic white steel wheels (5,5″ x 13″) which resembled those on its brother, the Peugeot 205 Rallye. The AX Sport used Solex ADDHE 40 carburettors until late 1988 and was then replaced with Weber DCOM 40s, just like the 205 Rallye 1,3. The AX Sport had a shorter inlet manifold than the 205 Rallye, to save room in the smaller engine compartment. In phase 2 guise the Sport was available in other colours and with optional GT wheels and rear spoiler. Later, the AX 14GT, with a single-carburettor 85 bhp 1.4 engine also found in the Peugeot 205 XS, was introduced. From 1991, this model utilised fuel injection to coincide with the revamp of the entire range and to coincide with tougher 1992 EU emission regulations that introduced exhaust catalytic converters. Late 1991 saw the range revised, with a heavily facelifted tailgate and interior being the most notable changes. The front turn signals were now clear, and the Citroën logo was moved to the centre of the bonnet. The much maligned dashboard was replaced by a more conservative design. The following year saw the introduction of the most powerful AX variant, the 100 bhp GTi. The GT was sold alongside the GTi for a few months, but was eventually phased out. New models were also introduced, such as the Forte, Spree, Elation and Dimension. In January 1995, the Citroën AX Echo was launched, with a top speed of 110 mph (180 km/h). Its closest competitor, the Peugeot 106 Ski, (that shared components with the AX), was outsold by the Echo. From June 1996, following the introduction of the Saxo, the range was slimmed-down, with production of the AX ending in December 1998, after a 12-year production

FERRARI

Produced alongside the 308/328 GTB and GTS models was the Mondial, and there were a couple of examples of the car on show. Produced by Ferrari from 1980 through 1993, it replaced the 208/308 GT4. The “Mondial” name came from Ferrari’s history — the 500 Mondial race car of the early 1950s. Despite its predecessor being Bertone styled, the Mondial saw Ferrari return to Pininfarina for styling. Sold as a mid-sized coupe and, eventually a cabriolet, it was conceived as a ‘usable’ model, offering the practicality of four seats and the performance of a Ferrari. The car had a slightly higher roofline than its stablemates, with a single long door either side, offering easy access and good interior space, reasonable rear legroom while all-round visibility was excellent. The cabriolets also hold the distinction of being the only production automobile in history that has four seats, is rear mid-engined, and is a full convertible. The car body was not built as a monocoque in the same way as a conventional car. The steel outer body produced by the famous Italian coachbuilder Carrozzeria Scaglietti, in nearby Modena, was  built over a lightweight steel box-section space frame. The engine cover and rear luggage compartment lids are in light alloy. The seats and interior were trimmed in Connolly hide, contrasting with the body colour. Most cars were painted rosso red, but some were black or silver, and a few were dark blue. The Mondial was the first Ferrari car where the entire engine/gearbox/rear suspension assembly is on a detachable steel subframe. This design made engine removal for a major rebuild or cylinder head removal much easier than it was on previous models. Unusually, the handbrake is situated between the driver’s seat and the inner sill. Once the handbrake is set it drops down so as, not to impede egress and ingress. Instead of the conventional “H” shift pattern, the gearbox has 1st gear situated in a “dog leg” to the left and back, behind reverse. This pattern, otherwise known as a “reverse h-gate”, allows quicker gear shifts between 2nd and 3rd gear, and also between 4th and 5th. The Mondial underwent many updates throughout production. There were four distinct iterations (8, QV, 3.2, and t), with the latter 3 having two variations each. (coupe and cabriolet). The first car was introduced as the Mondial 8 at the 1980 Geneva Auto Salon. It was the first Ferrari to depart from the company’s simple 3-digit naming scheme, and some reviews found it relatively mild, compared to other Ferraris, regarding performance, drawing criticism from some in the motoring press. It used a mid/rear-mounted Bosch K-Jetronic fuel injection V8, shared with the 308 GTBi/GTSi, mounted transversely. The engine used in the 1973 Dino 308 GT4. The K-Jetronic system is mechanical, with a high-pressure pump which streams fuel continuously to the injectors; it does not have a computer, just a few relays to handle the cold start sequence etc. The chassis was also based on the 308 GT4, but with a 3.9 inch longer wheelbase at 104.3 in. The suspension was the classic layout of unequal-length double wishbones and Koni dampers all around. Today, the Mondial 8 is considered one of the marque’s most “practical” vehicles, due to its 214 hp, proven drivetrain, four seats, and relatively low cost of maintenance (major services can be performed without removing the entire engine/transmission subframe). 703 examples were made. The first Mondial engine, although a DOHC design, used just two valves per cylinder. The 1982 Quattrovalvole or QV introduced a new four-valve head; the combustion chamber design purportedly based on the early eighties Formula 1 engine. Again, the engine was shared with the contemporary 308 GTB/GTS QV, and produced a much more respectable 240 hp. Appearance was largely as per the Mondial 8, although with red engine heads and prominent “quattrovalvole” script at the rear. 1,145 coupés built between 1982 and 1985. A new Cabriolet body style added for 1983. Body styling remained the same as the coupé variant, with the roof maintaining the ‘buttress’ design of the roof, though the Cabriolet required the rear seats to be mounted closer together laterally. The introduction of the Cabriolet saw the popularity of the Mondial rise, particularly in the American market, where the convertible body style was highly desirable. The Cabriolet has the added distinction of being the only four-seat, mid-rear engine, convertible automobile ever manufactured in regular production. 629 units were produced between 1983 and 1985, making this the rarest version of the Mondial. Like the Ferrari 328, the Mondial’s engine grew in both bore and stroke to 3,185 cc in 1985. Output was now 270 PS.  The Mondial 3.2 was first presented at the 1985 Frankfurt Auto Show in September that year.  Available in both Coupé and Cabriolet forms, styling refreshed with restyled and body-coloured bumpers, similar to the 328 with more integrated indicators and driving lamps, and new alloy wheels with a more rounded face. The 3.2 also boasted a major interior update, with a more ergonomic layout and a more rounded instrument binnacle. Later cars, from 1987 onwards, also sported ABS brakes. Fuel injection remained the primarily mechanical Bosch K-Jetronic (CIS) with an O2 sensor in the exhaust providing feedback to a simple computer for mixture trimming via a pulse modulated frequency valve that regulated control fuel pressure. The ignition system was Marelli Microplex, with electronic advance control and one distributor per bank of the V8. The 1988 Mondial 3.2 would be the final model year that retained the relatively low maintenance costs of the 308/328 drivetrain, allowing major service items like timing belt and clutch replacement performed with the engine/transmission package still in the car. The final Mondial evolution was 1989’s Mondial t, which was a substantially changed model. It was visually different from preceding Mondial models, the most recognizable being the redesign of the air intakes to a smaller rectangular shape. Additionally, the door-handles were of a visually different design, as were the front and rear bumpers which became body coloured. New front and rear wings cover wider tracks and are re-profiled to a fuller shape compared to previous models, which feature a rolled lip. The ‘t’ called attention to the car’s new engine/transmission layout: the previously-transverse engine mounted longitudinally while the gearbox remained transverse, thus forming a ‘t’. By adopting this layout, a longer engine could be mounted lower in the chassis, improving handling dramatically. The ‘t’ configuration was used by Ferrari’s Formula One cars of the 1980s, and would be the standard for the marque’s future mid-engined V8 cars, beginning with the 348, introduced later in the year. The transverse manual gearbox fitted with a Limited Slip Differential with a twin-plate clutch design with bevel gears driving the wheels. Later in production, a Semi-automatic transmission termed “Valeo” was available as an option; while shifting was using a traditional gear lever, the clutch was actuated automatically without a clutch pedal. The engine was up to 3405 cc and 300 hp, controlled by Bosch Motronic DME 2.5 (later DME 2.7) electronic engine management that integrated EFI and ignition control into a single computer unit. Two of these used in the car: one for each bank of the engine. Engine lubrication upgraded to a dry-sump system. The Mondial’s chassis would underpin a new generation of 2-seat Ferraris, right up to the 360, but the 2+2 Mondial would end production just four and a half years later in 1993. However, the “t” layout of the engine and transaxle, adapted from Ferrari’s Formula One cars, continues to be used in mid-engined V8 model Ferraris to date, albeit with a more sophisticated chassis. The new layout saw the engine and transmission mounted on a removable subframe; the assembly removed from the underside of the vehicle for maintenance. This process is necessary for timing belt replacement, making this a costly procedure for the owner who does not have a lift. On the other hand, the clutch was now located at the very rear of the drive train. This arrangement makes clutch replacement and service a simple, inexpensive, and readily owner-do-able proposition. The “t” was home to other Ferrari firsts: It used power assisted steering for the first time and had a 3-position electronically controlled suspension for a variable trade-off between ride quality and road holding. It also had standard ABS. Total production of the t Coupe was 858 (45 Right Hand Drive), and the t Cabriolet of 1,017 (51 Right Hand Drive, meaning that around 6000 Mondial cars were produced over those 13 years, making it one of the most numerous Ferraris.

FORD

A completely new Fiesta, codenamed BE-13 was unveiled at the end of 1988 and officially went on sale in February 1989. The car was based on a new platform ditching the old car’s rear beam axle for a semi-independent torsion beam arrangement and looked radically different, addressing the principal weakness of the previous generation – the lack of a 5-door derivative, something that was by then available in its major rivals such as the Fiat Uno, Peugeot 205 and 106 and Opel Corsa/Vauxhall Nova. The other main change was to the running gear – the improved HCS (High Compression Swirl) version of the Kent/Valencia powerplant. The CVH units from the second generation were carried over largely unmodified. The diesel engine was enlarged to a 1.8L capacity. As for sports models, the XR2i was launched in August 1989 with an eight-valve CVH (standing for “compound valve-angle hemispherical combustion chamber”) engine with 104 PS. This was the first Fiesta to have a fuel-injected engine. This was then replaced by a Zetec 16 valve version in 1992, which also saw the RS Turbo being supplanted by the RS1800 as the CVH engine was being phased out. The RS1800 shared its 1.8 litre Zetec fuel-injected engine with the 130 bhp version of the then current Ford Escort XR3i and had a top speed of 125 mph. The XR2i name was also dropped in early 1994, and the insurance-friendly “Si” badge appeared in its place on a slightly less sporty-looking model with either the 1.4 L PTE (a development of the CVH) or the 1.6 L Zetec engine.

On February 24, 2017, the seventh-generation Fiesta ST was announced in Europe. It features an all-new 200 PS three-cylinder, 1.5-litre Ecoboost engine with turbocharger and cylinder deactivation technology. On March 12, 2018, Ford announced that a limited-slip differential would be offered for the first time on the Fiesta ST as an optional extra. The Fiesta ST was released on May 7, 2018. It is heavier than the previous ST model, and can go from zero to 62 mph (100 km/h) in 6.5 seconds. The power and torque outputs are 197 bhp (200 PS) and 290 Nm (214 lb/ft) respectively, which match the figures of the limited-edition Fiesta ST200 of the previous generation. It is produced in either a three-door or five-door body style, and is fitted with a six-speed manual gearbox, with no option of an automatic. The Ford Fiesta ST won Top Gear’s Hot Hatch and Car of the Year for 2018. In April 2019, Ford announced a new limited-edition model to the ST range called the “Performance Edition”. Although named “Performance”, the Fiesta ST does not gain any power upgrades to the standard ST. The car is based on the ST-3 model and comes with multiple options that would normally be a cost option to an ST, such as LED headlights, B&O sound system, and Performance Pack. To differentiate the Performance Edition, the car comes with exclusive options, namely standard Deep Orange paint, lowered and adjustable ride height, and lighter multispoke alloy wheels. In September 2021, Ford announced and released images of the facelifted Ford Fiesta, and Fiesta ST due to be released at the beginning of 2022. The new models come with a new front bumper, other visual modifications and a new ‘Wrong Way Alert’ safety feature over the previous model. The higher specification models also include increased torque, matrix LED headlights and upgraded technology like a fully digital instrument binnacle. The 3-door Fiesta was discontinued during spring 2022. Due to being derived from the 3-door version, the Fiesta Van was also discontinued as well. The five door models survived a few months further.

