It is well documented here that there are vast numbers of car-related events taking place in the UK, some on a once a year basis, some monthly or more frequently, that it is quite impossible that takes one’s fancy, even if you put fairly restrictive geographical boundaries on how far you want to travel, so when I selecting what I will actually attend, there’s a lot of appealing looking things I have to decline, generally as I am trying to find a balance between variety and the hope of seeing some cars I‘ve not seen before as well as returning to events I have previously enjoyed either because of the selection of cars and/or the friends who are likely to be there. Just occasionally, not only is the choice relatively easy, but the geography over a given weekend means that I don’t have to do a huge mileage to get from Saturday’s event to Sunday’s. And that was the case here. Having been down in Alton, in Hampshire at the Departure Lounge Café for their bi-monthly Italian car event, reported on separately, my attention was grabbed by the fact that the following day would see one of the West Berkshire Cars and Coffee meets at the Renegade Brewery, just to the north of Newbury. This is a venue I’ve visited a couple of times before, and one which always seems to attract both a lot and a varied collection of cars, so it was my choice for the first Sunday in June of 2024, my first visit to the event of the year. You could not have wished for better weather, as I awoke to perfect sun, which was forecast to remain for the whole day, so I was optimistic of a bumper gathering of cars. Here is what I saw:

ABARTH

The Abarth 124 Spider was developed in parallel with the Fiat model. It does cost a lot more, and there are those who think you don’t get enough extra for your money, but those who have driven it will tell you otherwise. You certainly get more power. The 1.4 MultiAir turbo unit jumps up from 138bhp to 168bhp, while torque also increases by a modest 10Nm to 250Nm, which gives it a  0-62mph time of  6.8 seconds, which is half a second quicker than the 2.0-litre Mazda MX-5. The top speed is 143mph. It weighs just 1060kg meaning a power-to-weight ratio of 158bhp-per-tonne, and with the new Record Monza exhaust system it sounds great even at idle. The Abarth version gets a stiffer suspension setup than the regular Fiat 124 Spider, with Bilstein dampers and beefed-up anti-roll bars. Bigger Brembo brakes also feature, with aluminium calipers. It can be had with a six-speed manual or six-speed automatic transmission with paddles, and the latter gets a Sport mode for quicker shifts. Many of the UK cars sport the ‘Heritage Look’ pack, which is a no-cost option. It brings a matt black bonnet and bootlid, plus red exterior trim detailing and has proved popular. The £29,565 starting price gets you standard equipment such as cruise control, climate control, Bluetooth, a DAB radio and satnav, plus Alcantara black and red (or pure black) seat trim. The automatic gearbox is a £2,035 extra, while an optional visibility pack brings LED DRLs, auto lights and wipers and rear parking sensors. Sales ceased during 2019, with around 1800 cars having been brought into the UK, so this is always going to be a rare car, and values are already increasing at a rate reflecting its desirability and the difficulty in finding one

Arriving later in the morning was the only other Abarth I spotted, the 595 Series 4 car of Ben Husband. What is known as the Series 4 version of the familiar 595 reached the markets in the middle of 2016. After rumours had circulated all winter following the launch of the facelifted Fiat 500 last year, Abarth finally unveiled the Series 4 at the end of May 2016. Initially, we were told that the cars would not be available in the UK until September, but that came forward somewhat, with dealers all receiving demo cars in June, and the first customers taking delivery in July.  Three regular production versions of both the closed car and the open-topped C were initially available, all badged 595, and called Custom, Turismo and Competizione, as before, though numerous limited edition models have since appeared and in most case disappeared. The most significant changes with the Series 4 are visual, with a couple of new colours, including the much asked for Modena Yellow and a different red, called Abarth Red, which replaces both the non-metallic Officina and – slightly surprisingly – the tri-coat pearlescent Cordolo Red. as well as styling changes front and rear. The jury is still out on these, with many, me included, remaining to be convinced. At the front, the new air intake does apparently allow around 15 – 20 % more air in and out, which will be welcome, as these cars do generate quite a lot of heat under the bonnet. Competizione models for the UK retain the old style headlights, as they have Xenon lights as standard, whereas the Custom and Turismo cars have reshaped units. At the back, there are new light clusters and a new rear bumper and diffuser. Inside, the most notable change is the replacement of the Blue & Me system with a more modern uConnect Audio set up, which brings a new colour screen to the dash. Mechanically, there is an additional 5 bhp on the Custom (now 145) and Turismo (now 165 bhp) and the option of a Limited Slip Diff for the Competizione, which is likely to prove a popular option. Details of the interior trim have changed, with a filled-in glovebox like the US market cars have always had, and electric windows switches that are like the US ones, as well as a part Alcantara trim to the steering wheel in Competizione cars.

ASTON MARTIN

Follow on model to the DB2 was the DB4. Technically it was a development of the DB Mark III it replaced but with a completely new body. The DB4’s design formed the basis for later Aston Martin classics, such as the DB4 GT Zagato, the Lagonda Rapide 4-door saloon. It was eventually replaced by the Aston Martin DB5. The lightweight superleggera (tube-frame) body was designed by Carrozzeria Touring in Milan, and its Continental looks caused a sensation on its unveiling at the 1958 London Motor Show. Although the design and construction techniques were Italian, the DB4 was the first Aston to be built at the company’s Newport Pagnell works. The 3670 cc engine, designed by Tadek Marek, was a double overhead cam straight-6, with cylinder head and block of cast R.R.50 aluminium alloy, a further development of the earlier engine. The engine was prone to overheating initially, but the 240 hp produced by the twin-SU carburettor version made buyers forgive this unfortunate trait. Servo-assisted disc brakes were fitted all round: early 11.5 in Dunlops were replaced by Girlings. The independent front suspension used ball-jointed wishbones, coil springs and rack-and-pinion steering. The live rear axle also used coil springs and was located by a Watt’s linkage. The normal final-drive ratio for British and European use was 3.54:1: in the United States the ratio was usually 3.77. Customers wanting a car with an especially high top speed could choose a 3.31:1 ratio. A car with the British standard 3.54 final drive ratio tested by The Motor magazine in 1960 had a top speed of 139.3 mph and could accelerate from 0-60 mph in 9.3 seconds. A fuel consumption of 17.7 mpg. The test car cost £3967 including taxes. There were five “series” of DB4. The most visible changes were the addition of window frames in Series II and the adoption of a barred (rather than eggcrate) grille in Series IV. The Series III cars differed from the earlier ones in having taillights consisting of three small lamps mounted on a chrome backing plate. Earlier cars have single-piece units and the last Series V cars of September 1962 have similar taillights but recessed. The Series V also has a taller and longer body to provide more interior space, though the diameter of the wheels was reduced to keep the overall height the same. The front of the Series V usually was of the more aerodynamic style as already used on the Vantage and GT models, a style that was later carried over to the DB5 cars. A convertible was introduced in October 1961. It featured in-house styling similar to the Touring saloon, and an extremely rare factory hardtop was also available. In total, 70 DB4 convertibles were made from a total DB4 production run of 1,110 cars. 30 of these were Series IV, with the remaining 40 belonging to the Series V. 32 of the total convertibles built (11 and 21 of the different series respectively) were equipped with the more powerful Vantage engine. Top speed for the regular version is about 136 mph.

AUDI

The Audi R8, based on the Audi Le Mans quattro concept car (designed by Frank Lamberty and Julian Hoenig) first appeared at the 2003 International Geneva Motor Show and the 2003 Frankfurt International Motor Show. The R8 road car was officially launched at the Paris Auto Show on 30 September 2006. There was some confusion with the name, which the car shares with the 24 Hours of Le Mans winning R8 Le Mans Prototype (LMP). Initial models included the R8 4.2 FSI coupé (with a V8 engine) and R8 5.2 FSI coupé (with a V10 engine). Convertible models, called the Spyder by the manufacturer, were introduced in 2008, followed by the high-performance GT model introduced in 2011. The Motorsport variants of the R8 were also subsequently introduced from 2008 onwards. An all-electric version called the e-Tron started development but would only reach production stage when the second generation model would be introduced. 6-time 24 Hours of Le Mans winner Jacky Ickx described the R8 as “the best handling road car today” and the car was well received by everyone who drove it. The car received a facelift in 2012 and a new model called the V10 Plus was now added to the range. Production of the Type 42 ended in August 2015

This is the second generation R8. Launched at the 2015 Geneva Motor Show and is based on the Modular Sports System platform shared with the Lamborghini Huracan. The development of the Type 4S commenced in late 2013 and was completed in late 2014. Initial models included the all-electric e-Tron and the V10 5.2 FSI along with the V10 plus. Unlike its predecessor, there was no manual transmission available and the entry-level V8 trim was also dropped. In 2016, the convertible (Spyder) variant was added to the line up which was initially available in the base V10 trim. In mid-2017, the high performance V10 plus Spyder was added to the range. A rear-wheel-drive model called the R8 RWS was introduced. In 2018, the R8 received a mid-cycle refresh with mechanical and exterior changes. The newer and more aggressive design language carried over from famous Audi models of the past and its appearance is slightly more angular up front. Some of the aerodynamic features such as the front aeroblades are shared with the Lamborghini Huracàn. The refreshed model had substantial performance improvements over its predecessor. The base R8 got a power boost from 532 hp to 562 hp, while the V10 Plus was renamed V10 Performance Quattro and the engine saw a power increase by 10 hp,  now up to 612 hp. It remains a current model.

Not surprisingly, there were a number of other RS Audi models here, of which this RS5 was the one captured by my camera.

AUSTIN HEALEY

Donald Healey had been producing a range of expensive sports cars from the 1940s, cars such as the Silverstone, the Abbott and the Farnham. For the 1952 London Motor Show, he produced a new design, which was called the Healey Hundred, based on Austin A90 mechanicals, which he intended to produce in-house at his small car company in Warwick. It was one of the stars of the 1952 Show, and it so impressed Leonard Lord, the Managing Director of Austin, who was looking for a replacement to the unsuccessful A90. that Lord struck a deal with Healey on the spot, to build it in quantity. Bodies made by Jensen Motors would be given Austin mechanical components at Austin’s Longbridge factory. The car was renamed the Austin-Healey 100, in reference to the fact that the car had a top speed of 100 mph. Production got under way in 1953, with Austin-Healey 100s being finished at Austin’s Longbridge plant alongside the A90 and based on fully trimmed and painted body/chassis units produced by Jensen in West Bromwich—in an arrangement the two companies previously had explored with the Austin A40 Sports. By early 1956, production was running at 200 cars a month, 150 of which were being sold in California. Between 1953 and 1956, 14,634 Austin-Healey 100s were produced, the vast majority of them, as was the case for most cars in this post war era, going for export. The car was replaced by an updated model in 1956, called the 100-6. It had a longer wheelbase,  redesigned bodywork with an oval shaped grille, a fixed windscreen and two occasional seats added (which in 1958 became an option with the introduction of the two-seat BN6 produced in parallel with the 2+2 BN4), and the engine was replaced by one based on the six-cylinder BMC C-Series engine. In 1959, the engine capacity was increased from 2.6 to 2.9 litres and the car renamed the Austin-Healey 3000. Both 2-seat and 2+2 variants were offered. It continued in this form until production ceased in late 1967. The Big Healey, as the car became known after the 1958 launch of the much smaller Austin-Healey Sprite, is a popular classic now. You come across the 3000 models more frequently than the 100s, as they accounted for more than 60% of all Big Healey production

BENTLEY

This is a Continental GTC, the perfect car to waft around in on a cloudless sunny day like this one. The convertible version of the Continental GT, the Continental GTC, was first presented in September 2005, and was introduced to several world markets in the autumn of 2006. The roof is produced by Karmann in Osnabrück, Germany. The GTC uses identical powertrain detail as the GT, and can accelerate from 0 to 100 km/h (0.0 to 62.1 mph) in 5.1 seconds. With the roof up, it can reach a top speed of 314 km/h (195.1 mph), though with the roof down top speed drops to 305 km/h (189.5 mph). The GTC was unveiled at the 2006 New York International Auto Show, followed by the C. de Salamanca in Seville. The vehicle went on sale in late 2006. A GTC model has been a feature of the Continental range ever since, evolving in parallel with, though sometimes a few months after,  the coupe model.

