It used to be the case that by the end of October, the car event season was more or less over for the year, with challenges of reduced hours of daylight and the need to ensure hard-standing for parking, quite apart from a greater likelihood of the weather making an event unappealing or sometimes unviable. But such is the demand from car enthusiasts to meet up and show off their prides and joy as well as to see those of others, then there are still a number of events to attend in those winter months. The Bristol-based Queen Square Breakfast Club meets come in that category. From November they relocate from Eastwood Park to the Easter Compton Farm Shop which has the benefits not just of all parking being on hard standing, but also two large barns that permit a number of the cars to be parked under cover (though the lights do have their challenges for the photographer). With some of the older classics being put away on SORN for the winter, the nature of cars attending does change a bit, but I remain pleasantly surprised by how many older machines always come to these events to join the large numbers of modern enthusiast and performance cars that constitute a large percentage of the attendees. Add in good weather, as happened for the November 2023 event and it is amazing just what you get, as this report evidences.
ABARTH
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. There were just a couple of them here.
The Abarth Grande Punto debuted at the 2007 Frankfurt IAA Show, going on sale in the UK in late summer of 2008. Offering 155 bhp from its 1.4 litre T-Jet engine, coupled to a six speed gearbox, and riding on 45 profile 17″ alloys, the standard car got rave reviews from the journalists when they first tried it, and they were even more impressed by the changes wrought by the optional Esseesse kit. This increased power to 177 bhp, brought 18″ OZ lower profile wheels, whilst new springs lowered the ride height by 15-20mm, and high-performance front brake pads and cross-drilled front disc brakes helped the car to stop more quickly. The most distinctive feature of the car were the white alloy wheels, though, as owners found, keeping these clean is not a job for the uncommitted, and many have a second set of wheels that they use for grubbier conditions. Despite the positive press at launch, the car entered a very competitive sector of the market, and the combination of being relatively unknown, a limited number of dealers and the existence of established rivals from Renault and others meant that this always remained a left-field choice. The owners loved them, though, and they still do. The oldest cars have now had their 16th birthdays, and some have amassed relatively big mileages, but they are still a car for the cognoscenti.
AC
Genuine AC Cobra examples are few and far between, but almost since the end of production there have been countless recreations, continuation series and replica versions produced, so the overall Cobra design is quite a common sight at events like this, even though it is not immediately obvious what precisely you are looking at. According to online data, we have here a Jaguar and a Rover! Dating from 1971 and 1977, and with 5000cc and 5700cc engines respectively. Clearly rather a lot has changed from what was originally registered with the DVLA!
ALFA ROMEO
Sole Alfa Romeo at the event was this example of the current Giulia.
ARIEL
Attracting plenty of attention was this Atom. The Ariel Atom is a road-legal high performance open-wheel car made by the British Ariel Motor Company based in Crewkerne, Somerset, England, and under license in North America by TMI Autotech, Inc. at Virginia International Raceway in Alton, Virginia. The Atom began as a student project by Coventry University transport design student Niki Smart. Known then as the LSC (Lightweight Sports Car), it was developed at the university in 1996 with input and funding from various automotive industry members, including British Steel and TWR. Ariel Motor Company boss Simon Saunders was a senior lecturer whose responsibility for the project was primarily as financial manager and design critic for Smart, whom he described as “The best all-round design student I’ve ever seen.” The car was first shown publicly at the British International Motor Show at the NEC in Birmingham in October 1996. The Ariel Atom features a prominently visible chassis (i.e., an exoskeleton, no roof or windows, a small optional windscreen) and a drag coefficient of 0.40 There have been eight Ariel Atom generations to date: Ariel Atom, Ariel Atom 2, Ariel Atom 3 (including the Ariel Atom 3 Mugen Limited Edition and Honda Racing Edition – of which only one was made) Ariel Atom 3.5, Ariel Atom 3S, Ariel Spec:Race Atom, Ariel Atom 500 V8 Limited Edition (only 25 to be made), and the Ariel Atom 4. The limited production Ariel Atom 500 V8 featured a 500 bhp V8 engine. The Ariel Atom 4 uses a turbocharged 2.0 litre engine, also used in the Honda Civic Type R, with 3-stage boost.