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 first Civic to receive the ‘Type R’ nameplate was based on the sixth-generation of the fan-base ‘EK’ Civic. The contributing base model was the JDM Civic 3-door hatchback called the SiR (code-named EK4). Like its sibling, the Integra Type R DC2/JDM DB8, the Civic SiR’s transformation into a Type R was achieved by working on the base model and improving it to Honda’s idea of a car capable of high performance on the circuit. The first Civic to receive the Type R badge was introduced on August 19, 1997, as the EK9. The EK9 shared many characteristics with the Integra Type R DC2/JDM DB8 such as omission of sound deadening and other weight reduction measures, a hand-ported 1.6-litre DOHC VTEC B16B 4-cylinder engine, front-helical limited-slip differential and a close-ratio 5-speed manual transmission. The B16B engine boasted one of the highest power output per liter of all time for a naturally aspirated engine with 185 PS (182 bhp) at 8,200 rpm and 160 Nm (118 lb/ft) at 7,500 rpm of torque from 1.6 L (1,595 cc) of displacement. For the first time, a strategically seam-welded monocoque chassis was used to improve chassis rigidity. The interior featured red Recaro bucket seats, red door cards, red Type R floor mats, a titanium shift knob, and a Momo leather-wrapped steering wheel. The EK9 was only available for sale in Japan. Performance figures include a 0–97 km/h (0–60 mph) acceleration time of 6.7 seconds and a quarter-mile time of 15.3 seconds. The EK9 could attain a top speed of 225 km/h (140 mph). In 1998, the Civic Type R Motor Sports edition was introduced. It came with steel wheels, the standard grey EK interior, manual windows, no air conditioning and without any other creature comforts. The Type Rx model introduced in 1999 was given a CD player, body-coloured retractable electric door mirrors, power windows, auto air conditioning, keyless entry unlock system, aluminium sports pedals, and a carbon type centre panel. The Type Rx was the final model of the EK9 generation. Production of the EK9 Civic Type R totalled 16,000 units.

For the third generation of Civic Type R there was quite a difference between the European model and what was offered in Japan. The European and international market Civic Type R is offered only as a three-door hatchback and uses a different chassis and internal layout (notably tank placement below the driver’s seat), which will serve as the base for the next European version of the Jazz. The rear suspension, formerly a double wishbone setup, was changed to a less complex torsion beam axle. The drive train is largely the same as the predecessor, offering 201 PS (198 hp) at 7,800 rpm and 193 Nm (142 lb/ft) of torque at 5,600 rpm, with 90 percent of peak torque is available from 2,500 rpm. The car is fitted with 225/40 R18 Y88 Bridgestone Potenza RE050A tyres, while optional 19-inch Rage alloys fitted with Yokohama Advan Sport 225/35 ZR19 88Y tyres were also available. The car has a curb weight of 1,320 kg (2,910 lb). A total of 29,039 Type-R specification FN2 models were built at the Honda factory in Swindon, 13,514 RHD for the UK, 8,378 LHD for Europe, 3,510 for Japan, 2,285 for Australia, with the remaining units heading to the Africa and Asia regions. From introduction in 2007, The Type R GT trim includes dual-zone climate control (Left:right independent), rain-sensing windscreen wipers, refrigerated glove box, automatic headlights with dusk sensor, front fog lights, power-folding wing mirrors, cruise control, front and rear curtain airbags. In the UK market from 2009 model year, GT models also gained HID headlights with auto levelling, headlight washers with switch, USB and AUX connectors located in the arm rest storage area as well as a multi LED high level rear brake light to replace the previous design. An LSD was fitted to all GT models from April 2010 production also (this was never made available on base Type R models). FN2 Type R’s were finished in the same four colours as the standard FN2, and a new colour called Deep Sapphire Blue Pearl added to the colours offered from 2010, at the same time Deep Bronze Metallic was dropped. Only 226 examples of the Deep Sapphire Blue Pearl were built in Type-R specification, 114 for the UK and 112 for Europe. In 2009, the Championship White Edition Type R was made available and added a Helical LSD to the Type R GT feature roster as well as trim items such as dark tint front grill and fuel filler cap as well as color-matched white wheels. As often, names and trims vary even within domain markets down to local ones, and a Heritage trim replaces the GT version in some of them, adding Xenon/HID lights to the mix. The Heritage’s infotainment system version adds Bluetooth telephone system and voice recognition DVD satellite navigation. This model was not offered in the UK. The Type R Race was a more radical trim dubbed Race differs from the Heritage by removing components (incl. HID, AC, fog lights, audio system, soundproofing, some airbags) to reduce weight as much as 40 kg (88 lb). The Type R (Australasia) trim includes dual-zone climate control (Left:right independent), rain-sensing windscreen wipers, refrigerated glove box, front fog lights, power-folding wing mirrors, cruise control, CD/radio/apple integration, front and rear curtain airbags. It is finished in the same four colours as the Euro standard FN2. Production for the European market ended in October 2010 due to the engine not meeting Euro V emissions regulations which came into effect in 2011. Over 12,000 Civic Type Rs were sold in the UK since January 2007, Honda continued to export the car to the Australian market into 2011. It was also exported to Japan and marketed as Civic Type-R EURO in a limited edition in fall 2010, following a successful run in November 2009.

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 lb/ft) 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 British were able to purchase the FK2 as of July 2015 with price tags of GBP 29,995 for the base Type R model and £32,295 for 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.

The Civic Type R Prototype was unveiled in September 2016 at the Paris Motor Show, and the production version unveiled at the 2017 Geneva Motor Show. The new car builds on Honda’s heritage in developing high-performance hatchbacks. The design is based on the Civic Hatchback, with a winged carbon fibre effect splitter with red accent line, slatted ducts, diamond-mesh air intakes, red ‘H’ badge above a new air vent at the nose of the car, new air intake on the hood, an air scoop sited centrally in a trapezoidal recess, smoked lenses for the LED headlights, indicators and side repeaters, carbon fibre effect side skirts, 20-inch piano black alloy wheels with red accents, 245/30 R20 high-performance tires, enlarged wheel arches, a carbon fibre effect diffuser which runs below the wider rear bumper, 3 tailpipes with a pair of directional strakes at each side, central tailpipe in bright metallic red and unique peaks at the roof flanks that point backward. The FK8 Civic Type R uses the same engine from its predecessor, a turbocharged inline-four with increased power to 320 PS (316 bhp) in the European and Japanese version but remains the same 310 PS (306 bhp) in other markets. The engine is mated to a close-ratio 6-speed manual transmission continuing the tradition of its predecessors with limited-slip differential as standard. The aerodynamic elements increase downforce even further as compared to the outgoing model. The FK8 has a top speed of 272 km/h (169 mph) making it the fastest Civic Type R model to date. In back-to-back testing involving an FK8 and FK2 Type R, the reviewers praised the FK8’s comfortable ride and feedback and criticised the FK2’s harsh ride on the road and worse handling when the R+ driving mode was activated. The reviewers also complained about the FK2’s interior being dated but stated that this was due to the model’s late arrival at the end of the base model’s production run. The interior of the Type R is based on the base model Civic and has a low driving position with the gear shift lever positioned high in order to allow for easy gear changes. The interior has red and black colour as standard with sports seats along with faux carbon fibre trim. The driver’s seat and the steering wheel are adjustable. A reversing camera is standard for easier rear visibility while reversing while parking sensors are standard in the GT Trim. The interior although lauded for its comfortability and user-friendliness is criticised for its infotainment system which has been described as slow and difficult to operate. The fit and finish are considered to be comparable with its competitors. Safety features include automatic emergency braking, traffic sign recognition, lane departure warning and automatic high beam assistance which are carried over from the base Civic. The GT trim adds blindspot monitoring and cross-traffic alert, parking sensors at the front and rear, dual-zone climate control, power-folding door mirrors and infotainment upgrades that include wireless phone charging and in-built sat-navigation along with a more powerful 11-speaker stereo. The Type R earned a Euro NCAP 5 star crash test rating. On 3 April 2017, the pre-production Type R achieved a lap time of 7:43.80 on the Nürburgring Nordschleife, almost 7 seconds faster than its predecessor, setting a new record for front-wheel drive cars. The car also set new front-wheel drive lap records at the Magny-Cours, Spa-Francorchamps, Silverstone, Estoril, Hungaroring and Mount Panorama circuits. The Nürburgring record was broken by the Renault Mégane RS Trophy-R in July 2019 which set a time of 7:40.10, but in 2020 the Limited Edition Civic Type R broke the Mégane’s front-wheel drive lap record at the Suzuka Circuit by one and a half seconds. Production ceased in 2022.

HYUNDAI

One of the car models you almost always see here, is the Korean brand’s first, and well received hot hatch, the I30N and sure enough, there was one here.

JAGUAR

As is often the case, Jaguar’s current (just! – production is about to end), the F Type, was here.