BMW

The BMW E38 is the third generation of the BMW 7 Series luxury cars and was produced from 1994 until 2001. The E38 replaced the E32 7 Series and was produced with petrol and turbo-diesel straight-six and V8 engines, along with a petrol V12 flagship model. Three wheelbase lengths were available — short (i), long (iL) and Limousine (L7). The E38 was the first car available with curtain airbags. It was also the first European car to offer satellite navigation and the first BMW to offer an in-built television. The E38 was the first 7 Series to be available with a diesel engine and the last to be available with a manual transmission. In early 1988, development began on the third generation of the 7 Series. From 1988 to 1990 styling work was done initially under design director Claus Luthe (through April 1990, taken over by Dr. Wolfgang Reitzle), when Boyke Boyer’s concept design was chosen and further refined into production form. In February 1991, the final production design for the new 7 Series was approved by the board 36 months ahead of the scheduled start of production for 17 February 1994. On 27 April 1993, German design patents were filed featuring a pre-production prototype as a design representation. Patents were later filed on 27 October 1993 in the United States. Production started on 23 July 1993 on pilot production models and US specification variants on 13 January 1994, with series production commencing in April 1994 for June 1994 domestic German launch with the 730i and 740i. US-specification cars entered production in September 1994, for November 1994 launch. On 18 February 1994, the E38 BMW 7 Series was unveiled for the 1995 model year via a BMW press release. The 750i production began in November 1994, in advance of its January 1995 launch. The production totals by model are: 728i- 38,000; 728iL- 7,000; 730i- 21,000; 730iL- 2,000; 735i- 21,000; 735iL- 5,000; 740i- 88,000; 740iL- 81,000; 750i- 8,000; 750iL- 15,000; 725tds- 9,000; 730d- 12,000, 740d- 3,000 and less than 500 each for the 740iL P, 750iL P, 750iL S and L7 models. A total of 340,242 cars were produced. The last E38 rolled off BMW’s assembly line on 27 July 2001 to make way for the replacement E65 7 Series.

FERRARI

The 599 GTB (internal code F141) was conceived as a new flagship, replacing the 575M Maranello. Styled by Pininfarina under the direction of Ferrari’s Frank Stephenson, the 599 GTB debuted at the Geneva Motor Show in February 2006. It is named for its total engine displacement (5999 cc), Gran Turismo Berlinetta nature, and the Fiorano Circuit test track used by Ferrari.  The Tipo F140 C 5999 cc V12 engine produced a maximum 620 PS (612 hp), making it the most powerful series production Ferrari road car of the time. At the time of its introduction, this was one of the few engines whose output exceeded 100 hp per litre of displacement without any sort of forced-induction mechanism such as supercharging or turbocharging. Its 448 ft·lb of torque was also a record for Ferrari’s GT cars. Most of the modifications to the engine were done to allow it to fit in the Fiorano’s engine bay (the original Enzo version could be taller as it would not block forward vision due to its mid-mounted position). A traditional 6-speed manual transmission as well as Ferrari’s 6-speed called “F1 SuperFast” was offered. The Fiorano also saw the debut of Ferrari’s new traction control system, F1-Trac. The vast majority of the 599 GTB’s were equipped with the semi-automatic gearbox, with just 30 examples produced with a manual gearbox of which 20 were destined for the United States and 10 remained in Europe. The car changed little during its 6 year production, though the range did gain additional versions, with the HGTE model being the first,  with a number of chassis and suspension changes aimed at making the car even sharper to drive, and then the more potent 599GTO came in 2010. With 670 bhp, this was the fastest road-going Ferrari ever made. Just 599 were made. The model was superceded by the F12 Berlinetta in 2012.

FIAT

The Cinquecento, Tipo 170 in Fiat development parlance, was launched in December 1991, to replace the Fiat 126. It was the first Fiat model to be solely manufactured in the FSM plant in Tychy, Poland, which had been sold to Fiat by the Polish state, and where production of the Polish variant of the Fiat 126, the Polski Fiat 126p, was still running. It took 18 months before the new city car reached the UK, and its success proved that there was a market for very small cars after all, even though Renault had concluded that there was not sufficient demand for their Twingo which appeared around the same time. The Fiat sold well, and it was not long before it had a number of market rivals, such as the Ford Ka, Seat Arosa and Volkswagen Lupo. The smallest engine, intended for sale in Poland only, was a 704 cc OHV two-cylinder unit, delivering 31 bhp, an engine which was inherited from the 126p BIS. For the front-wheel drive Cinquecento, it underwent a major refurbishment (although the engine still employed a carburettor), which resulted, among other changes, in the crankshaft revolving in the opposite direction than in the 126p BIS! The bigger engine was the 903 cc 40 PS version of the veteran Fiat 100 OHV four-cylinder engine, which saw service in many small Fiat models, starting with the Fiat 850, and dating back to the initial 633 cc unit as introduced in the 1955 Fiat 600. It was fitted with single point fuel injection and was the base engine in most markets. Due to fiscal limitations, the displacement of this unit was limited to 899 cc in 1993, with a slight reduction of output, now producing 39 PS. In 1994, Fiat introduced the Cinquecento Sporting, featuring the 1108 cc SOHC FIRE 54 PS engine from the entry-level Punto of the same era, mated to a close-ratio 5 speed gearbox. Other additions were a drop in standard ride height, front anti-roll bar, 13″ alloy wheels, plus colour-coded bumpers and mirrors. The interior saw a tachometer added, along with sports seats, red seatbelts and a leather steering wheel and gear knob. It is the Sporting model which gave birth to a rallying trophy and a Group A Kit-Car version, and the Sporting is the version you see most often these days, and indeed, that was the variant seen here. Production of the Cinquecento ended in early 1998, when it was replaced by the Seicento

The Fiat 124 Spider (Type 348) is a front-engine, rear-drive, two-passenger roadster manufactured by Mazda for FCA, having debuted at the 2015 LA Auto Show for model year 2016. Largely based on the fourth generation Mazda MX-5 Miata roadster, and manufactured alongside the MX-5 at Mazda’s Hiroshima plant, the 124 shares its platform, mechanicals, interior and top mechanism with the MX-5 — it is distinguished by an FCA engineered and manufactured turbocharged Multiair engine, uniquely tuned shock absorbers, unique exterior styling and slightly increased length and cargo capacity over the MX-5. In May 2012, Mazda and Alfa Romeo — at the time a subsidiary of the Fiat Group, now Stellantis — announced a joint venture to manufacture a common rear wheel drive platform. The companies would “develop two differentiated, distinctly styled, iconic and brand specific, lightweight roadsters featuring rear wheel drive”, with the two variants offering proprietary engines unique to each brand. In December 2014, FCA’s Sergio Marchionne determined Alfa Romeos would be manufactured only in Italy, saying “some things belong to a place. Alfa belongs to Italy,” adding “I remain committed to that architecture, with our powertrain. I’m not sure it will be with Alfa. But it will be with one of our brands.” At the time, Alfa Romeos were manufactured only in Italy, while Fiats were manufactured in Italy, but also globally — from Tychy, Poland, to Toluca, Mexico. With their prior agreement in place — for FCA to market a roadster based on the MX-5 to be manufactured by Mazda at its Hiroshima factory — FCA conceived of marketing a Fiat badged variant in lieu of the Alfa Romeo variant. In August 2016, FCA formally announced the Fiat 124 Spider based on the Mazda ND platform. In December 2016, the Detroit News said “in partnering with Mazda’s MX-5 Miata to resurrect the classic Fiat 124 Spider, Fiat Chrysler not only gained a halo sports car for its struggling Italian brand, but likely saved the most celebrated small sports car of the past 25 years (the MX-5)” — citing the markedly increased cost of developing a new car at the time and “the costliest wave of government regulation since the 1970s.” The 124 Spider was powered by Fiat’s 1.4 litre MultiAir turbocharged inline-four, producing 140 PS (138 bhp) and 240 Nm (177 lb/ft) of torque in European specification—and 160 bhp and 184 lb/ft (249 Nm) of torque in North American specification.[4] The 124 manual transmission is from the third generation MX-5’s six speed transmission to cope with the turbo’s torque. Multiair is a hydraulically actuated variable valve timing (VVT) engine technology enabling “cylinder by cylinder, stroke by stroke” control of intake air directly via a gasoline engine’s inlet valves. Developed by Fiat Powertrain Technologies, the technology bypasses a primary engine inefficiency: pumping losses caused by restriction of the intake passage by the throttle plate, used to regulate air feeding the cylinders. At the 124’s debut, Fiat marketed a 124 Spider Anniversary edition, with 124 units carrying the designation—to commemorate the 50th anniversary of original 124 Sport Spider. Including features of the 124 Spider Lusso Plus trim, the edition also includes chromed mirrors, red ‘124’ badge on the front grille, interior numbered plaque, red exterior and black leather interior. In January 2019, FCA announced the Fiat 124 Spider was to be withdrawn from the market in the United Kingdom with immediate effect. The Abarth 124 Spider continued to be sold, but this too was withdrawn from the UK market in April 2019. On December 23, 2020, Stellantis announced the 124 Spider and 500 were to be withdrawn from their North American model lineup after the 2020 model year and would not return for 2021, as is the situation with 500L. These models were expected to sell into 2021 until stock depletion.