AUDI
Audi released the C4 in late 1990 in Continental Europe and during 1991 in other markets, including the right-hand drive British market. It was a rebodied and updated C3, keeping the chassis, suspension, and most powertrains. The most significant mechanical changes were the new V6 engines and a wider track, increased by 4–5 cm (1.6–2.0 in) front and rear. The C3-platform Audi V8 continued to be sold as a separate line. The major change for the C4 was the introduction of a 2.8 L, 90-degree, SOHC 12v, V6 engine. It was later joined by a 2.6 L variant, of the same configuration as the 2.8 L unit. They are essentially the same engines offered in the 1992, B4 Audi 80. The option of quattro permanent four-wheel drive was an option across the range, except the smallest engines. The Audi 100 quattro was available with a ZF four-speed automatic and a 5 speed manual gearbox. This generation was also available with the 2.5 litre, 5-cylinder TDI engine, introduced late in the C3 production, which provided outstanding performance, economy and refinement. During 1994, in conjunction with some styling revisions, Audi dropped the Audi 100 tag, renaming it the A6 instead. In addition, the existing 100-derived Audi S4 became the S6. The S4 name was later reused for the high-performance derivative of the Audi A4 (replacement for the Audi 80). The Audi V8 had been replaced by the A8 in 1994. The C4-based A6 continued until early 1998, when it was replaced by an all-new A6.
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.
Final Audi of note was this all-electric e-Tron GT.
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.
Also here was the Z4. This has been offered in three different generations, of which this is the first, consisting of the BMW E85 (roadster version) and BMW E86 (coupe version) sports cars. The E85/E86 generation was produced from 2002 to 2008. The E85/E86 replaced the Z3 and is the third model in the BMW Z Series. Initial models were in the roadster (E85) body style, with the coupé (E86) body style being added in 2006. As per the Z3, the E85/E86 was manufactured solely in Greer, South Carolina. The E85 was designed by Danish BMW-designer Anders Warming from mid-1998 to the summer of 1999. The coupe models were designed by Tomasz Sycha. The E85 designs were frozen on March 1, 2000. The Z4 was introduced at the Paris Motor Show in 2002, and North American models went on sale in November of the same year (as the 2003 model year). European sales began in March 2003. The Z4 Roadster was launched in 2002 with the 2.5i and 3.0i six-cylinder models. Transmission choices were a five-speed manual, six-speed manual, five-speed automatic and a six-speed SMG-II automated manual transmission. A four-cylinder model, the Z4 2.0i Roadster, was introduced for the European market in May 2005. The drag coefficient is maximum of Cd=0.35. BMW unveiled a concept coupé version of the Z4 at the 2005 Frankfurt Motor Show The design of the Z4 and Z4 coupé has variously been ascribed to Anders Warming, Chris Bangle, the controversial former BMW Head of Design, and Adrian van Hooydonk, former BMW chief designer, and BMW designer Tomasz Sycha. The design was approved in Summer of 2004 and frozen in December 2004. The company announced in 2005 that the two-door coupé would be available for production including the return of the M Coupé. The production car was introduced at the New York Auto Show in April 2006 and was available for sale in late May 2006. Thanks to its hatch design, the Z4 Coupé offers 10.1 cu ft (0.29 m3) of trunk space, compared with 8.5 cu ft (0.24 m3) for the roadster. The Coupe’s fixed roof increases torsional rigidity, resulting in a stiffness of 32,000 N⋅m (24,000 lb⋅ft) per degree of body twist on the coupe (compared to 14,500 N⋅m (10,700 lb⋅ft) per degree on the roadster), which improves turn-in and overall handling response. The roof has a “double-bubble” contour which serves as an aerodynamic aid and offers more headroom than the roadster with the soft top closed. The Coupé has a sleek fastback rear window that slopes down to an integrated spoiler which is shaped to deliver downforce to the rear axle at high-speed. The model range for the Coupé was more limited than the roadster, and consisted of the six-cylinder 3.0si and Z4 M model only. Transmission choices were a 6-speed manual and a 6-speed automatic with shift paddles mounted on the steering column. In February 2009, the BMW Z4 (E89) began production as the successor to the E85/E86.