LAMBORGHINI

The Lamborghini Huracán (Spanish for “hurricane”; [uɾaˈkan]) is a sports car replacing the previous V10 offering, the Gallardo. The Huracán was revealed online in December 2013, making its worldwide debut at the 2014 Geneva Auto Show, and was released in the market in the second quarter of 2014. The Huracán’s name (huracán being the Spanish word for hurricane) is inspired by a Spanish fighting bull. Historic Spanish fighting bulls have traditionally provided the names of most Lamborghini car models. Huracán was a bull known for its courage that fought in 1879. The Huracán maintains the 5.2-litre naturally aspirated Audi/Lamborghini V10 engine with an additional 0.2 litres, compared to the Gallardo, tuned to generate a maximum power output of 602 bhp/610 PS. To ensure its balance and performance, the car is mid-engined. The engine has both direct fuel injection and multi-point fuel injection. It combines the benefits of both of these systems; it is the first time this combination is used in a V10 engine. To increase its efficiency, the Huracán’s engine also includes a start-stop system. The firing order of the engine is 1, 6, 5, 10, 2, 7, 3, 8, 4, 9. This is printed on a metal plate on the top of the engine, as with all other Lamborghini models. The drag coefficient of Cd=0.39 was undisclosed until 2021. The LP 610-4 designation comes from the car having 610 PS and four-wheel drive, while LP stands for “Longitudinale Posteriore”, which refers to the longitudinal mid-rear engine position. Changes from the Gallardo include full LED illumination, a 12.3 inch full-colour TFT instrument panel, fine napa leather and Alcantara interior upholstery, redesigned dashboard and central tunnel, Iniezione Diretta Stratificata (IDS, essentially an adapted version of parent Audi’s Fuel Stratified Injection) direct and indirect gasoline injections, engine Stop & Start technology, EU6 emissions regulation compliance, Lamborghini Doppia Frizione (LDF) 7-speed dual-clutch transmission with 3 modes (STRADA, SPORT and CORSA), 20-inch wheels, carbon-ceramic braking system, optional Lamborghini Dynamic Steering variable steering system and MagneRide electromagnetic damper control. The main competitors of the Huracán include the McLaren 650S (as well as the 720S), the Audi R8, the Ferrari 458 Speciale and the 488 GTB. Extra options that increase the price of the car include interior enhancements, special paint schemes, improved suspension, and a lifting system, as well as multiple components optionally available in carbon fibre, rather than aluminium. The convertible variant of the Huracán LP 610-4 was revealed at the Frankfurt Motor Show on 14 September 2015. The 5.2-litre naturally-aspirated V10 engine is the same as the coupé and generates a maximum power output of 602 bhp/610 PS. Acceleration from 0 to 100 km/h (62 mph) takes 3.4 seconds and the top speed is 323 km/h (201 mph). It has the same 7-speed Lamborghini Doppia Frizione (LDF) dual-clutch transmission as that of the coupé. The Spyder has a dry weight of 1,542 kg (3,400 lb) which is 120 kg (265 lb) more than the coupé due to chassis reinforcing components. The Spyder has a CO2 emission of about 280 g/km. Unveiled at the 2016 Geneva Motor Show, the Huracán LP 580-2 is a lower cost derivative of the Huracán LP 610-4 that differs mostly in having the 5.2 L V10 engine detuned to 572 bhp/580 PS and 533 Nm (393 lb/ft) of torque along with having a rear wheel drive drivetrain instead of the all-wheel drive drivetrain found in the standard Huracán. Lamborghini claims the car will accelerate from 0–100 km/h (0–62 mph) in 3.4 seconds and 0–200 km/h (0–124 mph) in 10.1 seconds. The top speed is claimed to be as high as 320 km/h (199 mph). It also features slight visual differences to the standard variant of the car – with a different front fascia and larger air vents at the rear of the car for improved brake cooling. The seven-speed dual-clutch transmission is the same as used in the standard LP 610–4. The base level LP 580-2 costs US$201,100, about US$40,000 less than the base level LP 610–4. A convertible variant of the Huracán LP 580-2 was unveiled at the Los Angeles Auto Show on 16 November 2016. The 5.2-litre naturally-aspirated V10 engine is the same as in the coupé, and generates a maximum power output of 572 bhp/580 PS. 0 to 100 km/h (62 mph) takes 3.6 seconds and the top speed is 320 km/h (199 mph). A track oriented variant of the Huracán, called the Performante, was unveiled at the 2017 Geneva Motor Show. The Performante underwent various exterior changes with the most noticeable being the front and rear bumpers. Carbon fibre is used for the bumpers and the side skirts. An adjustable carbon fibre rear wing has been added to increase downforce. The position of the exhaust has also been changed, and is now just a bit above the rear diffuser. The interior also underwent noticeable changes, now sporting new seats and a new digital speedometer (similar to that of the Aventador SV’s speedometer). The Performante’s 5.2-litre V10 has been tuned to have a power output of 631 bhp/640 PS at 8,000 rpm and 601 Nm (443 lb/ft) of torque at 6,500 rpm. The weight has also decreased by 40 kg (88 lb), courtesy of the forged aluminium and forged carbon fibre body components (first used in the construction of the Sesto Elemento). All the new aero components on the car have active aerodynamic capability and help keep the car stable at high speeds. The Performante is capable of accelerating from 0–100 km/h (0–62 mph) in 2.9 seconds, 0–200 km/h (0–124 mph) in 8.9 seconds. It also has a theoretical top speed of 325 km/h (200 mph). The car has been stiffened by 10% with new springs, roll bars, and radial axial arm bushings. The magnetorheological suspension has been reworked to give a driver a serious track experience. The Lamborghini Dynamic Steering has been re-calibrated. The Performante utilises Lamborghini’s new ALA (Aerodinamica Lamborghini Attiva) system, which is said to be 80% lighter than regular sports car hydraulic systems. According to Lamborghini, ALA is also said to provide 750% more downforce than the standard Huracán. The Lamborghini Huracán Performante Spyder was unveiled at the 2018 Geneva Motor Show. It takes much of the styling inspiration from the coupé and the outgoing LP 610-4 Spyder. The Spyder is identical to the coupé from performance and technological standpoint, but the acceleration time from 0–60 mph has risen by one-tenth of a second and stands at 3.1 seconds while the 0–200 km/h (0–124 mph) has risen by four-tenths of a second and stands at 9.3 seconds. Due to the loss of the roof, the Spyder weighs 125 kg (276 lb) more than the coupé due to chassis reinforcing components. Top speed remains the same as well and stands at 325 km/h (202 mph). Deliveries of the Spyder began in the fourth quarter of 2018. The Huracán received a mid-cycle update in 2019, now being called the Huracán Evo. It now shares its engine and some of the technology with the Performante variant. The updated version of the Huracán has a more aggressive design language, the new front bumper has integrated aeroblades for improved downforce along with the rear styling inspired by the Performante variant, having the same rear diffuser, exhaust pipe position and radiators. A new ducktail spoiler improves downforce by 5 times as compared to the outgoing model. The engine is shared with the Performante and generates 631 bhp/640 PS at 8,000 rpm and 601 Nm (443 lb/ft) of torque at 6,500 rpm. The exhaust system is more refined and has titanium intake valves. This allows the car to achieve a 0–60 mph) acceleration time of 2.9 seconds, 0–200 km/h (0–124 mph) acceleration time of 9 seconds and a top speed of 325 km/h (202 mph). The car has a braking distance from 100–0 km/h (62–0 mph) of 104 ft (32 m). The Huracán Evo has a rear-wheel steering system for improved handling and a torque vectoring system. A new central processing unit controls the various functions of the car and monitors various settings. The control system is controlled by the new infotainment system (via an 8.4 inch touchscreen) dubbed the Lamborghini Dinamica Veicolo Integrata which has integrated both Apple CarPlay and Android Auto. The infotainment system predicts the driving modes by a feed forward logic. The feed forward logic works by sensors monitoring the lateral, longitudinal and vertical accelerations, as well as roll, pitch and yaw rate to predict the best possible driving mode for the driver. The magnetorheological suspension is also revised and now uses electromagnetic current to adjust the suspension system in accordance with the driving mode. The transmission system from the outgoing model is retained which transfers power to all four wheels. A new Ego mode allows the driver to change driving settings to their own preference. The Huracán Evo Spyder was introduced online in February 2019. The Spyder has the same enhancements as the coupé but is 100 kg (220 lb) heavier due to the addition of chassis reinforcement components owing to the loss of the roof. The car has the same canvas folding soft top as the outgoing model which takes 17 seconds for operation and is operable at speeds up to 50 km/h (31 mph). The Spyder can accelerate to 100 km/h (62 mph) in 3.1 seconds from a standstill, to 200 km/h (124 mph) in 9.3 seconds and can attain a top speed of 325 km/h (202 mph). A rear-wheel drive variant of the Evo debuted in January 2020, replacing the LP 580–2. The front splitter has been reshaped and generates more airflow, which is directed to the revised diffuser. Unique to the RWD model is P-TCS (Performance Traction Control System) that ensures that torque is not cut off abruptly; Lamborghini claims this increases oversteer by 30 percent compared to the LP 580–2. The engine is detuned and is now rated at 602 bhp/610 PS. Due to the detuned engine, the car is slower than the standard Huracán Evo accelerating to 100 km/h (62 mph) in 3.3 seconds while having the same top speed. The car also receives a unique paint option, Giallo Belenus, along with a matching interior upholstered in leather and microsuede. A convertible version of the rear-wheel drive variant of the Evo was showcased in May 2020, replacing the LP 580-2 Spyder. Like the Coupé variant, the convertible has a power output of 602 bhp/610 PS. The convertible has a 0– 60 mph acceleration time of 3.5 seconds and has a claimed top speed of 323 km/h (201 mph). Unveiled on April 12, 2022, The Huracán Tecnica sits between the EVO RWD and the track-focused STO. It is 6.1 cm (2.4 in) longer than the EVO, but is the same height and width. It uses the naturally-aspirated V10 engine from the STO and has a top speed of 325 km/h (202 mph) and an acceleration time of 0–100 km/h (0–62 mph) in 3.2 seconds. According to Lamborghini, the Tecnica’s aerodynamic changes increase downforce 35 percent and reduce drag by 20 percent compared to the EVO. It is expected that production will end in 2024.

LOTUS

Sole Lotus here was an example of what for the last few months, until the all-electric Eletre came on stream had been the only model being produced, the Emira sportscar.

MASERATI

After producing BiTurbo based cars for 17 years, Maserati replaced their entire range with a new model in July 1998, the 3200 GT. This very elegant 2+2 grand tourer was styled by Italdesign, whose founder and head Giorgetto Giugiaro had previously designed, among others, the Ghibli, Bora and Merak. The interior design was commissioned to Enrico Fumia. Its name honoured the Maserati 3500 GT, the Trident’s first series production grand tourer. Sold mainly in Europe, the 3200 GT was powered by the twin-turbo, 32-valve, dual overhead cam 3.2-litre V8 engine featured in the Quattroporte Evoluzione, set up to develop 370 PS (365 hp). The car was praised for its styling, with the distinctive array of tail-lights, consisting of LEDs, arranged in the shape of boomerang being particularly worthy of comment. The outer layer of the ‘boomerang’ provided the brake light, with the inner layer providing the directional indicator. The car was also reviewed quite well by the press when they got to drive it in early 1999, though it was clear that they expected more power and excitement. That came after  4,795 cars had been produced, in 2001, with the launch of the 4200 models. Officially called the Coupé and joined by an open-topped Spyder (Tipo M138 in Maserati speak), these models had larger 4.2 litre engines and had been engineered so the cars could be sold in America, marking the return to that market for Maserati after an 11 year gap. There were some detailed styling changes, most notable of which were the replacement of the boomerang rear lights with conventional rectangular units. Few felt that this was an improvement. The cars proved popular, though, selling strongly up until 2007 when they were replaced by the next generation of Maserati. Minor changes were made to the model during its six year production, but more significant was the launch at the 2004 Geneva Show of the GranSport which sported aerodynamic body cladding, a chrome mesh grille, carbon fibre interior trim, and special 19-inch wheels. It used the Skyhook active suspension, with a 0.4 inch lower ride height, and the Cambiocorsa transmission recalibrated for quicker shifts. The exhaust was specially tuned to “growl” on start-up and full throttle. The GranSport was powered by the same 4244 cc, 90° V8 petrol engine used on the Coupé and Spyder, but developing 400 PS (395 hp) at 7000 rpm due primarily to a different exhaust system and improvements on the intake manifolds and valve seats. A six-speed paddle shift transmission came as standard. The GranSport has a claimed top speed of 180 mph (290 km/h) and a 0–62 mph (0–100 km/h) time of 4.8 seconds.

MAZDA

The Mazda MX-5 (NC) is the third generation of the Mazda MX-5 manufactured from 2005 to 2015. At its introduction in 2005, it won the Car of the Year Japan Award and made Car and Driver’s 10Best list from 2006 to 2013. The NC is the first MX-5 generation to feature a retractable hardtop variant, with its roof being able to fold and unfold in 12 seconds without sacrificing trunk space. The exterior styling by Yasushi Nakamuta resembled the original design, but unlike the update from NA to NB, which was mostly a nose/tail/interior change, the NC shares no components with the NB, except for the fender-mounted turn signal lights on non-U.S. models (and rear differential internals). The chief designer of this model generation was Moray Callum. The 2003 Mazda Ibuki concept served as a preview of the new model. The suspension changed from a four-wheel double wishbone setup to a front wishbone/rear multilink setup, shared with the Mazda RX-8. Technologies including traction control and stability control were added to increase driveability. According to Car and Driver, the NC has a skidpad number of 0.90g. For the U.S., the engine was the 16-valve, 2.0 L MZR LF-VE DOHC I4, producing 170 bhp and 190 Nm (140 lb/ft) of torque coupled to either a 5-speed or a 6-speed manual transmission or 158 bhp with the optional 6-speed automatic transmission. A limited-slip differential was available with the 6-speed option. In Australia, the 2.0 L MZR was offered, rated at 158 bhp and 188 N⋅m (139 lb/ft) of torque and the 6-speed transmission and LSD are standard. In Europe, two engines were offered: the 2.0 L MZR LF-VE rated at 158 bhp and 188 Nm (139 lb/ft) of torque, coupled to the 6-speed manual transmission; and a new 1.8 L MZR L8-VE, rated at 126 bhp and 167 Nm (123 lb/ft), coupled to the 5-speed manual transmission. A six-speed automatic transmission, with steering wheel mounted paddle shifters, was optional. A test by Car and Driver magazine revealed a 0-60 mph time of 6.5 s for the 2.0 L U.S.-spec NC. Manufacturer figures for the European-spec model are: 0-100 km/h (62 mph) in 9.4 s for the 1.8 and 7.9 s for the 2.0. As of this generation, the car no longer complies with Japanese law’s maximum exterior width dimension for the mid-size vehicle tax class, making Japanese buyers liable for additional costs for ownership. In July 2006, Mazda debuted a Power Retractable Hard Top (PRHT) version of the NC with a two-piece folding hardtop, named MX-5 Roadster Coupé in Europe, Roadster Power Retractable Hard Top in Japan, and MX-5 Miata Power Retractable Hard Top in the U.S. and Canada. Designed by Webasto and constructed of polycarbonate, the top requires 12 seconds to raise or lower, and the first models were delivered to customers in late August 2006. The hardtop adds 36 kg (79 lb) to the weight of a comparably equipped soft-top, without diminishing trunk space when retracted. The PRHT omits the soft-top’s storage compartments behind the seats to accommodate the folding roof mechanism. Performance times are slightly affected with the weight increase, with the 0-100 km/h (62 mph) time increased to 9.6 s for the 1.8 and 8.2 seconds for the 2.0. Thanks to better aerodynamics, though, top speed is increased from 196 km/h (121.8 mph) to 200 km/h (124.3 mph) for the smaller-engined model and from 210 km/h (130 mph) to 215 km/h (134 mph) for the 2.0. These figures are for the European- versions. The MX-5 facelift was unveiled at the 2008 Paris Motor Show and Science Museum in London, and later at the 2009 Chicago Auto Show. The Japanese model went on sale on December 9, 2008 at Mazda and Mazda Anfini dealers. Major changes concern the restyled front which now incorporates elements from Mazda’s newer models like the larger grille and new head and fog lights. Further restyled elements include the side skirts, rear bumper and the tail lights. The soft-top Touring and Grand Touring models feature a mesh grille bordered by a chrome frame. The hardtop Roadster Coupe now features a mesh grille bordered by a chrome frame and chrome elements inside the headlamps and outer door handles. The instrument panel gained darker features and redesigned graphics for the gauges. To create more leg space in the cabin, a protrusion from the door pockets was eliminated. The 2.0 L; I4 engine was rated 167 bhp at 7,000 rpm and 190 Nm (140 lb/ft) at 5,000 rpm for the 5-speed manual transmission, 158 bhp at 6,700 rpm with the fuel cut-off at 7,200 rpm and 190 Nm (140 lb/ft) at 5,000 rpm for the automatic transmission. Engine redline was raised by 500 rpm to 7,200 rpm in manual model and fuel cut at 7,500 rpm. The suspension and gearbox have been fine-tuned; with the latter offering smoother shifts and an automatic transmission will be introduced in Europe for the first time.