FORD

Production of the Capri began on 14 December 1968 in Ford’s Dagenham plant in the UK and on 16 December 1968 at the Cologne plant in West Germany, before its unveiling in January 1969 at the Brussels Motor Show, and sales starting the following month. The intention was to reproduce in Europe the success Ford had had with the North American Ford Mustang; to produce a European pony car. It was mechanically based on the Cortina and built in Europe at the Dagenham and Halewood plants in the United Kingdom, the Genk plant in Belgium, and the Saarlouis and Cologne plants in Germany. The car was named Colt during its development stage, but Ford was unable to use the name, as it was trademarked by Mitsubishi. Although a fastback coupé, Ford wanted the Capri Mk I to be affordable for a broad spectrum of potential buyers. To help achieve that, it was available with a variety of engines. The British and German factories produced different line-ups. The continental model used the Ford Taunus V4 engine in 1.3, 1.5 and 1.7 litre displacements, while the British versions were powered by the Ford Kent straight-four in 1.3 and 1.6 litre forms. The Ford Essex V4 engine 2.0 litre (British built) and Cologne V6 2.0 litre (German built) served as initial range-toppers. At the end of the year, new sports versions were added: the 2300 GT in Germany, using a double-barrel carburettor with 125 PS, and in September 1969 the 3000 GT in the UK, with the Essex V6, capable of 138 hp. Under the new body, the running gear was very similar to the 1966 Cortina. The rear suspension employed a live axle supported on leaf springs with short radius rods. MacPherson struts were featured at the front in combination with rack and pinion steering which employed a steering column that would collapse in response to a collision. The initial reception of the car was broadly favourable.The range continued to be broadened, with another 3.0 variant, the Capri 3000E introduced from the British plant in March 1970, offering “more luxurious interior trim”. Sales in other global markets got underway with the Capri reaching Australia in May 1969 and in April 1970 it was released in the North American and South African markets. These versions all used the underpowered Kent 1.6 engine although a Pinto straight-four 2.0 litre replaced it in some markets in 1971. The Capri proved highly successful, with 400,000 cars sold in its first two years. Ford revised it in 1972. It received new and more comfortable suspension, enlarged tail-lights and new seats. Larger headlamps with separate indicators were also fitted, with quad headlamps now featured on the 3000GXL model. The Kent engines were replaced by the Ford Pinto engine and the previously UK-only 3000 GT joined the German line-up. In the UK the 2.0 litre V4 remained in use. In 1973, the Capri saw the highest sales total it would ever attain, at 233,000 vehicles: the 1,000,000th Capri, an RS 2600, was completed on 29 August. A replacement model, the Capri II was launched in February 1974.

To compete with Volkswagen’s Golf GTI, a hot hatch version of the Mark III Escort was developed – the XR3. Initially this featured a tuned version of the 1.6 L CVH engine fitted with a twin-choke Weber carburettor, uprated suspension and numerous cosmetic alterations. It lacked a five-speed transmission and fuel injection. Fuel injection finally arrived in October 1982 (creating the XR3i), eight months behind the limited edition (8,659 examples), racetrack-influenced RS 1600i. The Cologne-developed RS received a more powerful engine with 115 PS, thanks to computerized ignition and a modified head as well as the fuel injection. The final performance update arrived in the form of the turbocharged 132 PS RS Turbo model in October 1984. The RS Turbo was somewhat of a disappointment; it had been delayed several times and when it went on sale in early 1985, the chassis came in for severe criticism. Ford initially planned to build 5,000 RS Turbos, the minimum number required for homologation in Group A. However a total of 8,604 were built due to increased demand, almost all in Diamond White. Produced in both LHD and RHD, it was only marketed in a few European nations with 5,000 examples for the UK, and was only sold through official Rallye Sport dealers. They were well equipped, with the alloy wheels from the limited production RS 1600i, Recaro seats, and a viscous-coupling limited slip differential. Only three cars were finished in black; one of them built especially for Lady Diana. The Series 2 RS Turbo continued with the 1986 Mark IV model, a heavy facelift of the Mark III car.

The Sierra RS Cosworth model. a very sporting  version of Ford’s upper-medium sized family car, was built by Ford Europe from 1986 to 1992, the result of a Ford Motorsport project with the purpose of producing an outright winner for Group A racing in Europe. The project was defined in the spring of 1983 by Stuart Turner, then recently appointed head of Ford Motorsport in Europe, who had realised right away that Ford was no longer competitive in this area. Turner got in touch with Walter Hayes, at the time the vice-president of public relations at Ford, to get support for the project. Hayes had earlier been the driving force behind the development of the Ford GT40 that won Le Mans in 1966, and the Cosworth DFV engine that brought Ford 154 victories and 12 world championships in Formula One during the 1960s and 1970s. Hayes found the project very appealing and promised his full support. Turner then invited Ken Kohrs, vice-president of development, to visit Ford’s longtime partner, the automotive company Cosworth, where they were presented a project developed on Cosworth’s own initiative, the YAA engine. This was a twin cam, 16-valve engine based on Ford’s own T88 engine block, better known as the Pinto. This prototype proved an almost ideal basis for the engine Turner needed to power his Group A winner. Therefore, an official request for a turbocharged version (designated Cosworth YBB) capable of 180 HP on the street and 300 HP in race trim, was placed. Cosworth answered positively, but they put up two conditions: the engine would produce not less than 204 HP in the street version, and Ford had to accept no fewer than 15,000 engines. Turner’s project would only need about 5,000 engines, but Ford nevertheless accepted the conditions. The extra 10,000 engines would later become one of the reasons Ford also chose to develop a four door, second generation Sierra RS Cosworth. To find a suitable gearbox proved more challenging. The Borg-Warner T5, also used in the Ford Mustang, was chosen, but the higher revving nature of the Sierra caused some problems. Eventually Borg-Warner had to set up a dedicated production line for the gearboxes to be used in the Sierra RS Cosworth. Many of the suspension differences between the standard Sierra and the Cosworth attributed their development to what was learned from racing the turbocharged Jack Roush IMSA Merkur XR4Ti in America and Andy Rouse’s successful campaign of the 1985 British Saloon Car Championship. Much of Ford’s external documentation for customer race preparation indicated “developed for the XR4Ti” when describing parts that were Sierra Cosworth specific. Roush’s suspension and aerodynamics engineering for the IMSA cars was excellent feedback for Ford. Some production parts from the XR4Ti made their way into the Cosworth such as the speedometer with integral boost gauge and the motorsport 909 chassis stiffening plates. In April 1983, Turner’s team decided on the recently launched Sierra as a basis for their project. The Sierra filled the requirements for rear wheel drive and decent aerodynamic drag. A racing version could also help to improve the unfortunate, and somewhat undeserved, reputation that Sierra had earned since the introduction in 1982. Lothar Pinske, responsible for the car’s bodywork, demanded carte blanche when it came to appearance in order to make the car stable at high speed. Experience had shown that the Sierra hatchback body generated significant aerodynamic lift even at relatively moderate speed. After extensive wind tunnel testing and test runs at the Nardò circuit in Italy, a prototype was presented to the project management. This was based on an XR4i body with provisional body modifications in fibreglass and aluminium. The car’s appearance raised little enthusiasm. The large rear wing caused particular reluctance. Pinske insisted however that the modifications were necessary to make the project successful. The rear wing was essential to retain ground contact at 300 km/h, the opening between the headlights was needed to feed air to the intercooler and the wheel arch extensions had to be there to house wheels 10” wide on the racing version. Eventually, the Ford designers agreed to try to make a production version based on the prototype. In 1984, Walter Hayes paid visits to many European Ford dealers in order to survey the sales potential for the Sierra RS Cosworth. A requirement for participation in Group A was that 5,000 cars were built and sold. The feedback was not encouraging. The dealers estimated they could sell approximately 1,500 cars. Hayes did not give up, however, and continued his passionate internal marketing of the project. As prototypes started to emerge, dealers were invited to test drive sessions, and this increased the enthusiasm for the new car. In addition, Ford took some radical measures to reduce the price on the car. As an example, the car was only offered in three exterior colours (black, white and moonstone blue) and one interior colour (grey). There were also just two equipment options: with or without central locking and electric window lifts. The Sierra RS Cosworth was first presented to the public at the Geneva Motor Show in March 1985, with plans to release it for sale in September and closing production of the 5,000 cars in the summer of 1986. In practice, it was launched in July 1986. 5545 were manufactured in total of which 500 were sent to Tickford for conversion to the Sierra three-door RS500 Cosworth. The vehicles were manufactured in right hand drive only, and were made in Ford’s Genk factory in Belgium. Exactly 500 RS500s were produced, all of them RHD for sale in the UK only – the biggest market for this kind of Ford car. It was originally intended that all 500 would be black, but in practice 56 white and 52 moonstone blue cars were produced.To broaden the sales appeal, the second generation model was based on the 4 door Sierra Sapphire body. It was launched in 1988, and was assembled in Genk, Belgium, with the UK-built Ford-Cosworth YBB engine. Cylinder heads on this car were early spec 2wd heads and also the “later” 2wd head which had some improvements which made their way to the 4X4 head. Suspension was essentially the same with some minor changes in geometry to suit a less aggressive driving style and favour ride over handling. Spindles, wheel offset and other changes were responsible for this effect. Approximately 13,140 examples were produced during 1988-1989 and were the most numerous and lightest of all Sierra Cosworth models. Specifically the LHD models which saved weight with a lesser trim level such as manual rear windows and no air conditioning. In the UK, the RHD 1988-1989 Sierra Sapphire RS Cosworth is badged as such with a small “Sapphire” badge on the rear door window trims. All 1988-1989 LHD models are badged and registered as a Sierra RS Cosworth with no Sapphire nomenclature at all. “Sapphire” being viewed as a Ghia trim level that saw power rear windows, air conditioning and other minor options. Enthusiasts of the marque are mindful of this and will describe the LHD cars by their body shell configuration, 3 door or 4 door. As the Sapphire Cosworth was based on a different shell to the original three-door Cosworth, along with its more discreet rear wing, recorded a drag co-efficient of 0.33, it registered slightly better performance figures, with a top speed of 150 mph and 0-60 of 6.1 seconds, compared to the original Cosworth. In January 1990,  the third generation Sierra RS Cosworth was launched, this time with four wheel drive. As early as 1987, Mike Moreton and Ford Motorsport had been talking about a four wheel drive Sierra RS Cosworth that could make Ford competitive in the World Rally Championship. The Ferguson MT75 gearbox that was considered an essential part of the project wasn’t available until late 1989 however. Ford Motorsport’s desire for a 3-door “Motorsport Special” equivalent to the original Sierra RS Cosworth was not embraced. The more discreet 4-door version was considered to have a better market potential. It was therefore decided that the new car should be a natural development of the second generation, to be launched in conjunction with the face lift scheduled for the entire Sierra line in 1990. The waiting time gave Ford Motorsport a good opportunity to conduct extensive testing and demand improvements. One example was the return of the bonnet louvres. According to Ford’s own publicity material, 80% of the engine parts were also modified. The improved engine was designated YBJ for cars without a catalyst and YBG for cars with a catalyst. The latter had the red valve cover replaced by a green one, to emphasise the environmental friendliness. Four wheel drive and an increasing amount of equipment had raised the weight by 100 kg, and the power was therefore increased to just about compensate for this. The Sierra RS Cosworth 4×4 received, if possible, an even more flattering response than its predecessors and production continued until the end of 1992, when the Sierra was replaced by the Mondeo. The replacement for the Sierra RS Cosworth was not a Mondeo however, but the Escort RS Cosworth. This was to some extent a Sierra RS Cosworth clad in an “Escort-like” body. The car went on sale in May 1992, more than a year after the first pre-production examples were shown to the public, and was homologated for Group A rally in December, just as the Sierra RS Cosworth was retired. It continued in production until 1996. The Sierra and Sapphire Cosworths were undoubted performance bargains when new, but they also gained a reputation both for suffering a lot of accidents in the hands of the unskilled and also for being among the most frequently stole cars of their generation. These days, though, there are some lovely and treasured examples around and indeed you are far more likely to see a Cosworth version of the Sierra than one of the volume selling models.