The M3 model of the E90/E92/E93 3 Series range was powered by the BMW S65 V8 engine and was produced in sedan, convertible and coupé body styles. The E9x is the first and only standard production M3 powered by a V8 engine as its successor would revert to using a straight 6 engine. In the standard M3, the S65 engine rated at 420 PS (414 bhp) at 8,300 rpm and 400 Nm (295 lb/ft) at 3,900 rpm. Initially, the M3 was produced with a 6-speed manual transmission. In April 2008, the E90/E92/E93 M3 became the first BMW to be available with a dual-clutch transmission when the 7-speed Getrag “M-DCT” transmission was introduced as an option. The official 0 to 100 km/h (62 mph) acceleration times for the coupé and sedan are 4.6 seconds with the DCT transmission (4.8 seconds with the manual transmission) and 5.1 seconds for the convertible. The E90 and E92 versions received many positive reviews, including “the greatest all-around car in the world”, “the finest car on the market, period” and “the best, most complete car in the world”. The first body style to be introduced was the coupé, which was previewed at the 2007 Geneva Motor Show and introduced in production form at the 2007 Frankfurt Motor Show on 12 September. The coupé version uses a carbon fibre roof to reduce weight and lower the centre of gravity. In 2010, the coupé and convertible versions received a minor facelift, which included revised LED tail-lights and minor interior trim pieces but it did not get the updated headlights from the regular series. The E93 convertible version was introduced shortly after the coupé and uses a power retractable hardtop. The leather seats in the convertible version are treated with a coating to reflect sunlight, in order to reduce their tendency to become uncomfortably hot with the top down. A sedan version was introduced in 2008 and was the second (along with the E36) M3 by generation to be produced in a 4-door body style. The sedan has the same drivetrain and similar external styling as the coupé, however the lack of a carbon fibre roof contributes to a weight increase of 10 kg (22 lb) compared to an identically equipped coupé. The official kerb weights for the 2008 European-specification models (with manual transmission) are 1,580 kg (3,483 lb) for the coupé, 1,605 kg (3,538 lb) for the sedan and 1,810 kg (3,990 lb) for the convertible. Total production of the E9x M3 was 40,092 coupés, 16,219 convertibles and 9,674 sedans. Production of sedan models finished in 2011, with coupés remaining in production until July 5, 2013.
Also here were more recent M3 and M4 models, such as this one from the previous generation of car.