The fourth-generation Mazda MX-5 was unveiled in 2014 and has been in production since 2015. An updated model was introduced in 2019 and is visually identical to the pre-update model; it has been designated as series “ND2” due to an engine upgrade to 181 bhp and several other improvements around the car. The ND generation introduced a Retractable Fastback (RF) variant that features a rigid roof and buttresses that give the silhouette a more coupé-like appearance than the soft top convertible. The fourth generation MX-5 has received several accolades such as the 2015-2016 Car of the Year Japan Award, the 2016 World Car of the Year Award, Car and Driver’s 10Best list from 2016 to 2019, and the Red Dot Best of the Best Award in Product Design 2017. In addition, the car is the basis for the Fiat 124 Spider and Abarth 124 Spider.

I believe this is also an MX-5, based on a 1991 NA series cars, but with a modified body.

The third-generation RX‑7, FD (chassis code FD3S for Japan and JM1FD for the North America), featured an updated body design. The 13B-REW was the first-ever mass-produced sequential twin-turbocharger system to be exported from Japan, boosting power to 255 PS (252 bhp) in 1992 and finally to 280 PS (276 bhp) by the time production ended in Japan in 2002. The RX-7 FD’s chief designer was Yoichi Sato (佐藤 洋一, Satō Yōichi). Another key designer was Wu-huang Chin (秦無荒), a Taiwanese automotive artist who also worked on the Mazda MX-5 Miata. In Japan, sales were affected by this series’ non-compliance with Japanese dimension regulations and Japanese buyers paid annual taxes for the car’s non-compliant width. As the RX‑7 was now considered an upper-level luxury sports car due to the increased width dimensions, Mazda also offered two smaller offerings, the Eunos Roadster, and the Eunos Presso hatchback. The sequential twin turbocharging system, introduced in 1992, was extremely complex and was developed with the aid of Hitachi. It was previously used on the exclusive-to-Japan Cosmo JC Series. The system used two turbochargers, one to provide 10 psi (0.69 bar) of boost from 1,800 rpm. The second turbocharger activated in the upper half of the rpm range, during full-throttle acceleration – at 4,000 rpm to maintain 10 psi (0.69 bar) until redline. The changeover process occurred at 4,500 rpm, with a momentary dip in pressure to 8 psi (0.55 bar), and provided semi-linear acceleration from a wide torque curve throughout the entire rev range under normal operation. Under high-speed-driving conditions, the changeover process produced a significant increase in power output and forced technical drivers to adjust their driving style to anticipate and mitigate any over-steer during cornering.[citation needed] The standard turbo control system used 4 control solenoids, 4 actuators, both a vacuum and pressure chamber, and several feet of preformed vacuum/pressure hoses, all of which were prone to failure in part due to complexity and the inherent high temperatures of the rotary engine. The initial Series 6 was produced from 1992-1995, and was exported throughout the world and had the highest sales. In Japan, Mazda sold the RX-7 through its ɛ̃fini brand as the ɛ̃fini RX-7. Models in Japan included the Type S, the base model, Type R, the lightweight sports model, Type RZ, Type RB, A-spec and the Touring X, which came with a four-speed automatic transmission. The RX-7 was sold in 1993–1995 in the U.S. and Canada. The Series 6 was rated at 255 PS (252 hp) and 294 Nm (217 lb/ft).  In the United Kingdom, for 1992, customers were offered only one version of the FD, which was based on a combination of the US touring and the base model. For the following year, in a bid to speed up sales, Mazda reduced the price of the RX-7 to £25,000, down from £32,000, and refunded the difference to those who bought the car before that was announced. From 1992 to 1995, only 210 FD RX-7s were officially sold in the UK. The FD continued to be imported to the UK until 1996. In 1998, for a car that had suffered from slow sales when it was officially sold, with a surge of interest and the benefit of a newly introduced SVA scheme, the FD would become so popular that there were more parallel and grey imported models brought into the country than Mazda UK had ever imported. The Series 7 ran from 1996-1998 and included minor changes to the car. Updates included a simplified vacuum routing manifold and a 16-bit ECU which combined with an improved intake system netted an extra 10 PS. This additional horsepower was only available on manual transmission cars as the increase in power was only seen above 7,000 rpm, which was the redline for automatic transmission equipped cars. The rear spoiler and tail lights were also redesigned. The Type RZ model was now equipped with larger brake rotors as well as 17-inch BBS wheels. In Japan, the Series 7 RX-7 was marketed under the Mazda and ɛ̃fini brand name. Series 7 RX-7s were also sold in Australia, New Zealand and the UK. Series 7 models were produced only with right-hand drive (RHD), which likely explains why they were only exported to these RHD markets. Sold from 1998-2002, the series 8 was the final series, and was only available in the Japanese market. More efficient turbochargers were available on certain models, while improved intercooling and radiator cooling was made possible by a redesigned front fascia with larger openings. The seats, steering wheel, and instrument cluster were all changed. The rear spoiler was modified and gained adjustability on certain models. Three horsepower levels are available: 255 PS (252 bhp) for automatic transmission equipped cars, 265 PS (261 bhp) for the Type RB, and 280 PS (276 bhp) available on the top-of-the-line sporting models. The high-end “Type RS” came equipped with Bilstein suspension and 17-inch wheels as standard equipment, and reduced weight to 1,280 kg (2,822 lb). Power was increased with the addition of a less restrictive muffler and more efficient turbochargers which featured abradable compressor seals, 280 PS (276 bhp) at 6,500 rpm and 314 Nm (232 lb/ft) of torque at 5000 rpm as per the maximum Japanese limit. The Type RS had a brake upgrade by increasing rotor diameter front and rear to 314 mm (12.4 in) and front rotor thickness from 22 mm (0.9 in) to 32 mm (1.3 in). The Type RS version also sported a 4.30 final drive ratio, providing a significant reduction in its 0–100 km/h (62 mph) time. The gearbox was also modified, 5th gear was made longer to reduce cruising rpm and improve fuel efficiency. The very limited edition Type RZ version included all the features of the Type RS, but at a lighter weight, at 1,270 kg (2,800 lb). It also featured gun-metal coloured BBS wheels and a red racing themed interior. An improved ABS system worked by braking differently on each wheel, allowing the car better turning during braking. The effective result made for safer driving for the average buyer. Easily the most collectible of all the RX-7s was the last model limited to 1,500 units. Dubbed the “Spirit R”, they combined all the extra features Mazda had used on previous limited-run specials with new exclusive features like cross-drilled brake rotors. Sticker prices when new were 3,998,000 yen for Type-A and B and 3,398,000 yen for Type-C. Mazda’s press release said “The Type-A Spirit R model is the ultimate RX-7, boasting the most outstanding driving performance in its history.” There are three models of “Spirit R”: the “Type A”, “Type B”, and “Type C”. The “Type A” is a two-seater with a 5-speed manual transmission. It features lightweight red trim Recaro front seats as seen in the earlier RZ models. The “Type B” shares all features of the “Type A” but with a 2+2 seat configuration. The “Type C” is also a 2+2, but has a four-speed automatic transmission. Of the 1504 Spirit R’s made, 1044 were Type A, 420 Type B and 40 Type C. An exclusive Spirit R paint colour, Titanium Grey, adorned 719 of the 1504 cars produced.

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.

McLAREN

Now an established part of the McLaren range, the 570S along with its slightly cheaper and less powerful brother, the 540C, was revealed at the 2015 New York Auto Show, going on sale towards the end of that year. These were labelled as part of McLaren’s Sports Series. This mid-engine sportscar features the lightweight carbon fibre MonoCell II chassis, and a highly efficient 3.8-litre twin turbo V8 engine generating 562bhp and 443lb/ft of torque. Although the model has been conceived with a greater focus on day-to-day usability and refinement, it is still very much a pure McLaren, boasting a class-leading power-to-weight ratio of 434PS per tonne, and electrifying performance. The 570S Coupé accelerates from 0 to 100km/h in just 3.2 seconds, reaches 200km/h (124mph) in 9.5 seconds, and on to a top speed of 204mph. Pricing for the 570S Coupé started at £143,250, though like all cars of this type, that figure can quickly rise once you raid the options list.

In June 2018, McLaren unveiled the top-of-the-line sports series variant online. The car, called the 600LT is based on the 570S and is the third McLaren production car to receive the longtail treatment. Inspired by the 675LT and the F1 GTR Longtail, the body of the car has been extended by 73.7 mm (2.9 in). The car also features enhanced aerodynamic elements such as an extended front splitter and rear diffuser, new side sills, and an aero-enhancing fixed rear wing for increased downforce. McLaren claims that 23% parts on the 600LT are new as compared to the 570S. The carbon fibre monocoque utilised in the 600LT is modified and this combined with the extensive use of carbon fibre in the roof along with the cantrails and front wings, results in a weight saving of 96 kg (212 lb) over the 570S, with the total weight amounting to 1,247 kg (2,749 lb). Another distinguishing feature of the 600LT is the lightweight titanium exhaust system which is mounted on top of the rear of the car which harks back to its original application in the Senna. The interior features sports bucket seats from the P1 and Alcantara trim but can be optioned with the much lighter bucket seats found in the Senna. The 3.8-litre twin-turbocharged V8 engine utilised in the 600LT is tuned to produce a maximum power output of 600 PS (592 bhp) (hence the 600 in the name) and 620 N⋅m (457 lb⋅ft) of torque, achieving a power-to-weight ratio of 479 PS per tonne. Performance figures and production numbers of the car remain unknown. Production of the 600LT started in October 2018. In January 2019, McLaren unveiled the convertible variant of the 600LT at the Detroit Auto Show. Due to the use of the same carbon monocoque as the other models in the 570S lineage the 600LT Spider required did not need any extra modifications to incorporate a folding hardtop roof. As a result, the Spider weighs 50 kg (110 lb) more than the coupé while maintaining the same performance statistics. The Spider has the same engine and aerodynamic components as the coupé and share the roof folding mechanism with the standard 570S Spider which can be operated at speeds upto 40 km/h (25 mph). The car can accelerate to 100 km/h (62 mph) in 2.9 seconds, to 200 km/h (124 mph) in 8.4 seconds (0.2 seconds more than the coupé) and can attain a top speed of 315 km/h (196 mph) with the roof retracted and 323 km/h (201 mph) with the roof closed. The car can achieve a dry weight of 1,297 kg (2,859 lb) when equipped with the MSO ClubSport package which includes the removal of air-conditioning and radio, titanium wheel nuts and the replacement of the standard seats with the carbon fibre seats from the Senna. The car has received rave reviews.

MG

Less than a year after the Rover 25 was launched, BMW sold the Rover Group to the Phoenix consortium for a token £10. By the summer of 2001, the newly named MG Rover Group introduced a sporty version of the Rover 25: the MG ZR. It had modified interior and exterior styling, as well as sports suspension, to give the car the look of a “hot” hatchback. The largest engine in the range was the 1.8 VVC 160 PS unit, which had a top speed of 130 mph . It was frequently Britain’s best-selling “hot hatch”. By 2004, the age of the Rover 25 / MG ZR’s interior design in particular was showing, so MG Rover gave the cars an exterior restyle to make them look more modern. The majority of changes however were focussed on the interior, which featured a completely new layout and fascia design. Production of both cars was suspended in April 2005 when the company went into administration. In March 2005 the 25 won the “Bargain of the Year Award” at the prestigious Auto Express Used Car Honours: “The compact hatchback was recognised by the judges for the availability and affordability that help make five-year old examples an attractive purchase proposition.”

In mid 2001, an MG version of the 45 had been launched, called the ZS, which gave MG a range of 3 different models as well as the TF sports car. The view of the press was that the suspension and steering alterations completely transformed the car, but this model was in a difficult part of the market, compared to the smaller ZR and is found fewer buyers. Those who did sample the ZS, especially in ZS 180 guise with the 2.5 litre KV6 got an absolutely cracking car though. It sported a V6 with all the aural benefits when all its rivals had 4 cylinder turbo engines. Later cars were facelifted to distinguish them more clearly from the Rover 45, with elements of the X Power bodykit being made standard.