The Ford Escort RS Cosworth is a sports derivative and rally homologation special of the fifth generation European Ford Escort. It was designed to qualify as a Group A car for the World Rally Championship, in which it competed between 1993 and 1998. It was available as a road car from 1992–96 in very limited numbers. Ford developed the car around the chassis and mechanicals of its spiritual predecessor, the Sierra Cosworth to accommodate the larger Cosworth engine and transmission, whilst clothing it in Escort body panels to make it resemble the standard car. Designed under the guidance of Rod Mansfield and John Wheeler of Ford’s SVO department, the styling was carried out during 1989, a year before the standard Escort was launched, by Stephen Harper at MGA Developments in Coventry. The spoiler was added by Frank Stephenson, who originally proposed a three-deck piece. The body tooling was created by coachbuilders Karmann at their facility in Rheine, Germany, where the cars were manufactured. Changes were made to the engine management system and a new turbocharger was fitted. Permanent four wheel drive with a 34/66% front/rear split came courtesy of an uprated five speed gearbox as used in the Sierra Cosworth. Recaro sports seats came as a standard fitment. Later production models were available without the oversize tail spoiler although by far the majority were still ordered with it. Like its Sierra predecessor, they are commonly nicknamed “Cossie” by enthusiasts. The car’s top speed was 150 mph, which rivalled lower-end supercars including the Audi Quattro, BMW M3, Nissan 300ZX and Toyota Supra, and comfortably outperformed traditional “hot hatchbacks” like the Volkswagen Golf GTI. It was much faster than the 126 mph which the Escort RS2000 and earlier Escort RS Turbo were capable of. Two versions were produced. The initial 2,500 units were “homologation specials” used to get the FIA accreditation for entry into the World Rally Championship. They were fitted with a Garrett T3/T04B turbocharger. Among these initial units, a handful were badged as Motorsport versions, these lacked certain refinements such as a sunroof and sound deadening. The initial cars included features that, although they made the Cosworth a more effective car, did not enhance it as a road vehicle, and once the rules were satisfied Ford attempted to make the car less temperamental and easier to drive under normal conditions. The second generation, starting production from late 1994, were fitted with a Garrett T25 turbocharger, a smaller unit which reduced turbo lag and increased usability in everyday driving situations. With these later models, the ‘whale tail’ spoiler became a delete option. . The Escort Cosworth was a rare car, with 7,145 vehicles produced from the start of production on 19 February 1992 until the last car rolled out of the factory on 12 January 1996.

The regular second generation Focus cars were released in late 2004. An ST version followed very quickly, and for a long time, Ford maintained that was the only sporty Focus there was going to be. Finally, on December 17, 2007 Ford of Europe confirmed that a Mk 2 Focus RS would be launched in 2009, with a concept version due in mid-2008, with an upgraded Duratec ST engine with 305PS Duratec RS, gearbox, suspension, and LSD. In 2008, Ford revealed the new Focus RS in “concept” form at the British International Motor Show. Contrary to numerous rumours and speculation, the RS was announced by Ford to have a conventional FWD layout. The Duratec RS engine was upgraded to produce 301 bhp and 325 lb/ft of torque. 0 to 100 km/h (62 mph) acceleration was quoted to be under 6 seconds. The RS used a modified Volvo -engineered 2,522cc five-cylinder engine found in the Focus ST. A larger Borg Warner K16 turbo now delivers up to 20.3-psi of boost. A new air-to-air intercooler has been developed as a complement, while the forged crankshaft, silicon-aluminium pistons, graphite-coated cylinder bores, 8.5:1 compression ratio and variable valve timing also up the power output. The car remained front wheel drive, but to reduce torque steer used a Quaife Automatic Torque Biasing LSD, and a specially designed MacPherson strut suspension at the front called RevoKnuckle, which provided a lower scrub radius and kingpin offset than traditional designs while avoiding the increased weight and complexity of double wishbone and multi-link suspension setups. Ford UK claim: “It’s as close as you’ll come to driving a full-spec rally car (Ford Focus RS WRC). The production car was finally unveiled on 5 January 2009. It looked very distinctive, as at the rear a large venturi tunnel and a dramatic rear spoiler created a purposeful look. It was available in three expressive exterior colours: Ultimate Green, Performance Blue and Frozen White. The ‘Ultimate’ Green was a modern reinterpretation of the classic 1970s Ford Le Mans Green of the Ford Escort RS1600 era.

For the 1953 model year, Ford introduced a second generation of the F-Series trucks. Increased dimensions, improved engines, and an updated chassis were features of the second generation. In another change, the model nomenclature of the F-Series was expanded to three numbers; this remains in use in the present day. The half-ton F-1 became the F-100; the F-2 and F-3 were combined into the 3⁄4-ton F-250, while the F-4 became the one-ton F-350. Conventional F-Series trucks were F-500 to F-900; COE chassis were renamed C-Series trucks. While the cabs, doors, radiator support, inner fenders, and hoods are the same from 1953 to 1956 F-100 and F-250s (the fenders varied on F-250, F-350, and F-500, and long boxes were only available on the F-250), in 1956, the cab underwent a major revision. Centred around a wraparound windshield, the cab was given new doors, a redesigned dashboard, and an (optional) panoramic rear window. In line with Ford cars, the 1956 F-Series offered seat belts as an option. This was the final generation with separate front fenders. A third generation model was produced for the 1957 model year.

Drawing on inspiration from the mid-engined Ford Mustang I concept vehicle, Lee Iacocca ordered development of a new “small car” to vice-president of design at Ford, Eugene Bordinat. Bordinat tasked Ford’s three design studios (Ford, Lincoln-Mercury, and Advanced Design) to create proposals for the new vehicle. The design teams had been given five goals for the design of the Mustang: It would seat four, have bucket seats and a floor mounted shifter, weigh no more than 2,500 pounds (1,100 kg) and be no more than 180 inches (4,572 mm) in length, sell for less than $2,500, and have multiple power, comfort, and luxury options. The Lincoln–Mercury design studio ultimately produced the winning design in the intramural contest, under Project Design Chief Joe Oros and his team of L. David Ash, Gale Halderman, and John Foster. Development of the Mustang was completed in a record 18 months from September 1962 to March 1964. and Iacocca himself championed the project as Ford Division general manager. The styling is often credited to one person, and that is not accurate, as this was very much a team effort, it has been reported by those involved. To decrease developmental costs, the Mustang used chassis, suspension, and drivetrain components derived from the Ford Falcon and Fairlane. It used a unitised platform-type frame from the 1964 Falcon, and welded box-section side rails, including welded crossmembers. Although hardtop Mustangs accounted for the highest sales, durability problems with the new frame led to the engineering of a convertible first, which ensured adequate stiffness. Overall length of the Mustang and Falcon was identical, although the Mustang’s wheelbase was slightly shorter. With an overall width of 68.2 in (1,732 mm), it was 2.4 in (61 mm) narrower, yet the wheel track was nearly identical. Shipping weight, approximately 2,570 lb (1,166 kg) with the straight six-cylinder engine, was also similar to the Falcon. A fully equipped V8 model weighed approximately 3,000 lb (1,361 kg). Although most of the mechanical parts were from the Falcon, the Mustang’s body was completely different; sporting a shorter wheelbase, wider track, lower seating position and lower overall height. An industry first, the “torque box” was an innovative structural system that greatly stiffened the Mustang’s construction and helped contribute to better handling. The car was launched in 17th April 1964, as a hardtop and a convertible, with the fastback version following in August. It was an instant sensation, with demand massively exceeding supply. Since it was introduced four months before the normal start of the 1965 production year and manufactured alongside 1964 Ford Falcons and 1964 Mercury Comets, the earliest Mustangs are widely referred to as the 1964½ model. Nevertheless, all “1964½” cars were given 1965 U.S. standard VINs at the time of production, and – with limited exception to the earliest of promotional materials – were marketed by Ford as 1965 models. The low-end model hardtop used a “U-code” 170 cu in (2.8 litre) straight-6 engine borrowed from the Falcon, as well as a three-speed manual transmission and retailed for US$2,368. Standard equipment for the early 1965 Mustangs included black front seat belts, a glove box light, and a padded dash board. Production began in March 1964 and official introduction following on April 17 at the 1964 World’s Fair. V8 models got a badge on the front fender that spelled out the engine’s cubic inch displacement (“260” or “289”) over a wide “V.” This emblem was identical to the one on the 1964 Fairlane. Several changes to the Mustang occurred at the start of the “normal” 1965 model year in August 1964, about four months after its introduction. These cars are known as “late 65’s”. The engine lineup was changed, with a 200 cu in (3.3 litre) “T-code” engine that produced 120 hp. Production of the Fairlane’s “F-code” 260 cu in (4.3 litre) engine ceased when the 1964 model year ended. It was replaced with a new 200 hp “C-code” 289 cu in (4.7 litre) engine with a two-barrel carburettor as the base V8. An “A-code” 225 hp four-barrel carburettor version was next in line, followed by the unchanged “Hi-Po” “K-code” 271 hp 289. The DC electrical generator was replaced by a new AC alternator on all Fords (a way to distinguish a 1964 from a 1965 is to see if the alternator light on the dash says “GEN” or “ALT”). The Mustang GT version was introduced as the “GT Equipment Package” and included a V8 engine (most often the 225 hp 289), grille-mounted fog lamps, rocker panel stripes, and disc brakes. In the interior the GT option added a different instrument panel that included a speedometer, fuel gauge, temp. gauge, oil pressure gauge and ammeter in five round dials (the gauges were not marked with numbers, however.) A four-barrel carburettor engine was now available with any body style. Additionally, reverse lights were an option added to the car from August 1964 production. In 1965, the Shelby Mustang was born, it was available only in newly introduced fastback body version with its swept-back rear glass and distinctive ventilation louvres. The standard interior features of the 1965 Mustang included adjustable driver and passenger bucket seats, an AM radio, and a floor mounted shifter in a variety of colour options. Ford added additional interior options during the 1965 model year. The Interior Decor Group was popularly known as “Pony Interior” due to the addition of embossed running ponies on the seat fronts, and also included integral armrests, woodgrain appliqué accents, and a round gauge cluster that would replace the standard Falcon instrumentation. Also available were sun visors, a (mechanical) remote-operated mirror, a floor console, and a bench seat. Ford later offered an under-dash air-conditioning unit, and discontinued the vinyl with cloth insert seat option, offered only in early 1965 models. One option designed strictly for fun was the Rally-Pac. Introduced in 1963 after Ford’s success at that year’s Monte Carlo Rally and available on other Ford and Mercury compacts and intermediates, the Rally-Pac was a combination clock and tachometer mounted to the steering column. It was available as a factory ordered item for US$69.30. Installed by a dealer, the Rally-Pac cost US$75.95.A 14″ rim option was available for Rally-pac and GT350R vehicles widening front and rear track to 57.5″. Reproductions are presently available from any number of Mustang restoration parts sources. A compass, rear seat belts, A/C, and back-up lights were also optional. The 1966 Mustang debuted with moderate trim changes including a new grille, side ornamentation, wheel covers and filler cap. Ford’s new C-4 “cruise-o-matic” three-speed auto transmission became available for the 225 hp V8. The 289 “HiPo” K-code engine was also offered with a c4 transmission, but it had stronger internals and can be identified by the outer casing of the servo which is marked with a ‘C’. The long duration solid-lifter camshaft that allowed the high revving 289 to make the horsepower it was known for, was not friendly for a low stall speed automatic torque converter. The “HiPo” could be spotted very easily by the 1-inch-thick vibration damper, (as compared to 1/2 inch on the 225-hp version) and the absence of a vacuum advance unit on the dual point distributor. With the valve covers off, there is a large letter “K” stamped between the valve springs, along with screw in studs (vs. a pressed in stud for other 289s) for the adjustable rocker arms. A large number of new paint and interior color options, an AM/eight-track sound system, and one of the first AM/FM mono automobile radios were also offered. It also removed the Falcon instrument cluster; the previously optional features, including the round gauges and padded sun visors, became standard equipment. The Mustang would be the best-selling convertible in 1966, with 72,119 sold, beating the number two Impala by almost 2:1. The 1965 and 1966 Mustangs are differentiated by variations in the exterior, despite similar design. These variations include the emblem on the quarter-panels behind the doors. From August 1964 production, the emblem was a single vertical piece of chrome, while for 1966 models the emblem was smaller in height and had three horizontal bars extending from the design, resembling an “E”. The front intake grilles and ornaments were also different. The 1965 front grille used a “honeycomb” pattern, while the 1966 version was a “slotted” style. While both model years used the “Horse and Corral” emblem on the grille, the 1965 had four bars extending from each side of the corral, while on the 1966, these bars were removed. The 1966 model year saw introduction of ‘High Country Special’ limited edition, 333 of them were sold in Colorado, Wyoming, and Nebraska. When Ford wanted to introduce the Mustang in Germany, they discovered that Krupp company had already registered the name for a truck. The German company offered to sell the rights for US$10,000. Ford refused and removed Mustang badges from exported units, instead naming the cars as T-5 (a pre-production Mustang project name) for the German market until 1979 when Krupp copyrights expired. In 1965, Harry Ferguson Research purchased 3 Mustang notchbacks and converted them to 4×4 in an attempt to sell potential clients on their FF AWD system.  A similar system was used in the Ferguson P99 Formula One car, and would go on to be featured in the Jensen FF, widely considered the first AWD passenger car. As in the Jensen FF, the AWD Mustangs also featured an ABS braking system, long before such a feature was commonplace. Ford Australia organised the importation and conversion of 1966 Mustang to right-hand-drive for the Australian market. This coincided with the launch of new XR Falcon for 1966, which was marketed as “Mustang-bred Falcon”. To set the official conversion apart from the cottage industry, the RHD Mustangs were called “Ford Australia Delivered Mustang” and had compliance plates similar to XR Falcon. About 209 were imported to Australia with 48 units were converted in 1965 while the further 161 were done in 1966. The 1967 model year Mustang was the first redesign of the original model. Ford’s designers began drawing up a larger version even as the original was achieving sales success, and while “Iacocca later complained about the Mustang’s growth, he did oversee the redesign for 1967 .” The major mechanical feature was to allow the installation of a big-block V8 engine. The overall size, interior and cargo space were increased. Exterior trim changes included concave taillights, side scoop (1967 model) and chrome (1968 model) side ornamentation, square rear-view mirrors, and usual yearly wheel and gas cap changes. The high-performance 289 option was placed behind the newer 335 hp 6.4 litre FE engine from the Ford Thunderbird, which was equipped with a four-barrel carburettor. During the mid-1968 model year, a drag racer for the street could be ordered with the optional 428 cu in (7.0 litre) Cobra Jet engine which was officially rated at 335 hp. All of these Mustangs were issued R codes on their VIN’s. The 1967 Deluxe Interior was revised, discontinuing the embossed running horse motif on the seat backs (the source for the “pony interior” nickname) in favor of a new deluxe interior package, which included special colour options, brushed aluminium (from August 1966 production) or woodgrain dash trim, seat buttons, and special door panels. The hardtop also included upholstered quarter trim panels, a carryover from the 1965-66 deluxe interior. The 1967 hardtop also had the chrome quarter trim caps, carried over from 1965-66, but these were painted to match the interior in 1968 models. The 1967 deluxe interior included stainless steel-trimmed seat back shells, similar to those in the Thunderbird. These were dropped at the end of the 1967 model year, and were not included in the woodgrain-trimmed 1968 interior. The deluxe steering wheel, which had been included in the deluxe interior for the 1965-66, became optional, and could also be ordered with the standard interior. The 1968 models that were produced from January 1968 were also the first model year to incorporate three-point lap and shoulder belts (which had previously been optional, in 1967-68 models) as opposed to the standard lap belts. The air-conditioning option was fully integrated into the dash, the speakers and stereo were upgraded, and unique center and overhead consoles were options. The fastback model offered the option of a rear fold-down seat, and the convertible was available with folding glass windows. Gone was the Rally-Pac, since the new instrument cluster had provisions for an optional tachometer and clock. Its size and shape also precluded the installation of the accessory atop the steering column.  The convenience group with four warning lights for low fuel, seat belt reminder, parking brake not released, and door ajar were added to the instrument panel, or, if one ordered the optional console and A/C, the lights were mounted on the console. Changes for the 1968 model increased safety with a two-spoke energy-absorbing steering wheel, along with newly introduced shoulder belts. Other changes included front and rear side markers, “FORD” lettering removed from hood, rearview mirror moved from frame to windscreen, a 302 cu in (4.9 litre) V8 engine was now available, and C-Stripe graphics were added. The California Special Mustang, or GT/CS, was visually based on the Shelby model and was only sold in Western states. Its sister, the ‘High Country Special’, was sold in Denver, Colorado. While the GT/CS was only available as a coupe, the ‘High Country Special’ model was available in fastback and convertible configurations during the 1966 and 1967 model years, and as a coupe for 1968. The 1968 Ford Mustang GT Fastback reached iconic status after it was featured in the 1968 film Bullitt, starring Steve McQueen. In the film, McQueen drove a modified 1968 Mustang GT 2+2 Fastback chasing a Dodge Charger through the streets of San Francisco. There were further annual updates until the model’s replacement in 1973, but with each the car got steadily bigger and less overtly sporty. Sales reduced, too, suggesting that Ford were losing their way. Mustang II did not fix that, of course, but gradually, the legendary nameplate has returned to delivering the same sort of promise as those early and much loved cars were able to do.