PEUGEOT

Mindful of the success of the Golf GTi, in the class above, and how a small car with good handling could take more power, as the Mini Cooper had proved, Peugeot came up with the GTi in early 1984. The first models had a 1.6 litre XU5J engine, producing 105 PS, which was uprated in 1987 with a cylinder head with larger valves thus becoming XU5JA, which took the power output up to 115 bhp. Visually the car retained the good looks of the 3 door version of the regular models, but it featured plastic wheel arch extensions and trim, beefier front and rear bumper valances and judicious use of red badging and trim. The shell also underwent some minor changes, including larger wheel arches (to suit the larger wheels , and the suspension was redesigned and sat lower on the GTI with stiffer springs, different wishbones and a drop-linked anti-roll bar. Red was a dominant colour inside. The car was an instant hit. At the end of 1986, Peugeot followed up with a more potent model, the 1.9 GTi, whose XU9JA engine produced 128 PS. Internally the engine of this car and the 1.6 model are very similar, the main differences on 1.9 litre versions being the longer stroke, oil cooler, and some parts of the fuel injection system. The shorter stroke 1.6 litre engine is famed for being revvy and eager, while the 1.9 litre feels lazier and torquier. Outside the engine bay the main differences between the 1.6 GTi and the 1.9 GTi are half-leather seats on the 1.9 GTi vs. cloth seats and disc brakes all-round (1.9 GTi) vs. discs at the front and drum brakes at the back; as well as the 14-inch Speedline SL201 wheels on the 1.6 GTi  vs. 15 inch Speedline SL299 alloys on the 1.9 GTi. The 205 is still often treated as a benchmark in group car tests of the newest GTI models or equivalent. Peugeot itself has never truly recreated this success in future GTI models, although they came very close with the highly regarded GTI-6 variant of the Peugeot 306.

A cabriolet version of the 205, known as the CJ (or CT in France), was designed and partially assembled by Pininfarina of Italy. A CTi version, with the same plastic arches and wheels as the 1.6 GTI was also available. Only minor changes were made to the car in the next few years, with the most obvious visual change being the switch to grey bumpers and trim from black ones in 1990, along with revised lights. A new dashboard had been incorporated across the entire 205 range a couple of years before this. Sales of the GTI in the UK in the early 1990s were badly hit by soaring insurance premiums, brought about by high theft and ‘joyriding’ of cars of this sort. Increasingly stringent emissions regulations meant the 1.6 GTi went out of production in 1992, while the 1.9 litre was sold for a couple more years thanks to re-engineering of the engine to enable it to work properly with a catalytic converter, which dropped power to 122 bhp. Many of them had a hard life, but there are some nice original cars out there and people are starting to spend serious money in restoring them.

PORSCHE

The 911 traces its roots to sketches drawn by Ferdinand “Butzi” Porsche in 1959. The Porsche 911 was developed as a more powerful, larger and a more comfortable replacement for the 356, the company’s first model. The new car made its public debut at the 1963 Frankfurt Motor Show.  The car was developed with the proof-of-concept twin-fan Type 745 flat-six engine, but the car presented at the auto show had a non-operational mockup of the single-fan 901 engine, receiving a working unit in February 1964. It originally was designated as the “Porsche 901” (901 being its internal project number). A total of 82 cars were built as which were badges as 901s. However, French automobile manufacturer Peugeot protested on the grounds that in France it had exclusive rights to car names formed by three numbers with a zero in the middle. Instead of selling the new model with a different name in France, Porsche changed the name to 911. Internally, the cars’ part numbers carried on the prefix 901 for years. Production began in September 1964, with the first 911s exported to the US in February 1965. The first models of the 911 had a rear-mounted 130 hp Type 901/01 flat-6 engine, in the “boxer” configuration like the 356, the engine is air-cooled and displaces 1,991 cc  as compared to the 356’s four-cylinder, 1,582 cc unit. The car had four seats although the rear seats were small, thus it is usually called a 2+2 rather than a four-seater (the 356 was also a 2+2). A four or five-speed “Type 901” manual transmission was available. The styling was largely penned by Ferdinand “Butzi” Porsche, son of Ferdinand “Ferry” Porsche. Butzi Porsche initially came up with a notchback design with proper space for seating two rear passengers but Ferry Porsche insisted that the 356’s successor was to use its fastback styling. 7 prototypes were built based on Butzi Porsche’s original design and were internally called the Porsche 754 T7.  Erwin Komenda, the leader of the Porsche car body construction department who initially objected, was also involved later in the design. In 1966, Porsche introduced the more powerful 911S with Type 901/02 engine having a power output of 160 PS. Forged aluminium alloy wheels from Fuchsfelge, with a 5-spoke design, were offered for the first time. In motorsport at the same time, the engine was developed into the Type 901/20 and was installed in the mid-engine 904 and 906 with an increased power output of 210 PS, as well as fuel injected Type 901/21 installed in later variants of the 906 and 910 with a power output of 220 PS. In August 1967, the A series went into production with dual brake circuits and widened (5.5J-15) wheels still fitted with Pirelli Cinturato 165HR15 CA67 tyres. and the previously standard gasoline-burning heater became optional. The Targa version was introduced. The Targa had a stainless steel-clad roll bar, as automakers believed that proposed rollover safety requirements by the US National Highway Traffic Safety Administration (NHTSA) would make it difficult for fully open convertibles to meet regulations for sale in the US, an important market for the 911. The name “Targa” came from the Targa Florio sports car road race in Sicily, Italy in which Porsche had several victories until 1973. The last win in the subsequently discontinued event was scored with a 911 Carrera RS against prototypes entered by Ferrari and Alfa Romeo. The road going Targa was equipped with a removable roof panel and a removable plastic rear window (although a fixed glass version was offered from 1968). The 110 PS  911T was also launched in 1967 with Type 901/03 engine. The 130 PS model was renamed the 911L with Type 901/06 engine and ventilated front disc brakes. The brakes had been introduced on the previous 911S. The 911R with 901/22 engine had a limited production (20 in all), as this was a lightweight racing version with thin fibreglass reinforced plastic doors, a magnesium crankcase, twin overhead camshafts, and a power output of 210 PS. A clutchless semi-automatic Sportomatic model, composed of a torque converter, an automatic clutch, and the four-speed transmission was added in Autumn 1967. It was cancelled after the 1980 model year partly because of the elimination of a forward gear to make it a three-speed. The B series went into production in August 1968, replacing the 911L model with 911E with fuel injection. It remained in production until July 1969. The 911E gained 185/70VR15 Pirelli Cinturato CN36.and 6J-15 wheels. The C series was introduced in August 1969 with an enlarged 2.2-litre engine. The wheelbase for all 911 and 912 models was increased from 2,211–2,268 mm (87.0–89.3 in), to help as a remedy to the car’s nervous handling at the limit. The overall length of the car did not change, but the rear wheels were relocated further back. Fuel injection arrived for the 911S (901/10 engine) and for a new middle model, 911E (901/09 engine). The D series was produced from Aug. 1970 to July 1971. The 2.2-litre 911E (C and D series) had lower power output of the 911/01 engine (155 PS) compared to the 911S’s Type 911/02 (180 PS, but 911E was quicker in acceleration up to 160 km/h. The E series for 1972–1973 model years (August 1971 to July 1972 production) consisted of the same models, but with a new, larger 2,341 cc engine. This is known as the “2.4 L” engine, despite its displacement being closer to 2.3 litres. The 911E (Type 911/52 engine) and 911S (Type 911/53) used Bosch mechanical fuel injection (MFI) in all markets. For 1972 the 911T (Type 911/57) was carbureted, except in the US and some Asian markets where the 911T also came with (MFI) mechanical fuel injection (Type 911/51 engine) with power increase over European models (130 hp) to 140 hp commonly known as a 911T/E. With power and torque increase, the 2.4-litre cars also got a newer, stronger transmission, identified by its Porsche type number 915. Derived from the transmission in the 908 race car, the 915 did away with the 901 transmission’s “dog-leg” style first gear arrangement, opting for a traditional H pattern with first gear up to the left, second gear underneath first, etc. The E series had the unusual oil filler behind the right side door, with the dry sump oil tank relocated from behind the right rear wheel to the front of it in an attempt to move the center of gravity slightly forward for better handling. An extra oil filler/inspection flap was located on the rear wing, for this reason it became known as an “Oil Klapper”, “Ölklappe” or “Vierte Tür (4th door)”. The F series (August 1972 to July 1973 production) moved the oil tank back to the original behind-the-wheel location. This change was in response to complaints that gas-station attendants often filled gasoline into the oil tank. In January 1973, US 911Ts were switched to the new K-Jetronic CIS (Continuous Fuel Injection) system from Bosch on Type 911/91 engine. 911S models also gained a small spoiler under the front bumper to improve high-speed stability. The cars weighed 1,050 kg (2,310 lb). The 911 ST was produced in small numbers for racing (the production run for the ST lasted from 1970 to 1971). The cars were available with engines of either 1,987 cc or 2,404 cc, having a power output of 270 PS at 8,000 rpm. Weight was down to 960 kg (2,120 lb). The cars had success at the Daytona 6 Hours, the Sebring 12 Hours, the 1000 km Nürburgring, and the Targa Florio. The G Series cars, with revised bodies and larger impact-absorbing bumpers arrived in the autumn of 1973 and would continue in production with few visual changes but plenty of mechanical ones for a further 16 years.

The Porsche 930 is a turbocharged variant of the 911 model sports car manufactured by German automobile manufacturer Porsche between 1975 and 1989. It was the maker’s top-of-the-range 911 model for its entire production duration and, at the time of its introduction, was the fastest production car available in Germany. Porsche began experimenting with turbocharging technology on their race cars during the late 1960s, and in 1972 began development on a turbocharged version of the 911. Porsche originally needed to produce the car in order to comply with homologation regulations and had intended on marketing it as a street legal race vehicle like the 1973 Carrera 2.7 RS. The FIA’s Appendix “J” rules upon which the 911 Turbo Carrera RSR 2.1 was entered into competition in 1974 changed in 1975 and 1976. The FIA announced that cars for Group 4 and Group 5 had to be production cars and be available for sale to individual purchasers through manufacturer dealer networks. For the 1976 season, new FIA regulations required manufacturers to produce 400 cars within a twenty-four-month period to gain approval for Group 4. Group 5 would require the car to be derived from a homologated model in Group 3 or 4. Porsche’s Group 4 entry was the 934, homologated on 6 December 1975. For Group 5, Porsche would develop one of the most successful racing cars of the time, the 935. The 911 Turbo was put into production in 1975. While the original purpose of the 911 Turbo was to gain homologation for the 1976 racing season, it quickly became popular among car enthusiasts. Four hundred cars were produced by the end of 1975.[citation needed] Since Porsche wanted to compete in the 1976 season, they gained FIA homologation for the Porsche Turbo for Group 4 in Nr. 645 on 6 December 1975 and the 1,000th 911 Turbo was completed on 5 May 1976. Ferry Porsche gave the first Turbo model to his sister Louise Piëch for her 70th birthday. Although this 911 Turbo No. 1 already has the large rear spoiler of the later production model, it still has the narrower bodywork of the Carrera, whose lettering at the rear has not been removed. In addition, the 911 Turbo No. 1 has only a turbocharged 2.7-liter boxer engine with 240 hp instead of the 3.0-liter boxer engine installed later. Ernst Fuhrmann adapted the turbo-technology originally developed for the 917/30 CAN-AM car and applied it to the 3.0 litre flat-six used in Carrera RS 3.0, thus creating what Porsche internally dubbed as the 930. The car utilises a single KK&K turbocharger. Total power output from the engine was 260 PS at 5,500 rpm and 329 Nm (243 lb/ft) of torque at 4,000 rpm, much more than the standard Carrera it was based on. The engine has a compression ratio of 6.5:1. In order to ensure that the platform could make the most of the higher power output, a revised suspension, larger brakes and a stronger gearbox became part of the package, although some consumers were unhappy with Porsche’s use of a four-speed transmission whilst a five-speed manual transmission was available in the “lower trim” Carrera. A “whale tail” rear spoiler was installed to help vent more air to the engine and to create more downforce at the rear of the vehicle, and wider rear wheels with upgraded tires combined with flared wheel arches were implemented in order to increase the car’s width and grip, making it more stable. Porsche badged the vehicle simply as “Turbo” (although early U.S. units were badged as “Turbo Carrera”) and introduced the vehicle at the Paris Auto Show in October 1974 before putting it on sale in the spring of 1975; export to the United States began in 1976. The 930 proved very fast but also very demanding to drive, and due to its short wheelbase and rear engine layout, was prone to oversteer and turbo-lag. It acquired the nickname “the Widowmaker” after several crashes and deaths attributed to its handling characteristics, which were unfamiliar to many drivers. Under certain conditions, applying too much throttle would cause the heavy rear end of the car to swing outward like a pendulum, causing the car to spin out. To this day, Porsche corporate employees who drive 911 Turbo models for testing or for business reasons are mandated to undergo “Turbo Training”, despite the fact that newer 911 Turbo models are generally safer and easier to drive. Porsche made its first and most significant changes to the 930 for 1978 model year, enlarging the engine bore by 2 mm (0.08 in) to a total displacement of 3,299 cc and adding an air-to-air intercooler. By cooling the pressurised air charge, the intercooler helped increase power output to 300 PS at 5,500 rpm and 412 Nm (304 lb/ft) of torque at 4,000 rpm (DIN); the rear ‘whale tail’ spoiler was re-profiled and raised slightly to make room for the intercooler and the spoiler was now infamously called the ‘tea tray’ spoiler by the enthusiasts. The suspension benefitted from new anti-roll bars, firmer shock absorbers and larger diameter rear torsion bars. Porsche also upgraded the brakes to units similar to those used on the 917 race car. While the increase in displacement and addition of an intercooler increased power output and torque, these changes also increased the weight of the vehicle, especially the engine, which contributed to a substantial change in the handling and character of the car compared to the earlier 3.0-litre models. Changing emissions regulations in Japan and the United States forced Porsche to withdraw the 930 from those markets in 1980. It however remained available in Canada. Envisioning the luxurious 928 gran turismo eventually replacing the 911 as the top of the Porsche model lineup, Fuhrmann cut back further development on the model, and it was not until his resignation that the company finally committed the financing to update the car’s emissions systems, and recertify the 930 for sale in all markets. The 930 remained available in Europe, and for 1983 a 330 PS at 5750 rpm and 432 Nm (319 lb/ft) of torque at 4000 rpm[8] performance option became available on a build-to-order basis from Porsche. With the so-called Werksleistungssteigerung (WLS, “Works Performance Increase”) add-on came a quad-pipe exhaust system and an additional oil-cooler requiring a remodelled front spoiler and units bearing the add-on often featured additional ventilation holes in the rear fenders and modified rockers. By the 1985 model year, 928 sales had risen slightly, but the question remained as to whether it would supersede the 911 as the company’s premier model. Porsche reintroduced the 930 to the Japanese and U.S. markets in 1986 with an emission-controlled engine having a power output of 286 PS at 5500 rpm and 377 Nm (278 lb/ft) at 4000 rpm of torque. At the same time Porsche introduced targa and cabriolet variants, both of which proved popular. Porsche discontinued the 930 after the 1989 model year when its underlying “G-Series” platform was being replaced by the 964. The 1989 models were the first and last versions of the 930 to feature the Getrag G50 five-speed manual transmission. A turbocharged variant of the 964 officially succeeded the 930 in 1991 with a modified version of the same 3.3-litre flat-six engine and a five-speed transmission.

During the 1990s, Porsche was facing financial troubles and rumours of a proposed takeover were being spread. The signature air-cooled flat-6 of the 911 was reaching the limits of its potential as made evident by the 993. Stricter emissions regulations world wide further forced Porsche to think of a replacement of the air-cooled unit. In order to improve manufacturing processes, Porsche took the aid of leading Japanese car manufacturer Toyota whose consultants would assist in the overhaul of the Zuffenhausen manufacturing facility introducing mass production techniques which would allow Porsche to carry out production processes more efficiently. Porsche had realised that in order to keep the 911 in production, it would need radical changes. This led to the development of the 996. The sharing of development between the new 911 and the entry level Boxster model allowed Porsche to save development costs. This move also resulted in interchangeable parts between the two models bringing down maintenance costs. The Porsche 996 was a new design developed by Pinky Lai under Porsche design chief Harm Lagaay from 1992 to 1994; it was the first 911 that was completely redesigned, and carried over little from its predecessor as Porsche wanted the design team to design a 911 for the next millennium. Featuring an all new body work, interior, and the first water-cooled engine, the 996 replaced the 993 from which only the front suspension, rear multi-link suspension, and a 6-speed manual transmission were retained in revised form. The 996 had a drag coefficient of Cd=0.30 resulting from hours spent in the wind tunnel. The 996 is 185 mm (7 in) longer and 40 mm (2 in) wider than its predecessor. It is also 45% stiffer courtesy of a chassis formed from high-strength steel. Additionally, it is 50 kg (110 lb) lighter despite having additional radiators and coolant. All of the M96 engines offered in the 996 (except for the variants fitted to the Turbo and GT2/GT3 models) are susceptible to the Porsche Intermediate Shaft Bearing issue which can potentially cause serious engine failure if not addressed via a retrofit. The 996 was initially available in a coupé or a cabriolet (Convertible) bodystyle with rear-wheel drive, and later with four-wheel drive, utilising a 3.4 litre flat-6 engine generating a maximum power output of 296 bhp. The 996 had the same front end as the entry-level Boxster. After requests from the Carrera owners about their premium cars looking like a “lower priced car that looked just like theirs did”, Porsche redesigned the headlamps of the Carrera in 2002 similar to the high performance Turbo’s headlamps. The design for the initial “fried egg” shaped headlamps could be traced back to the 1997 911 GT1 race car. In 2000, Porsche introduced the 996 Turbo, equipped with a four-wheel-drive system and a 3.6-litre, twin-turbocharged and intercooled flat-six engine generating a maximum power output of 420 bhp, making the car capable of accelerating from 0–60 mph in 4.2 seconds. An X50 option which included larger turbochargers and intercoolers along with revised engine control software became available from the factory in 2002, increasing power output to 451 bhp. In 2005, Porsche introduced the Turbo S, which had the X50 option included as standard equipment, with the formerly optional Carbon fibre-reinforced Silicon Carbide (C/SiC) composite ceramic brakes (PCCB) also included as standard. In 2000, power output on the base Carrera model was increased to 300 bhp. 2001 marked the final year of production for the base Carrera 4 Coupé in narrow body format. In 2002, the standard Carrera models underwent the above-mentioned facelift. In addition, engine capacity was also increased to 3.6-litres across the range, yielding gains of 15 bhp for the naturally aspirated models. 2002 also marked the start of the production of the 996 based Targa model, with a sliding glass “green house” roof system as introduced on its predecessor. It also features a rear glass hatch which gave the driver access to the storage compartment. Also in 2002, the Carrera 4S model was first introduced.

The 996 was replaced with the 997 in 2005. It retains the 996’s basic profile, with an even lower 0.28 drag coefficient, but draws on the 993 for detailing. In addition, the new headlights revert to the original bug-eye design from the teardrop scheme of the 996. Its interior is also similarly revised, with strong links to the earlier 911 interiors while at the same time looking fresh and modern. The 997 shares less than a third of its parts with the outgoing 996, but is still technically similar to it. Initially, two versions of the 997 were introduced— the rear-wheel-drive Carrera and Carrera S. While the base 997 Carrera had a power output of 321 hp from its 3.6 L Flat 6, a more powerful 3.8 L 350 hp Flat 6 powers the Carrera S. Besides a more powerful engine, the Carrera S also comes standard with 19 inch “Lobster Fork” style wheels, more powerful and larger brakes (with red calipers), lowered suspension with PASM (Porsche Active Suspension Management: dynamically adjustable dampers), Xenon headlamps, and a sports steering wheel. In late 2005, Porsche introduced the all-wheel-drive versions to the 997 lineup. Carrera 4 models (both Carrera 4 and Carrera 4S) were announced as 2006 models. Both Carrera 4 models are wider than their rear-wheel-drive counterparts by 1.76 inches (32 mm) to cover wider rear tyres. The 0–100 km/h (62 mph) acceleration time for the Carrera 4S with the 350 hp engine equipped with a manual transmission was reported at 4.8 seconds. The 0–100 km/h (62 mph) acceleration for the Carrera S with the 350 hp was noted to be as fast as 4.2 seconds in a Motor Trend comparison, and Road & Track has timed it at 3.8 seconds. The 997 lineup includes both 2- and 4-wheel-drive variants, named Carrera and Carrera 4 respectively. The Targas (4 and 4S), released in November 2006, are 4-wheel-drive versions that divide the difference between the coupés and the cabriolets with their dual, sliding glass tops. The 997 received a larger air intake in the front bumper, new headlights, new rear taillights, new clean-sheet design direct fuel injection engines, and the introduction of a dual-clutch gearbox called PDK for the 2009 model year. They were also equipped with Bluetooth support. The change to the 7th generation (991) took place in the middle of the 2012 model year. A 2012 Porsche 911 can either be a 997 or a 991, depending on the month of the production.

The 991 introduced in 2012 is an entirely new platform, only the third since the original 911. Porsche revealed basic information on the new Carrera and Carrera S models on 23 August 2011. The Carrera is powered by a 350 hp 3.4-litre engine. The Carrera S features a 3.8-litre engine rated at 400 hp. A Power Kit (option X51) is available for the Carrera S, increasing power output to 430 hp. The new 991’s overall length grows by 56 mm (2.2 in) and wheelbase grows by 99 mm (3.9 in) (now 96.5 in.) Overhangs are trimmed and the rear axle moves rearward at roughly 76 mm (3 in) towards the engine (made possible by new 3-shaft transmissions whose output flanges are moved closer to the engine). There is a wider front track (51 mm (2 in) wider for the Carrera S). The design team for the 991 was headed by Michael Mauer. At the front, the new 991 has wide-set headlights that are more three-dimensional. The front fender peaks are a bit more prominent, and wedgy directionals now appear to float above the intakes for the twin coolant radiators. The stretched rear 3/4 view has changed the most, with a slightly more voluminous form and thin taillights capped with the protruding lip of the bodywork. The biggest and main change in the interior is the center console, inspired by the Carrera GT and adopted by the Panamera. The 991 is the first 911 to use a predominantly aluminium construction. This means that even though the car is larger than the outgoing model, it is still up to 50 kilograms (110 lb) lighter. The reduced weight and increased power means that both the Carrera and Carrera S are appreciably faster than the outgoing models. The 0–60 mph acceleration time for the manual transmission cars are 4.6 seconds for the Carrera and 4.3 seconds for the Carrera S. When equipped with the PDK transmission, the two 991 models can accelerate from 0–97 km/h in 4.4 seconds and 4.1 seconds. With the optional sports chrono package, available for the cars with the PDK transmission, the 991 Carrera can accelerate from 0–97 km/h in as little as 4.2 seconds and the Carrera S can do the same in 3.9 seconds. Apart from the reworked PDK transmission, the new 991 is also equipped with an industry-first 7-speed manual transmission. On vehicles produced in late 2012 (2013 model year) Rev Matching is available on the 7-speed manual transmission when equipped with the Sport Chrono package. Rev-Matching is a new feature with the manual transmission that blips the throttle during downshifts (if in Sport Plus mode). Also, the 7th gear cannot be engaged unless the car is already in 5th or 6th gear. One of Porsche’s primary objectives with the new model was to improve fuel economy as well as increase performance. In order to meet these objectives, Porsche introduced a number of new technologies in the 911. One of the most controversial of these is the introduction of electromechanical power steering instead of the previous hydraulic steering. This steering helps reduce fuel consumption, but some enthusiasts feel that the precise steering feedback for which the 911 is famous is reduced with the new system.[citation needed] The cars also feature an engine stop/start system that turns the engine off at red lights, as well as a coasting system that allows the engine to idle while maintaining speed on downhill gradients on highways. This allows for up to a 16% reduction in fuel consumption and emissions over the outgoing models. The new cars also have a number of technologies aimed at improving handling. The cars include a torque vectoring system (standard on the Carrera S and optional on the Carrera) which brakes the inner wheel of the car when going into turns. This helps the car to turn in quicker and with more precision. The cars also feature hydraulic engine mounts (which help reduce the inertia of the engine when going into turns) as part of the optional sports chrono package. Active suspension management is standard on the Carrera S and optional on the Carrera. This helps improve ride quality on straights while stiffening the suspension during aggressive driving. The new 991 is also equipped with a new feature called Porsche Dynamic Chassis Control (PDCC). Porsche claims that this new feature alone has shaved 4 seconds off the standard car’s lap time around the Nürburgring. PDCC helps the car corner flat and is said to improve high-speed directional stability and outright lateral body control, but according to several reviews, the car is more prone to understeer when equipped with this new technology. In January 2013, Porsche introduced the all-wheel-drive variants of the Carrera models. The ‘4’ and ‘4S’ models are distinguishable by wider tyres, marginally wider rear body-work and a red-reflector strip that sits in between the tail-lights. In terms of technology, the 4 and 4S models are equipped with an all-new variable all-wheel-drive system that sends power to the front wheels only when needed, giving the driver a sense of being in a rear-wheel-drive 911. In May 2013, Porsche announced changes to the model year 2014 911 Turbo and Turbo S models, increasing their power to 513 hp on the ‘Turbo’, and 552 hp on the ‘Turbo S’, giving them a 0–97 km/h acceleration time of 3.2 and 2.9 seconds, respectively. A rear-wheel steering system has also been incorporated on the Turbo models that steers the rear wheels in the opposite direction at low speeds or the same direction at high speeds to improve handling. During low-speed manoeuvres, this has the virtual effect of shortening the wheelbase, while at high speeds, it is virtually extending the wheelbase for higher driving stability and agility. In January 2014, Porsche introduced the new model year 2015 Targa 4 and Targa 4S models. These new models come equipped with an all-new roof technology with the original Targa design, now with an all-electric cabriolet roof along with the B-pillar and the glass ‘dome’ at the rear. In September 2015, Porsche introduced the second generation of 991 Carrera models at the Frankfurt Motor Show. Both Carrera and Carrera S models break with previous tradition by featuring a 3.0-litre turbocharged 6-cylinder boxer engine, marking the first time that a forced induction engine has been fitted to the base models within the 911 range

There were also a couple of examples of the current 991 model, the one referred to as the 992.