JAGUAR

The Series 1 E Type was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961. The cars at this time used the triple SU carburetted 3.8-litre six-cylinder Jaguar XK6 engine from the XK150S. Earlier built cars utilised external bonnet latches which required a tool to open and had a flat floor design. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin bonnet latches moved to inside the car. The 3.8-litre engine was increased to 4,235 cc in October 1964. The 4.2-litre engine produced the same power as the 3.8-litre (265 bhp) and same top speed (150 mph), but increased torque approximately 10% from 240 to 283 lb/ft. Acceleration remained pretty much the same and 0 to 60 mph times were around 6.4 seconds for both engines, but maximum power was now reached at 5,400 rpm instead of 5,500 rpm on the 3.8-litre. That all meant better throttle response for drivers that did not want to shift down gears. The 4.2-litre’s block was completely redesigned, made longer to accommodate 5 mm (0.20 in) larger bores, and the crankshaft modified to use newer bearings. Other engine upgrades included a new alternator/generator and an electric cooling fan for the radiator. Autocar road tested a UK spec E-Type 4.2 fixed head coupé in May 1965. The maximum speed was 153 mph, the 0–60 mph time was 7.6 seconds and the 1⁄4 mile from a standing start took 15.1 seconds. They summarised it as “In its 4.2 guise the E-Type is a fast car (the fastest we have ever tested) and offers just about the easiest way to travel quickly by road.”. Motor magazine road tested a UK spec E-Type 4.2 fixed head coupé in Oct 1964. The maximum speed was 150 mph, the 0–60 mph time was 7 seconds and the 1⁄4 mile time was 14.9 seconds. They summarised it as “The new 4.2 supersedes the early 3.8 as the fastest car Motor has tested. The absurd ease which 100 mph can be exceeded in a 1⁄4 mile never failed to astonish. 3,000 miles (4,828 km) of testing confirms that this is still one of the world’s outstanding cars”. All E-Types featured independent coil spring rear suspension designed and developed by R J Knight with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. The Coventry engineers spared nothing with regards to high automotive technology in braking. Like several British car builders of the middle and late 1950s, the four-wheel disc brakes were also used in that era by Austin-Healey, MG,putting the British far ahead of Ferrari, Maserati, Alfa Romeo, Porsche, and Mercedes-Benz. Even Lanchester tried an abortive attempt to use copper disc brakes in 1902. Jaguar was one of the first vehicle manufacturers to equip production cars with 4 wheel disc brakes as standard from the XK150 in 1958. The Series 1 (except for late 1967 models) can be recognised by glass-covered headlights (up to 1967), small “mouth” opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the number plate in the rear. 3.8-litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss four-speed gearbox that lacks synchromesh for first gear (“Moss box”) on all except very last cars. 4.2-litre cars have more comfortable seats, improved brakes and electrical systems, and, obviously, an all-synchromesh Jaguar designed four-speed gearbox. 4.2-litre cars also have a badge on the boot proclaiming “Jaguar 4.2 Litre E-Type” (3.8 cars have a simple “Jaguar” badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS. When leaving the factory the car was originally fitted with Dunlop 6.40 × 15-inch RS5 tyres on 15 × 5K wire wheels (with the rear fitting 15 × 5K½ wheels supplied with 6.50 X15 Dunlop Racing R5 tyres in mind of competition). Later Series One cars were fitted with Dunlop 185 – 15 SP41 or 185 VR 15 Pirelli Cinturato as radial ply tyres. A 2+2 version of the fastback coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different. The roadster and the non 2+2 FHC (Fixed Head Coupé) remained as two-seaters. Less widely known, right at the end of Series 1 production, but prior to the transitional “Series 1½” referred to below, a small number of Series 1 cars were produced with open headlights. These Series 1 cars had their headlights modified by removing the covers and altering the scoops they sit in, but these Series 1 headlights differ in several respects from those later used in the Series 1½ (or 1.5), the main being they are shorter at 143 mm from the Series 1½ at 160 mm. Production dates on these machines vary but in right-hand drive form production has been verified as late as July 1968. They are not “rare” in the sense of the build of the twelve lightweights, but they are certainly uncommon; they were not produced until January 1967 and given the foregoing information that they were produced as late as July 1968, it appears that there must have been an overlap with the Series 1.5 production, which began in August 1967 as model year 1968 models. These calendar year/model year Series 1 E-Types are identical to other 4.2-litre Series 1 examples in every respect except for the open headlights; all other component areas, including the exterior, the interior, and the engine compartment are the same, with the same three SU carburettors, polished aluminium cam covers, center dash toggle switches, etc. Following the Series 1 there was a transitional series of cars built in 1967–68 as model year 1968 cars, unofficially called “Series 1½.” Due to American pressure the new features were not just open headlights, but also different switches (black rocker switches as opposed to the Series 1 toggle switches), de-tuning for emissions (using two Zenith-Stromberg carburettors instead of the original three SUs) for US models, ribbed cam covers painted black except for the top brushed aluminium ribbing, bonnet frames on the OTS that have two bows, and other changes. Series 1½ cars also have twin cooling fans and adjustable seat backs. The biggest change between 1961–1967 Series 1 E-Types and the 1968 Series 1.5 was the reduction in the number of carburettors from 3 to just 2 (North America), resulting in a loss in horsepower. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style. A United States federal safety law affecting 1968 model year cars sold in the US was the reason for the lack of headlight covers and change in dash switch design in the “Series 1.5” of 1968. An often overlooked change, one that is often “modified back” to the older style, is the wheel knock-off “nut.” US safety law for 1968 models also forbade the winged-spinner knockoff, and any 1968 model year sold in the US (or earlier German delivery cars) should have a hexagonal knockoff nut, to be hammered on and off with the assistance of a special “socket” included with the car from the factory. This hexagonal nut carried on into the later Series 2 and 3. The engine configuration of the US Series 1.5s was the same as is found in the Series 2. An open 3.8-litre car, actually the first such production car to be completed, was tested by the British magazine Motor in 1961 and had a top speed of 149.1 mph and could accelerate from 0 to 60 mph in 7.1 seconds. A fuel consumption of 21.3 mpg was recorded. The test car cost £2,097 including taxes.The cars submitted for road test by the motoring journals of the time (1961) such as Motor, Autocar and Autosport magazines were prepared by the Jaguar works. This work entailed engine balancing and subtle tuning work such as gas-flowing checking the cylinder heads but otherwise production built engines. Both of the well-known 1961 road test cars: the E-Type coupé Reg. No. 9600 HP and E-Type Convertible Reg. No. 77 RW, were fitted with Dunlop Racing Tyres on test, which had a larger rolling diameter and lower drag coefficient. This goes some way to explaining the 150 mph (240 km/h) maximum speeds that were obtained under ideal test conditions. The maximum safe rev limit for standard 6-cylinder 3.8-litre E-Type engines is 5,500 rpm. The later 4.2-Litre units had a red marking on the rev counter from just 5,000 rpm. Both 3.8 test cars may have approached 6,000 rpm in top gear when on road test, depending on final drive ratio. Production numbers were as follows:  15,490 of the 3.8s, 17,320 of the 4.2s and 10,930 of the 2+2s. And by body style there were 15,442 of the FHC, 17,378 of the OTS and 5,500 of the 2+2, making a total of 38,419 of the Series 1 car.

LAND ROVER

There were a number of the “classic” Defender models parked up here, as has proved to be the case whenever I have been here in the past.

LOTUS

A third Series Elise was debuted in 2010 and the car has undergone almost constant enhancements ever since, with power outputs boosted considerably on the way. Revealed in November 2015, the Lotus Elise Sport and Sport 220 joined the two-seater sports car’s line-up, with the two models replacing the outgoing Elise and Elise S. The models mark a return for the ‘Sport’ name to a Lotus, with the badge last appearing on the Lotus Esprit. The two cars get a weight reduction of 10kg, with the Elise Sport now down to 866kg and the Sport 220 now 914kg. The reduced weight doesn’t improve performance but it does bring a marginal boost in claimed economy, with the Sport now managing 45.0mpg the Sport 220 improving to 37.5mpg. The changes are marginal enough that the CO2 emissions remain unchanged. Both cars also come with lightweight sports seats, which are available with optional tartan trim that harks back to the 1970s Esprit S1. Other visual upgrades and options include lightweight silver or black cast wheels, which are 16 inch at the front and 17 inch at the rear. Optional lightweight wheels can shave another 5kg off the car’s weight. A black rear diffuser is standard, along with a choice of 10 different colours. Other options include a hard roof, air conditioning, cruise control and an upgraded Clarion stereo system. The engines remained unchanged. The Sport comes with a 1.6-litre petrol engine with 134 bhp and 160 Nm (118 lb/ft) of torque. It can go 0-62mph in 6.5 seconds, and has a top speed of 127mph. The Sport 220’s 1.8-litre engine can develop 217 bhp (220 PS) and 250 Nm (184 lb/ft) of torque. It can go 0-62mph in 4.6 seconds and has a 145mph of top speed. Both come with a six-speed manual transmission. The pricing has also been trimmed, with the Elise Sport model starting at £29,900 and the Elise Sport 220 priced at £36,500. Both cars will go on sale from December 2015 in Europe and the rest of the world from January 2016. At the 2016 Geneva Motor Show, Lotus revealed the high performance version of the Elise called the Cup 250. The Cup 250 is a more track focused and hardcore version of the standard Elise. It has a 1.8 litre supercharged Toyota 2ZR-FE Inline-4 engine with a 6-speed Toyota EC60 manual gearbox with sport ratios, developing 243 bhp at 7200 rpm, giving a 0-60 mph time of 3.9 seconds and a Top speed of 154 mph. In October 2017, Lotus unveiled a hardcore version of the Elise called the Elise Cup 260. It is inspired by the two hardcore variants of the Evora and Exige line up, the Sport 380 and the GT430 respectively. It features the double taillight units and rear wing from the Exige Sport 380 and the Lotus 3-Eleven respectively. Power has also been uprated and is now 250 hp thanks to a revised supercharger. Other changes include increased top speed, acceleration, low weight and high downforce due to added aero elements. Performance was marginally improved over the 220 version. In March 2017, Lotus announced the special edition ‘Sprint’ models of the Elise. For the Elise Sprint, Lotus used several weight-saving techniques to cut the car’s weight down to 798 kg (1,759 lb). To achieve the 40 kg (88 lb) weight saving, some body parts are made in carbon, as well as the seats. The backlight glass is made of polycarbonate, and the lightweight battery is a Lithium-ion model. Wheels are the usual size, but forged instead of cast alloy. The Sprint can be had with either a 1.6-litre naturally aspirated engine, or a 1.8-litre supercharged engine, available for the Sprint 220 version. The former has a 0–60 mph of 5.9 seconds, while the Sprint 220 can accelerate from 0–60 mph in 4.1 seconds. Dampers are uprated, as on the Elise Cup models. On 9 February 2021, Lotus unveiled two final editions line-up models of Elise on online platforms. Opening the range is the Elise Sport 240 Final Edition, which sees the existing Sport 220’s 1.8-litre supercharged four-cylinder engine uprated to develop 240 bhp and 244 Nm (180 lb/ft), permitting a zero to 100km/h time of 4.5 seconds. When fully specified with weight-saving options – namely carbon-fibre sill and engine covers, a lithium-ion starter battery and a polycarbonate rear window – the Sport 240 is the lightest car on offer, tipping the scales in at just 898kg. A set of 10-spoke forged alloy wheels fill the arches, measuring 16 inches in diameter up front and 17 inches at the rear, wrapped in Yokohama Y105 tyres. Lotus claims the new wheels are 0.5kg lighter than the examples fitted to the outgoing Sport 220. The Elise Cup 250 Final Edition features a variant of the Sport 240’s 1.8-litre four-cylinder, now tuned to produce 245 bhp and 244 Nm (180 lb/ft). Lotus claims a 4.3-second 0-100km/h sprint time. This model gets an optimised aerodynamic package allowing for 155kg of downforce at its top speed of 248km/h, along with 10-spoke M Sport forged alloy wheels, Yokohama A052 tyres, Bilstein dampers and adjustable anti-roll bars. A lightweight lithium-ion battery and polycarbonate rear window are also fitted as standard for increased weight saving, and, in top spec layout, the car weighs 931kg. The Elise story came to an end in late 2021 when production  of the model ceased after 25 years.

Also here were a couple of examples of the only sports car currently in the Lotus line-up, the Emira.

MASERATI

There was another outing for my recently acquired Grecale, and it was the only Maserati I saw here all day.

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.

MERCEDES-BENZ

Parked up along with various Land Rover Defender models was a car which initially was conceived very much to rival them, but which has been pushed further and further up-market as its appeal changed to the “Chelsea Set” and others of their ilk, the G Wagen.

MERCURY

For 1961, Mercury underwent a major transformation of its model line. In a transition from 1957 to 1960, Mercury again shared a bodyshell with a divisional counterpart, shifting from Edsel to Ford, with the Monterey becoming the equivalent of the Ford Galaxie. The Montclair and Park Lane were discontinued, shifting the Monterey from the base-trim Mercury sedan to its flagship, slotted above the newly introduced Mercury Meteor (as with the Comet, intended as an Edsel before the discontinuation of the division). One of the first examples of downsizing, by adopting a common chassis and body with Ford, the Monterey lost six inches of wheelbase, nearly two inches of width, and over 4 inches of length; dependent on powertrain, the 1961 Monterey shed over 300 pounds of curb weight. At 120 inches, the Monterey was given a 1-inch longer wheelbase than the Galaxie. The Monterey was offered in four bodystyles, including two and four-door hardtops, a four-door sedan, and a two-door convertible. Sharing its roofline with the Galaxie (except for the Starliner fastback), the Monterey differed primarily by its grille; in place of two large taillamps, Mercury used six small taillamps. While slightly more adorned than its Galaxie counterpart, the Monterey continued to adopt more subdued styling, shifting chrome trim nearly entirely to the front and rear fascias and the roofline. Shared with the Ford Galaxie, the Monterey again received the 292 cubic-inch Y-block V8 (175 hp), with the option of 352 and 390 cubic-inch FE V8s (220 hp and 300/330 hp, respectively). As before, 3-speed manual and 3-speed automatics were offered, with a 4-speed manual becoming an option. For 1962, the Monterey served as the entire full-size Mercury line, as Mercury shifted the Meteor nameplate to its all-new intermediate sedan range. The six-cylinder Monterey 6 was introduced, inheriting a 135 hp 223 cubic-inch Mileage Maker inline-6 from the Meteor. To better distinguish the Monterey, stylists added a convex grille (opposed to the flat grille used by Ford); the taillamps were added to the end of the tailfins (further reducing them in size). Intended as the Mercury counterpart of the Ford Galaxie 500XL, the Mercury S-55 was introduced as an option for two-door Monterey hardtops and convertibles, offering front bucket seats, floor-mounted shifters, and special trim. While offered with any Monterey engine, the S-55 option also offered a 405 hp 406 cubic-inch V8. For 1963, the Monterey underwent a substantial revision to its roofline, reintroducing the retractable rear window used by the 1958-1960 Continental model line and the Mercury Turnpike Cruiser. While again using the reverse-slant design, the power-window mechanism was borrowed from the station wagon line. Named “Breezeway”, the retractable rear window was standard on all non-convertible Montereys and S-55s. The front grille adopted a sharply-divided concave design, with the six-lens taillamp rear fascia making a return. As a 19631⁄2 vehicle, Mercury introduced the Mercury Marauder as a trim package for the Monterey; to better compete in racing, Mercury mated the body of the Monterey with the roofline of the Ford Galaxie hardtop. While technically a Monterey trim package, the Marauder option could be combined with the S-55 trim. The powertrain line underwent a similar revision, as the 223 six and 292 and 352 V8s were dropped, with a 250 hp 390 becoming the standard engine; a 300 hp 390 was offered, along with 385 hp and 405 hp versions of the 406 V8. As a running change during 1963, the 406 was replaced by a 427 cubic-inch V8, in 410 hp and 425 hp outputs (the latter offered only through special order). For 1964, Mercury revised its sedan offerings; while the S-55 was discontinued, the Montclair and Park Lane made their return. In another change, the Marauder fastback was introduced as a four-door hardtop (giving Mercury a second roofline distinct from Ford); while performance-oriented, all three Mercury sedans offered the Marauder roofline as an option. In line with the Ford Thunderbird, the entire front fascia became more convex, with a more closely-fitting front bumper. Coinciding with the Montclair and Park Lane, the Monterey was reintroduced as a two-door sedan; the four-door hardtop was only offered as a Marauder fastback.