Whilst its precursor, the 924, had received largely positive reviews, it was criticised by many including Porsche enthusiasts for its Audi-sourced engine and although the Turbo model had increased performance, this model carried a high price, which caused Porsche to decide to develop the 924, as they had with generations of the 911. They re-worked the platform and a new all-alloy 2.5 litre inline-four engine, that was, in essence, half of the 928’s 5.0 litre V8, although very few parts were actually interchangeable. Not typical in luxury sports cars, the four-cylinder engine was chosen for fuel efficiency and size, because it had to be fitted from below on the Neckarsulm production line. To overcome roughness caused by the unbalanced secondary forces that are typical of four-cylinder engines, Porsche included two counter-rotating balance shafts running at twice engine speed. Invented in 1904 by British engineer Frederick Lanchester, and further developed and patented in 1975 by Mitsubishi Motors, balance shafts carry eccentric weights which produce inertial forces that balance out the unbalanced secondary forces, making a four-cylinder engine feel as smooth as a six-cylinder. The engine was factory-rated at 150 hp in its U.S. configuration. Revised bodywork with wider wheel arches, similar to that of the 924 Carrera GT, a fresh interior and upgrades to the braking and suspension systems rounded out the major changes and Porsche introduced the car as the  944 in 1982. It was slightly faster (despite having a poorer drag co-efficient than the 924), the 944 was better equipped and more refined than the 924; it had better handling and stopping power, and was more comfortable to drive. The factory-claimed 0-60 mph time of less than 9 seconds and a top speed of  130 mph which turned out to be somewhat pessimistic,  In mid-1985, the 944 underwent its first significant changes. These included : a new dash and door panels, embedded radio antenna, upgraded alternator, increased oil sump capacity, new front and rear cast alloy control arms and semi-trailing arms, larger fuel tank, optional heated and powered seats, Porsche HiFi sound system, and revisions in the mounting of the transaxle to reduce noise and vibration. The “cookie cutter” style wheels used in the early 944s were upgraded to new “phone dial” style wheels (Fuchs wheels remained an option). 1985 model year cars incorporating these changes are sometimes referred to as “1985B”, “85.5” or “1985½” cars. For the 1987 model year, the 944 Motronic DME was updated, and newly incorporated anti-lock braking and air bags. Because of the ABS system, the wheel offset changed and Fuchs wheels were no longer an option. In early 1989 before the release of the 944S2, Porsche upgraded the 944 from the 2.5 to a 2.7 litre engine, with a rated 162 hp and a significant increase in torque. For the 1985 model year, Porsche introduced the 944 Turbo, known internally as the 951. This had a turbocharged and intercooled version of the standard car’s engine that produced 220 PS at 6000 rpm. In 1987, Car and Driver tested the 944 Turbo and achieved a 0-60 mph time of 5.9 seconds. The Turbo was the first car using a ceramic port liner to retain exhaust gas temperature and new forged pistons and was also the first vehicle to produce identical power output with or without a catalytic converter. The Turbo also featured several other changes, such as improved aerodynamics, notably an integrated front bumper. This featured the widest turn signals (indicators) fitted to any production car, a strengthened gearbox with a different final drive ratio, standard external oil coolers for both the engine and transmission, standard 16 inch wheels (optional forged Fuchs wheels), and a slightly stiffer suspension (progressive springs) to handle the extra weight. The Turbo’s front and rear brakes were borrowed from the Porsche 911, with Brembo 4-piston fixed calipers and 12-inch discs as ABS also came standard. Engine component revisions, more than thirty in all, were made to the 951 to compensate for increased internal loads and heat. Changes occurred for the 1987 model year. On the interior, the 1987 944 Turbo for North America became the first production car in the world to be equipped with driver and passenger side air bags as standard equipment. A low oil level light was added to the dash as well as a 180 mph (290 km/h) speedometer as opposed to the 170 mph speedometer on the 1986 model Turbos. Also included is the deletion of the transmission oil cooler, and a change in suspension control arms to reduce the car’s scrub radius. The engine remained the same M44/51 as in the 1986 model. In 1988, Porsche introduced the Turbo S. The 944 Turbo S had a more powerful engine (designation number M44/52) with 250 hp and 258 lb·ft torque (standard 944 Turbo 220 hp and 243 lb·ft. This higher output was achieved by using a larger K26-8 turbine housing and revised engine mapping which allowed maintaining maximum boost until 5800 rpm, compared to the standard 944 Turbo the boost would decrease from 1.75 bar at 3000 rpm to 1.52 bar at 5800 rpm. Top speed was factory rated at 162 mph. The 944 Turbo S’s suspension had the “M030” option consisting of Koni adjustable shocks front and rear, with ride height adjusting threaded collars on the front struts, progressive rate springs, larger hollow rear anti-roll/torsion bars, harder durometer suspension bushings, larger hollow anti-roll/torsion bars at the front, and chassis stiffening brackets in the front frame rails. The air conditioning dryer lines are routed so as to clear the front frame brace on the driver’s side. The 944 Turbo S wheels, known as the Club Sport design, were 16-inch Fuchs forged and flat-dished, similar to the Design 90 wheel. Wheel widths were 7 inches in the front, and 9 inches in the rear with 2.047 in offset; sizes of the Z-rated tyres were 225/50 in the front and 245/45 in the rear. The front and rear fender edges were rolled to accommodate the larger wheels. The manual transmission featured a higher friction clutch disc setup, an external cooler, and a limited slip differential with a 40% lockup setting. The Turbo S front brakes were borrowed from the Porsche 928 S4, with larger Brembo GT 4-piston fixed calipers and 12-inch discs; rear Brembo brakes remained the same as a standard Turbo. ABS also came standard. The 944 Turbo S interior featured power seats for both driver and passenger, where the majority of the factory-built Turbo S models sported a “Burgundy plaid” (Silver Rose edition) but other interior/exterior colours were available. A 10-speaker sound system and equalizer + amp was a common option with the Turbo S and S/SE prototypes. Only the earlier 1986, 250 bhp prototypes featured a “special wishes custom interior” options package. In 1989 and later production, the ‘S’ designation was dropped from the 944 Turbo S, and all 944 Turbos featured the Turbo S enhancements as standard, however the “M030” suspension and the Club Sport wheels were not part of that standard. The 944 Turbo S was the fastest production four cylinder car of its time. For the 1987 model year, the 944S “Super” was introduced, featuring a high performance normally aspirated, dual-overhead-cam 16-valve 190 PS version of the 2.5 litre engine (M44/40) featuring a self-adjusting timing belt tensioner. This marked the first use of four-valve-per-cylinder heads and DOHC in the 944 series, derived from the 928 S4 featuring a redesigned camshaft drive, a magnesium intake tract/passages, magnesium valve cover, larger capacity oil sump, and revised exhaust system. The alternator capacity was 115 amps. The wheel bearings were also strengthened and the brake servo action was made more powerful. Floating 944 calipers were standard, but the rear wheel brake circuit pressure regulator from the 944 turbo was used. Small ’16 Ventiler’ script badges were added on the sides in front of the body protection mouldings. Performance was quoted as 0 – 100 km/h in 6.5 seconds and a 144 mph top speed due to a 2857 lb weight. It also featured an improved programmed Bosch Digital Motronic 2 Computer/DME with dual knock sensors for improved fuel performance for the higher 10.9:1 compression ratio cylinder head. Like the 944 Turbo, the 944S received progressive springs for greater handling, Larger front and rear anti-roll bars, revised transmission and gearing to better suit the 2.5 litre DOHC higher 6800 rpm rev limit. Dual safety air bags, limited-slip differential, and ABS braking system were optional on the 944S. A Club Sport touring package (M637) was available as was the lightweight 16 inch CS/Sport Fuch 16×7 and 16×9 forged alloy wheels. This SC version car was raced in Canada, Europe and in the U.S. IMSA Firehawk Cup Series. Production was only during 1987 and 1988. It was superseded in 1989 by the ‘S2’ 944 edition. The 1987 944S power-to-weight ratio was such that it was able to accelerate from 0 to 62 mph in 6.5 seconds thus matching the acceleration of its newer larger displacement 3.0 litre 944 S2 sibling. In 1989 the 944S2 was introduced, powered by a 211 PS normally aspirated, dual-overhead-cam 16-valve 3.0 litre version of the 944S engine, the largest production 4-cylinder engine of its time. The 944S2 also received a revised transmission and gearing to better suit the 3.0 litre M44/41 powerplant. The 944S2 had the same rounded nose and a rear valance found on the Turbo model. This was the first example of the use of an integrated front bumper, where the fender and hood profiles would merge smoothly with the bumper, a design feature that has only now seen widespread adoption on the 1990 onward production cars. Performance was quoted as 0-60 mph in 6.0 seconds with a top speed of 240 km/h (150 mph) via manual transmission. A Club Sport touring package (M637) was also available. Dual air bags (left hand drive models), limited-slip differential and ABS were optional. Series 90 16-inch cast alloy wheels were standard equipment. In 1989, Porsche released the 944 S2 Cabriolet, a first for the 944 line that featured the cabriolet body built by ASC-American Sunroof Company at Weinsberg Germany. The first year of production included sixteen 944 S2 Cabriolet for the U.S. market. For the 1990 model year, Porsche produced 3,938 944 S2 Cabriolets for all markets including right-hand drive units for the United Kingdom, Australia and South Africa. This car was raced, including the British championship that was called the Porsche Motorsport Championship. Production was during 1989, 1990, and 1991. The 944 S2 power-to-weight ratio was such that it was able to accelerate from 0 to 60 mph in 6.5 seconds. In February 1991, Porsche released the 944 Turbo Cabriolet, which combined the Turbo S’s 250 hp engine with the cabriolet body built by ASC-American Sunroof Company at Weinsberg Germany. Porsche initially announced that 600 would be made; ultimately 625 were built, 100 of which were right-hand drive for the United Kingdom, Japanese, Australian, and South African market. None were imported to the U.S. and The Americas. In early 1990, Porsche engineers began working on what they had intended to be the third evolution of the 944, the S3. As they progressed with the development process, they realised that so many parts were being changed that they had produced an almost entirely new vehicle. Porsche consequently shifted development from the 944 S/S2 to the car that would replace the 944 entirely, the 968. The 944’s final year of production was 1991. A grand total 163,192 cars in the 944 family were produced between 1982 and 1991. This made it the most successful car line in Porsche’s history until the introductions of the Boxster and 997 Carrera.