MG

MG re-entered the sports car market in 1995 with the launch of the MGF Two versions of this mid-engined and affordable rival to the Mazda MX5 were offered: both of which used the 1.8 litre K-Series 16-valve engine. The cheaper of the two put out  118 hp and the more costly VVC model (by dint of its variable valve control) had 143 hp.  Rover Special Projects had overseen  the development of the F’s design and before finalising the styling bought-in outside contractors to determine the most appropriate mechanical configuration for the new car. Steve Harper of MGA Developments produced the initial design concept in January 1991 (inspired by the Jaguar XJR-15 and the Ferrari 250LM), before Rover’s in house design team refined the concept under the leadership of Gerry McGovern. The MGF used the Hydragas suspension, a system employing interconnected fluid and gas displacers, which gave the car a surprisingly compliant ride and which could be tuned to provide excellent handling characteristics. The MG F quickly shot to the top of the affordable sports car charts in Britain and remained there until the introduction of the MG TF in 2002. The MG F underwent a facelift in Autumn of 1999 which gave the car a revised interior as well as styling tweaks and fresh alloy wheels designs. There was also the introduction of a base 1.6 version and a more powerful 160 hp variant called the Trophy 160, which had a 0-60 mph time of 6.9 seconds. It was only produced for a limited time. An automatic version with a CVT called the Steptronic was also introduced. A comprehensive update in 2002 resulted in  the MG TF,  named after the MG TF Midget of the 1950s. Based upon the MG F platform but heavily redesigned and re-engineered, the most significant mechanical changes were the abandonment of Hydragas suspension in favour of conventional coil springs, the new design of the air-induction system that along with new camshafts produces more power than in MG F engines, and the torsional stiffness of the body increased by 20%. Various cosmetic changes included a revised grille, redesigned front headlights, bumpers, side air-intake grills and changes to the rear boot,. The car continued to sell well.  Production was suspended when MG-Rover went out of business, but resumed again in 2007 when Nanjing built a number more.

NISSAN

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

OLDSMOBILE

This is a 1960 Oldsmobile 88 Dynamic. All Oldsmobiles were completely restyled for 1959, with the 88 series given longer, lower and wider styling on a GM B-body chassis. The 88 shared its appearance with the top-model Oldsmobile 98. Styling highlights for the new models, promoted as the “Linear Look,” included six-window styling on four-door pillared sedans, glassy semi-fastback rooflines on Holiday coupes and flat-blade rooflines with thin windshield and C-pillars on Holiday sedans which created a large open greenhouse effect. Two-door hardtops were called “Holiday Scenicoupes,” whereas four-door hardtops were called “Holiday Sport Sedans.” While many 1959 model cars featured bigger and sharper fins, Olds flattened theirs horizontally and reduced chrome from 1958 for a much cleaner look. Wheelbases on 88 models increased by one inch to 123 inches (3,124 mm). A larger, 394 cubic-inch Rocket V8 with four-barrel carburation rated at 315 hp was standard on the Super 88. The lower-priced Dynamic 88 retained the two-barrel 265 hp 371 cubic-inch ’57–58 Rocket V8, with a 300 hp four-barrel version optional. An unusual feature was the what was called the “Safety-Spectrum Speedometer”, in which the bar that is used the measure the speed is green from 0–35 mph (0–56 km/h), amber at 35–65 mph (56–105 km/h), and red at speeds above 65 mph (105 km/h). A simpler but bold new grille and revised rear design with even flatter, horizontal tailfins and new taillights highlighted the 1960 makeover. Power for Super 88 models remained the same, while Dynamic 88s had their 371 ci Rocket V8 detuned to 240 hp, where a lower compression ratio accommodated lower-priced regular gasoline. Other changes included a revised instrument panel and a slimmer transmission tunnel for improved interior space. An all-new body and chassis with perimeter “Guard Beam” frame and all-coil suspension replacing the previous leaf springs highlighted the 1961 full-sized Oldsmobiles, which were joined by the new compact F-85.

PORSCHE

The 911 continued to evolve throughout the 1960s and early 1970s, though changes initially were quite small. The SC appeared in the autumn of 1977, proving that any earlier plans there had been to replace the car with the front engined 924 and 928 had been shelved. The SC followed on from the Carrera 3.0 of 1967 and 1977. It had the same 3 litre engine, with a lower compression ratio and detuned to provide 180 PS . The “SC” designation was reintroduced by Porsche for the first time since the 356 SC. No Carrera versions were produced though the 930 Turbo remained at the top of the range. Porsche’s engineers felt that the weight of the extra luxury, safety and emissions equipment on these cars was blunting performance compared to the earlier, lighter cars with the same power output, so in non-US cars, power was increased to 188 PS for 1980, then finally to 204 PS. However, cars sold in the US market retained their lower-compression 180 PS engines throughout. This enabled them to be run on lower-octane fuel. In model year 1980, Porsche offered a Weissach special edition version of the 911 SC, named after the town in Germany where Porsche has their research centre. Designated M439, it was offered in two colours with the turbo whale tail & front chin spoiler, body colour-matched Fuchs alloy wheels and other convenience features as standard. 408 cars were built for North America. In 1982, a Ferry Porsche Edition was made and a total of 200 cars were sold with this cosmetic package. SCs sold in the UK could be specified with the Sport Group Package (UK) which added stiffer suspension, the rear spoiler, front rubber lip and black Fuchs wheels. In 1981 a Cabriolet concept car was shown at the Frankfurt Motor Show. Not only was the car a true convertible, but it also featured four-wheel drive, although this was dropped in the production version. The first 911 Cabriolet debuted in late 1982, as a 1983 model. This was Porsche’s first cabriolet since the 356 of the mid-1960s. It proved very popular with 4,214 sold in its introductory year, despite its premium price relative to the open-top targa. Cabriolet versions of the 911 have been offered ever since. 911 SC sales totalled 58,914 cars before the next iteration, the 3.2 Carrera, which was introduced for the 1984 model year. Coupe models outsold the Targa topped cars by a big margin.

Replacing the 964, the 993 models were first seen in October 1993, with production starting a few weeks later. Its arrival marked the end of air-cooled 911 models. The 993 was much improved over, and quite different from its predecessor. According to Porsche, every part of the car was designed from the ground up, including the engine and only 20% of its parts were carried over from the previous generation. Porsche refers to the 993 as “a significant advance, not just from a technical, but also a visual perspective.” Porsche’s engineers devised a new light-alloy subframe with coil and wishbone suspension (an all new multi-link system), putting behind the previous lift-off oversteer and making significant progress with the engine and handling, creating a more civilised car overall providing an improved driving experience. The 993 was also the first 911 to receive a six speed transmission. The 993 had several variants, as its predecessors, varying in body style, engines, drivetrains and included equipment. Power was increased by the addition of the VarioRam system, which added additional power, particularly in the mid-ranges, and also resulted in more throttle noise at higher revs; as a consequence, resulted in a 15% increase in power over its predecessor. The external design of the Porsche 993, penned by English designer Tony Hatter, retained the basic body shell architecture of the 964 and other earlier 911 models, but with revised exterior panels, with much more flared wheel arches, a smoother front and rear bumper design, an enlarged retractable rear wing and teardrop mirrors. A major change was the implementation of all alloy multi-link rear suspension attached to an alloy sub frame, a completely new design derived from the 989, a four-door sedan which never went into production. The system later continued in the 993’s successor, the 996, and required the widening of the rear wheel arches, which gave better stability. The new suspension improved handling, making it more direct, more stable, and helping to reduce the tendency to oversteer if the throttle was lifted during hard cornering, a trait of earlier 911s. It also reduced interior noise and improved ride quality. The 993 was the first generation of the 911 to have a 6-speed manual transmission included as standard; its predecessors had 4 or 5-speed transmissions. In virtually every situation, it was possible to keep the engine at its best torque range above 4,500 rpm. The Carrera, Carrera S, Cabriolet and Targa models (rear wheel drive) were available with a “Tiptronic” 4-speed automatic transmission, first introduced in the 964. From the 1995 model year, Porsche offered the Tiptronic S with additional steering wheel mounted controls and refined software for smoother, quicker shifts. Since the 993’s introduction, the Tiptronic is capable of recognising climbs and descents. The Tiptronic equipped cars suffer as compared to the manual transmission equipped cars in both acceleration and also top speed, but the differences are not much notable. Tiptronic cars also suffered a 55 lb (25 kg) increase in weight. The 993’s optional all wheel drive system was refined over that of the 964. Porsche departed from the 964’s setup consisting of three differentials and revised the system based on the layout from its 959 flagship, replacing the centre differential with a viscous coupling unit. In conjunction with the 993’s redesigned suspension, this system improved handling characteristics in inclement weather and still retained the stability offered by all wheel drive without having to suffer as many compromises as the previous all-wheel-drive system. Its simpler layout also reduced weight, though the four wheel drive Carrera 4 weighs 111 lb (50 kg) more than its rear wheel drive counterpart (at 3,131 lb (1,420 kg) vs. 3,020 lb (1,370 kg)). Other improvements over the 964 include a new dual-flow exhaust system, larger brakes with drilled discs, and a revised power steering. A full range of models arrived before the arrival of the 996 generation in 1998.

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

The third-generation Boxster (internally known as the 981) was announced on 13 March 2012 at the Geneva Motor Show with sales starting in early summer 2012. The 981 Boxster reflected the new design language from the 911 (991) and 918, and featured new and revised engine and transmission specifications. Together with a new body, the type 981 Boxster featured a new, 40 per cent more torsionally rigid chassis, the front track was 40 mm (1.6 in) wider, the rear 18 mm (0.7 in) wider and the wheelbase extended by 60 mm (2.4 in), but with a small weight reduction of up to 35 kg (77 lb) compared to the previous type 987 Boxster. The standard Boxster was fitted with a new 2.7-litre flat-6 engine, and the Boxster S was fitted with the existing 3.4-litre engine but with revised performance. Both engines were equipped with a 6-speed manual gearbox and an optional 7-speed reworked PDK. Both manual and automatic models were available with several technical options, including Porsche Torque Vectoring (PTV) and a Sport Chrono Package that included active transmission mounts, and made the PDK-equipped model even faster. Porsche claimed that the new generation Boxster provided fuel savings of 15% over the outgoing model. The range was expanded in March 2014 with the addition of the GTS derivative, with slightly altered front and rear bumpers and an additional 15 PS/ 15 bhp from the 3.4-litre engine. In 2015 the GT4 derivative was introduced, seeing the engine from a 991.1 Carrera S rotated 180 degrees. The GT4 also saw a lowered ride height, altered bumpers, a rear wing and additional GT package upgrades including brakes and certain suspension components from a 991.1 GT3. These special cars were manufactured from 2015 – 2016 with a total of 2500 being made, making this model one of the more desirable collector’s cars in Porsche’s lineup. The GT4 was widely considered one of the best cars of 2015/2016 where it won many awards for its impeccable handling and performance. The third generation Cayman was unveiled at the 2012 Geneva Motor Show. The production version of the 981 Cayman was released as a 2014 model in the spring of 2013. The new car was available in both the standard trim with a 2.7-litre engine, and in the S trim with a 3.4-litre engine. Both versions were available with either a 6-speed manual or a dual-clutch 7-speed PDK transmission. The 981 Cayman featured upgrades including a new body, a longer wheelbase, a wider front track, electrically powered steering, and a redesigned interior that matched the firm’s contemporaneous 911 models. The new model gained acclaim in the motoring press as one of the best handling sports cars at any price, due to its mid-engine layout and driving dynamics. The Cayman S benefited from the same engine and running gear as Porsche’s 3.4-litre version of the 911. A heavily revamped version of both models, known as the 982 generation was launched in 2016 to replace these cars.