The commercially very significant Boxster was also represented here. Grant Larson’s design, inspired by the 356 Cabriolet, Speedster, and 550 Spyder, stimulated a commercial turnaround for Porsche. Through consultation with Toyota. Porsche began widely sharing parts among models and slashed costs. By October 1991 following a visit to the Tokyo Motor Show, Porsche in dire straits, began to devise solutions to succeed the poor selling 928 and incoming 968 (a heavy update of the 944). In February 1992, Porsche began development of a successor to the 928 (mildly updated for 1992) and recently released 968. By June 1992, out of 4 proposals based on dual collaboration between the 986 and 996 (993 successor) design teams, a proposal by Grant Larson and Pinky Lai was chosen by Harm Lagaay. In August 1992, a decision was made to develop the concept into a show vehicle, in time for the 1993 North American International Auto Show. After garnering widespread acclaim from the press and public upon presentation of the Boxster Concept in January 1993, the final production 986 production exterior design by Larson was frozen in March 1993. However, by the second half of 1993, difficulties arose with fitment of some components, resulting in lengthening of the hood and requiring another design freeze by fourth quarter of that year. Prototypes in 968 bodies were built to test the mid-engine power train of the 986 by the end of 1993, with proper prototypes surfacing in 1994. Pilot production began in the second half of 1995, ahead of series production in mid-1996. The Boxster was released ahead of the 996. The 986 Boxster had the same bonnet, front wings, headlights, interior and engine architecture as the 996. All 986 and 987 Boxsters use the M96, a water-cooled, horizontally opposed (“flat”), six-cylinder engine. It was Porsche’s first water-cooled non-front engine. In the Boxster, it is placed in a mid-engine layout, while in the 911, the classic rear-engine layout was used. The mid-engine layout provides a low centre of gravity, a near-perfect weight distribution, and neutral handling. The engines had a number of failures, resulting in cracked or slipped cylinder liners, which were resolved by a minor redesign and better control of the casting process in late 1999. A failure for these early engines was a spate of porous engine blocks, as the manufacturer had difficulty in the casting process. In addition to causing problems with coolant and oil systems mingling fluids, it also resulted in Porsche’s decision to repair faulty engines by boring out the cast sleeves on the cylinders where defects were noted in production and inserting new sleeves rather than scrapping the engine block. Normally, the cylinder walls are cast at the same time as the rest of the engine, this being the reason for adopting the casting technology. The model received a minor facelift in 2002. The plastic rear window was replaced by a smaller glass window. The interior received a glove compartment, new electro-mechanical hood and trunk release mechanism (with an electronic emergency release in the fuse box panel) and an updated steering wheel. Porsche installed a reworked exhaust pipe and air intake. In addition, the front headlight’s amber indicators were replaced with clear indicators. The rear light cluster was also changed with translucent grey turn signals replacing the amber ones. The side marker lights on the front wings were changed as well from amber to clear, except on American market cars where they remained amber. The bumpers were also changed slightly for a more defined, chiselled appearance, and new wheel designs were made available. The second generation of the Boxster debuted at the 2004 Paris Motor Show

In 2021, Porsche unveiled the 718 Cayman GT4 RS, the first Cayman to receive the RS treatment which is usually reserved for the 911 models. With a 4.0 naturally aspirated flat-six derived from the 911 GT3, it puts out 500 PS (490 bhp) and 450 Nm (330 lb/ft) with an rpm limit of 9,000rpm, which allows it to sprint from 0–100 km/h (0–62 mph) in just 3.4 seconds. It generates 25% more downforce than the GT4 variant, through a swan-neck attachment fixed rear wing. The GT4 RS lapped the Nürburgring Nordschleife 23 seconds faster than the GT4. There is a hefty price premium over the GT4 model.

RAM

1500

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.

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.

Subaru debuted the turbocharged WRX performance variant of the third generation series alongside the mainstream naturally aspirated models on 2 April 2007. For this generation, most markets adopted the abbreviated name “WRX”, although the Japanese, North American and UK markets retained the full “Subaru Impreza WRX” title. The 2.5-litre EJ255 engine is largely unchanged internally. The main change is the airflow efficiency of the heads. Changes in the engine compartment consist primarily of a fourth generation Legacy GT style intake manifold and intercooler. The TD04 turbo remains from the previous generation, however it has been adjusted to fit the new intake design. Power output consists of 227 bhp and 320 Nm (236 lb/ft) from its 2.5-litre engine. It was offered in either a five-speed manual, or 4 speed automatic. The five-speed manual transmission was changed to the same found in the fourth-generation Legacy GT. The rear limited slip differential has been discarded in exchange for the new VDC (Vehicle Dynamics Control) system. The weight of the car also has been reduced and gives the WRX a 0 to 100 km/h (0 to 62 mph) time of 5.8 seconds. In contrast, curb weight of the standard Impreza model is around 27.2 kg (60 lb) heavier. For the US market, the WRX was offered in “base”, Premium, and Limited trim levels. In Australia, the WRX is available as a sedan or hatchback. An optional premium package adds the satellite navigation with DVD player and 7-inch screen, leather upholstery and a sunroof. In response to criticism that the third generation WRX suspension is too soft, and needing to keep on par with rival car companies new releases, Subaru issued several changes in 2008 for the 2009 model year, known in the UK as the WRX-S. The EJ255 engine received an output boost to 265 bhp and 331 Nm (244 lb/ft) of torque by swapping the previous TD04 turbocharger to an IHI VF52. This led to the car now achieving a 0–60 mph time of 4.7 seconds, as tested by Car and Driver. In addition, the updated model received altered springs/struts, sway bars, and Dunlop summer tires to improve handling. Exterior cosmetic changes included the 2008 WRX Premium aero package, STi spoiler (Hatchback only), updated grill with WRX badge, and darker Gunmetal colored wheels as standard equipment. Interior changes consisted of aluminium pedals, silver trim around the shifter, red stitching on the shift boot and seats, and a red WRX logo embroidered on the driver and passenger seat. Further changes in 2010 (for the 2011 model year) saw the WRX gain the wide-body shell from the STI, as well as the addition of quad muffler tips with diffuser. The new model gains 15 kg (33 lb). Firmer rear sub-frame bushings and wider 17-inch wheels contribute to improved traction.

TOYOTA

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.

Also here was the still current GR Supra.

TRIUMPH

This car, belonging to my friend Mike Foster, as I found out when he told me he had recently bought it is an example of the first of the TR models, the TR2, produced between 1953 and 1955, during which time 8,636  cars were produced. Standard’s Triumph Roadster was out-dated and under-powered. Company boss Sir John Black tried to acquire the Morgan Motor Company but failed. He still wanted an affordable sports car, so a prototype two-seater was built on a shortened version of the Standard Eight’s chassis and powered by the Standard Vanguard’s 2-litre straight-4. The resulting Triumph 20TS prototype was revealed at the 1952 London Motor Show. Black asked BRM development engineer and test driver Ken Richardson to assess the 20TS. After he declared it to be a “death trap” a project was undertaken to improve on the design; a year later the TR2 was revealed. It had better looks; a simple ladder-type chassis; a longer body; and a bigger boot. It was loved by American buyers, and became the best earner for Triumph. In 1955 the TR3 came out with more power; a re-designed grille; and a GT package that included a factory hard-top. The car used a twin H4 type SU carburettor version of the 1991 cc four-cylinder Standard wet liner inline-four engine from the Vanguard, tuned to increase its output to 90 bhp. The body was mounted on a substantial separate chassis with coil-sprung independent suspension at the front and a leaf spring live axle at the rear. Either wire or disc wheels could be supplied. The standard transmission was a four-speed manual unit, with overdrive available on top gear as an option. Lockheed drum brakes were fitted all round. The car was replaced by the similar looking TR3 in 1955.

VAUXHALL

In 1973, Vauxhall acknowledged that their rather dull model range needed a makeover, and developed a radical version of the Firenza, known officially as the High Performance (HP) Firenza, but known colloquially as the “droopsnoot” after its dramatically styled aerodynamic nose. The nose was moulded from GRP, and featured two pairs of Cibié headlamps behind toughened glass covers. The overall look was somewhat reminiscent of the Renault Alpine A310, and used the same headlamp units. Several prototypes of the HP Firenza were considered with different types of front end treatment, requiring different degrees of change from the standard production front end, including cars known as Black Knight and Daytona, the latter for its resemblance to the Ferrari Daytona, a favourite of Wayne Cherry. At that time, the original flat-fronted Firenza model was rebadged as the Magnum coupé, and the name Firenza was used exclusively for the HP version. This car was an exciting styling departure for Vauxhall, and certainly created something of a buzz. The engine was the 2.3-litre variant of the OHC Slant Four engine, uprated to a very torquey 131 bhp using a variety of parts developed by Blydenstein Racing. It had twin 175 Stromberg carburettors, high-lift camshaft and free-flow tubular exhaust manifold. The car was restyled on the David Jones original by American designer Wayne Cherry and the result was an exceptionally low drag coefficient for its time. Suspension was uprated and lowered, brakes uprated, and a 5-speed ZF dog leg gearbox was installed, a much stronger unit than fitted to the standard model (though rather noisy). Another unusual and unique feature of the car was the alloy Avon Safety Wheels, which were designed to retain the tyre safely in the event of a puncture. This was the first car to use these wheels in production. All production cars were painted in the same colour – Silver Starfire, and featured a largely black interior with silver-grey cloth seats. An unusual interior feature of dubious utility was the passenger grab handle on the dash in place of the standard glovebox. The car was a design triumph for Vauxhall, but a marketing failure. The car was launched to much publicity in a special one-off race at Thruxton circuit in Hampshire, with top drivers of the day taking part including Gerry Marshall and Barry “Whizzo” Williams, who won the race. However, the fuel crisis of the time meant that suddenly it became very hard to sell gas-guzzling cars like this (even though the aerodynamics increased fuel economy greatly, reducing the power needed to attain its top speed by some 30 hp), and coupled with some production line difficulties in actually building the car meant that sales and delivery were slow, and eventually just 204 examples were built, far short of the 30,000 projected. This very low volume was obviously a disaster for Vauxhall, but ironically it has led to the car becoming a very collectible classic, thus ensuring its survival—some of the much more common production cars produced alongside it can be now harder to find. Celebrity owners of droopsnoot Firenzas are footballer Luther Blissett and former sports commentator Stuart Hall. The Firenza was also very successful in saloon car racing in the 1970s, especially in its Old Nail and Baby Bertha versions, piloted to great effect by Gerry Marshall. As well as the HP version, also to be seen here was the earlier car, which was effectively a coupe version of the HC Viva. In the autumn of 1973 these were rebranded as Magnum and offered with the 1800 and 2300cc engines. They never came close to generating the affection that was held by the Capri, their closest rival.

VOLKSWAGEN

VW had launched the second generation Golf in August of 1983, nearly 9 years after production of the first model to bear the name had begun. This time, a GTi version was included in the product plans from the start, and the new GTi was announced in May 1984. Like the regular Golf 2, it was almost 7″ longer than the Mark 1, with 3″ extra in the wheelbase and a 2″ wider track. It was also 10% heavier, but with significantly improved aerodynamics, resulting from attention to detail which included integrated gutters and flush glass as well as more rounded styling, the cd fell from 0.42 to 0.34. Initially it was powered by the same 1781cc fuel injected engine, but there were all round disc brakes and longer suspension travel improved the ride. Competitors came snapping at its heels, though, so after 2/5 years, VW responded by giving the car 24% more power, achieved by doubling the number of valves to 16. Lower stiffer suspension and bigger front brakes were also fitted, all of which restored the Golf GTi 16V to the top of the Hot Hatch pile. For most people that is, though the 8v car retained a following thanks to its broader torque spread. This less powerful car changed from a mechanical K-Jetronic injection system to a new Digifant electronic set up in 1987 at which point the front quarterlights were deleted, and a digital instrument pack became an option on the 16v car. Power steering became standard in late 1990 and the 8v gained the interior from the 16v model. Production ran through to February 1992, by which time the Mark 3 GTi was waiting in the wings. over 600,000 were built over an 8 year period, around 10% of all Mark 2 Golf production.

In mid-December 2016, Volkswagen presented the Up GTI. It is powered by a 1.0-litre three-cylinder TSI petrol engine, which produces 115 PS (113 bhp). Its top speed is 192 km/h (119 mph) and it is capable of accelerating 0–100 km/h (0–62 mph) in 8.8 seconds with a top speed of 196 km/h (122 mph). Weighing just 997 kg (2,198 lb), Volkswagen claims that it is capable of delivering between 49.6 mpg‑imp (5.7 L/100 km; 17.6 km/L) to 50.4 mpg‑imp (5.6 L/100 km; 17.8 km/L) depending on the specifications, with CO2 emissions between 127 and 129 g/km. It is the only Up to be available with a six-speed manual gearbox. The Up GTI went on sale in January 2018. In April 2019, ordering for the Up GTI was halted in the United Kingdom, but in January 2020 VW UK started taking orders again for a lightly refreshed version. The refresh included small optional equipment changes, but no alterations to the powertrain, chassis or brakes. As of January 2023, new orders for the Up GTI were closed to allow time to complete orders before the GTI model ceased production.

Spending my allotted three hours here proved to be a very enjoyable way to fill the time between when I left home and gaining access to Mallory Park. You never know quite what will appear next and the variety of cars remains the big attraction, as although there are always lots of current performance and enthusiast cars that you see regularly on a daily basis there are always some cars that are much rarer than that, and that was the case on this occasion. With some themed events on the schedule for 2024, it won’t be long before I am back here, and I look forward to seeing what is on site when I do come.