RENAULT

Eighteen months after the debut of the second generation R5, the “supercinq” as it is sometimes known, Renault produced their response to Peugeot’s 205 GTi, the R5 GT Turbo. Many were convinced that this was a better car, though it did have a reputation for unreliability and hot starting was quite an issue with fuel vaporising in the carburettor as the engine cooled. It used a modified four cylinder, eight-valve Cléon 1,397 cc engine, a pushrod unit dating back to the 1962 original (in 1,108 cc form). It was turbocharged with an air-cooled Garrett T2 turbocharger. Weighing a mere 850 kg (1,874 lb), and producing 113 hp, the GT Turbo had an excellent power-to-weight ratio, permitting it to accelerate from a standstill to 60 mph in 7.5 seconds. To differentiate it from the standard 5, it came with blocky plastic side skirts. Unfortunately, turbo lag was an issue, along with poor hot starting, and it was considered rather difficult to control. The same engine was used, with similar issues, in the Renault 9 and 11 Turbos. In 1987, the facelifted Phase II was launched. Major changes in the Phase II version included installing watercooling to the turbocharger, aiding the Phase I’s oil-cooled setup, which extended the life of the turbo. It also received a new ignition system which permitted it to rev 500 rpm higher. These changes boosted engine output up to over 118 hp. Externally, the car was revamped, with changes (including new bumpers and arches) that reduced the car’s drag coefficient from 0.36 to 0.35. Giving the Phase II a 0–100 km/h time of 7.5 secs. In 1989 the GT Turbo received a new interior, and in 1990 the special edition Raider model (available only in metallic blue, with different interior and wheels) was launched. In late 1991 the Renault 5 GT Turbo was discontinued, superseded by the Clio 16v and the Clio Williams. Survival rate of the R5 GT Turbo is low and few cars are particularly original.

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

TRIUMPH

Envisioned as a luxury sports car, the Stag was designed to compete directly with the Mercedes-Benz SL. It started as a styling experiment, cut and shaped from a 1963–4 Triumph 2000 pre-production saloon, which had also been styled by Michelotti, and loaned to him by Harry Webster, Director of Engineering at Triumph. Their agreement was that if Webster liked the design, Triumph could use the prototype as the basis of a new Triumph model. Harry Webster, who was a long time friend of Giovanni Michelotti, whom he called “Micho”, loved the design and took the prototype back to England. The end result, a two-door drop head (convertible), had little in common with the styling of its progenitor 2000, but retained the suspension and drive line. Triumph liked the Michelotti design so much that they propagated the styling lines of the Stag into the new Mark 2 2000/2500 saloon and estate. The initial Stag design was based around the saloon’s 2.5-litre six cylinder engine, but Harry Webster intended the Stag, large saloons and estate cars to use a new Triumph-designed overhead cam 2.5-litre fuel injected V8. Under the direction of Harry Webster’s successor, Spen King in 1968, the new Triumph OHC 2.5 PI V8 was enlarged to 2997 cc to increase torque. To meet emission standards in the USA, a key target market, the troublesome mechanical fuel injection was dropped in favour of dual Zenith-Stromberg 175 CDSE carburettors. A key aim of Triumph’s engineering strategy at the time was to create a family of engines of different size around a common crankshaft. This would enable the production of power plants of capacity between 1.5 and 4 litres, sharing many parts, and hence offering economies of manufacturing scale and of mechanic training. A number of iterations of this design went into production, notably a slant four-cylinder engine used in the later Triumph Dolomite and Triumph TR7, and a variant manufactured by StanPart that was initially used in the Saab 99. The Stag’s V8 was the first of these engines into production. Sometimes described as two four-cylinder engines Siamesed together, it is more correct to say that the later four-cylinder versions were half a Stag engine. It has sometimes been alleged that Triumph were instructed to use the proven all-aluminium Rover V8, originally designed by Buick, but claimed that it would not fit. Although there was a factory attempt by Triumph to fit a Rover engine, which was pronounced unsuccessful, the decision to go with the Triumph V8 was probably driven more by the wider engineering strategy and by the fact that the Buick’s different weight and torque characteristics would have entailed substantial re-engineering of the Stag when it was almost ready to go on sale. Furthermore Rover, also owned by British Leyland, could not necessarily have supplied the numbers of V8 engines to match the anticipated production of the Stag anyway. As in the Triumph 2000 model line, unitary construction was employed, as was fully independent suspension – MacPherson struts in front, semi-trailing arms at the rear. Braking was by front disc and rear drum brakes, while steering was power-assisted rack and pinion.  Although other bodystyles were envisaged, these never made production, so all  Stags were four-seater convertible coupés. For structural rigidity – and to meet new American rollover standards of the time – the Stag required a B-pillar “roll bar” hoop connected to the windscreen frame by a T-bar. A removable hardtop was a popular factory option for the early Stags, and was later supplied as a standard fitment. The car was launched one year late in 1970, to a warm welcome at the various international auto shows. Sadly, it rapidly acquired a reputation for mechanical unreliability, usually in the form of overheating. These problems arose from a variety of causes, all of which are now well understood, and for which solutions have been identified, but at the time, they really hurt the reputation and hence sales of the car. They ranged from late changes to the engine which gave rise to design features that were questionable from an engineering perspective, the choice of materials which necessitated the use of antifreeze all year round, the engine’s use of long, simplex roller link chains, which would first stretch and then often fail inside fewer than 25,000 miles; the arrangement of the cylinder head fixing studs, half of which were vertical and the other half at an angle causing sideways forces which caused premature failure of the cylinder head gaskets. and poor quality production from a plant troubled with industrial unrest and poor quality control. At the time, British Leyland never provided a budget sufficient to correct the few design shortcomings of the Triumph 3.0 litre OHC V8, and the dealers did not help matters. The Stag was always a relatively rare car. British Leyland had around 2,500 UK dealers when the Stag was on sale and a total of around 19,000 were sold in the UK. Thus the average dealer sold only seven or eight Stags during the car’s whole production run, or roughly one car per year. This meant that few dealers saw defective Stags often enough to recognise and diagnose the cause of the various problems. Many owners simply replaced the engine altogether, often with the Rover V8, Ford Essex V6, or even the Triumph 6-cylinder engine around which the car was originally designed. Perhaps thanks to such a reputation for its unreliable engine, only 25,877 cars were produced between 1970 and 1977. Of this number, 6780 were export models, of which 2871 went to the United States. The majority of cars were fitted with a Borg-Warner 3-speed automatic transmission. The other choice was a derivative of the ancient Triumph TR2 gearbox which had been modified and improved over the years for use in the TR series of sports cars. Other than the choice of transmissions there were very few factory-installed options. On early cars buyers could choose to have the car fitted with just the soft-top, just the hard-top (with the hood storage compartment empty) or with both. Later cars were supplied with both roofs. Three wheel styles were offered. The standard fitments were steel wheels with Rostyle “tin-plate” trims. Five-spoke alloy wheels were an option, as were a set of traditional steel spoke wheels with “knock-off”‘ hubcaps. The latter were more commonly found on Stags sold in North America on Federal Specification vehicles. Electric windows, power steering and power-assisted brakes were standard. Options included air conditioning, a luggage rack, uprated Koni shock absorbers, floor mats and Lucas Square Eight fog lamps, and a range of after-market products, most of which were dealer installed as optional accessories could also be fitted. Rather unusually for a 4-seat touring car, the accessory list included a sump protector plate that was never produced. This was probably included as a slightly “gimmicky” tribute to Triumph’s rallying successes. Nowadays, the Stag is seen in a very different light, with lots of very enthusiastic and knowledgeable owners who enjoy the good points of this attractive looking car and who revel in the fact that the market has not yet boosted prices into the unaffordable category, as one day will surely happen.

VOLKSWAGEN

The VW 1302, introduced in August 1970, featured a redesigned front end. It incorporated a new front axle featuring MacPherson suspension struts, wishbones and a stabiliser. The enlargement of the front trunk became possible as a result. Unlike its predecessor, the spare wheel was no longer positioned diagonally at the front under the hood but instead rested horizontally under a cover in the trunk area. The company initially intended to designate the car as the “1301”, but a trademark already held by the French company Simca compelled Volkswagen to use “1302” instead. Volkswagen produced the more powerful 1302S alongside the 1302. The latter has an engine displacement of 1.3 litres (1,285 cc), while the former has a capacity of 1.6 litres (1,584 cc). In English-speaking countries, the name “Super Beetle”—alongside “1600”—was included on the written description but not the engine cover. The 1302 possessed the same 44 PS output as the 1300, whereas the 1302S saw an increase to 50 PS. This was facilitated by a twin-port cylinder head, enabling the engines to breathe more effortlessly. The British automotive magazine Autocar expressed disappointment in its power increase, noting, “Even with 14 [per cent] more power, the total output of 50 bhp is very modest for the size of the engine”. The Super Beetle had a 2 cm (0.8 in) increase in wheelbase, but the extra space was in front of the windshield. For 1971, the overall length increased by 8 cm (3.1 in), doubling the front trunk capacity and adding 3 cu ft (0.1 m3) of luggage space. Volkswagen also implemented a new fresh-air ventilation system, drawing its air from the rear quarter panels. In August 1972, the 1303 range superseded the 1302 model, which featured a curved windshield. This design change elicited mixed opinions; some favoured it, while others expressed dissatisfaction. Despite the effort to infuse the Beetle with a modernised design, this did not resonate with consumers, resulting in declining Beetle sales. In 1975, the 1303 and 1303S received rack and pinion steering, but in July of that year, Volkswagen discontinued both of them. The long-serving 1200 was renamed the “1200L” in 1976, with the additional deluxe features incorporated into the car’s interior. In July 1984, Volkswagen eliminated the engine lid louvres.

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.

Reading this, you will probably be as surprised as I was that there are not more cars featured. After all, previous visits to the renegade Brewery have seen the site bursting at the seams, and the nice weather, I thought, would pretty much guarantee that would be the case on this occasion, but it just was not the case, sadly, with the main part of the site never reaching capacity as people came and went. So, whilst there were some nice cars here, and I was able to have a good long chat with a couple of friends as we wandered around, I was a little disappointed that there was not more to see. But such is the state of that diary, I suspect that plenty of enthusiasts simply made a different selection and went somewhere else.

After the bulk of the cars headed off, with the skies still cloudless, I decided that this would be a perfect opportunity – finally – to go and get some nice pictures of my recently acquired Grecale, with lots of roads on the edge of the nearby Chiltern Hills offering potential backdrops. My good friend Jeremy Ingham offered to act as guide to the area and to ensure that we ended up at a nice country pub for a spot of lunch, which we duly did. The Grecale photos will appear elsewhere, in due course, but here is one of Jeremy’s 124 Spider taken as we parked up at the pub.