The M2 was first revealed in Need for Speed: No Limits on November 2015, before later premiering at the North American International Auto Show in January 2016. Production commenced in October 2015 and is only available as a rear-wheel drive coupé. The M2 is powered by the turbocharged 3.0-litre N55B30T0 straight-six engine producing 365 bhp at 6,500 rpm and 465 Nm (343 lb/ft) between 1,450–4,750 rpm, while an overboost function temporarily increases torque to 500 N⋅m (369 lb⋅ft). The M2 features pistons from the F80 M3 and F82 M4, and has lighter aluminium front and rear suspension components resulting in a 5 kg (11 lb) weight reduction. The M2 is available with a 6-speed manual or with a 7-speed dual-clutch transmission which features a ‘Smokey Burnout’ mode. 0-100 km/h acceleration times are 4.5 seconds manual transmission models and 4.3 seconds for models equipped with the 7-speed dual clutch transmission. Top speed is limited to 250 km/h (155 mph) but can be extended to 270 km/h (168 mph) with the optional M Driver’s package. The M2 Competition was introduced at the 2018 Beijing Auto Show and succeeded the standard M2 Coupé. Production began in July 2018. The M2 Competition uses the high performance S55 engine which is a variant of the 3.0-litre twin turbocharged straight six engine found in the F80 M3 and F82 M4. The engine features a redesigned oil supply system and modified cooling system from the BMW M4 with the Competition Package, and also features a gasoline particulate filter in certain European Union countries to reduce emissions. Compared to the standard M2, the S55 produces an additional 30 kW (40 hp) and 85 Nm (63 lb/ft), resulting in a larger and more sustained power output of 405 bhp between 5,370–7,200 rpm, and 550 N⋅m (406 lb⋅ft) at 2,350–5,230 rpm. The 0-100 km/h acceleration time is 4.4 seconds for six-speed manual transmission models, and 4.2 seconds for models with the 7-speed dual clutch transmission. Top speed is electronically limited to 250 km/h (155 mph), but the M Driver’s package can extend the limit to 280 km/h (174 mph) which is 10 km/h (6 mph) further than in the M2. The M2 Competition also has a carbon-fibre reinforced plastic strut bar, enlarged kidney grilles, and larger brake discs of 400 mm (15.7 in) in the front axle and 380 mm (15.0 in) in the rear axle. Because of the new engine and cooling system, the M2 Competition is 55 kg (121 lb) heavier than the standard M2 at 1,550 kg (3,417 lb) for manual transmission models and 1,575 kg (3,472 lb) for dual-clutch transmission models.
Also here was the latest version of the M2 – more powerful, more costly, and, to most eyes, less pleasing to look at. The story of the modern BMW!!
CHEVROLET
The first generation of Corvette was introduced late in the 1953 model year. Originally designed as a show car for the 1953 Motorama display at the New York Auto Show, it generated enough interest to induce GM to make a production version to sell to the public. First production was on June 30, 1953. This generation was often referred to as the “solid-axle” models (the independent rear suspension was not introduced until the second generation).Three hundred hand-built polo white Corvette convertibles were produced for the 1953 model year. The 1954 model year vehicles could be ordered in Pennant Blue, Sportsman Red, Black, or Polo White. 3,640 were built, and sold slowly. The 1955 model offered a 265 cu in (4.34 litre) V8 engine as an option. With a large inventory of unsold 1954 models, GM limited production to 700 for 1955. With the new V8, the 0-60 mph time improved by 1.5 seconds. A new body was introduced for the 1956 model featuring a new “face” and side coves; the taillamp fins were also gone. An optional fuel injection system was made available in the middle of the 1957 model year. It was one of the first mass-produced engines in history to reach 1 bhp per cubic inch (16.4 cc) and Chevrolet’s advertising agency used a “one hp per cubic inch” slogan for advertising the 283 bhp 283 cu in (4.64 litre) Small-Block engine. Other options included power windows (1956), hydraulically operated power convertible top (1956), heavy duty brakes and suspension (1957), and four speed manual transmission (late 1957). Delco Radio transistorised signal-seeking “hybrid” car radio, which used both vacuum tubes and transistors in its radio’s circuitry (1956 option). The 1958 Corvette received a body and interior freshening which included a longer front end with quad headlamps, bumper exiting exhaust tips, a new steering wheel, and a dashboard with all gauges mounted directly in front of the driver. Exclusive to the 1958 model were bonnet louvres and twin trunk spears. The 1959–60 model years had few changes except a decreased amount of body chrome and more powerful engine offerings. In 1961, the rear of the car was completely redesigned with the addition of a “duck tail” with four round lights. The light treatment would continue for all following model year Corvettes until 2014. In 1962, the Chevrolet 283 cu in (4.64 litre) Small-Block was enlarged to 327 cu in (5.36 litre). In standard form it produced 250 bhp. For an extra 12% over list price, the fuel-injected version produced 360 bhp, making it the fastest of the C1 generation. 1962 was also the last year for the wrap around windshield, solid rear axle, and convertible-only body style. The boot lid and exposed headlamps did not reappear for many decades.
DAIMLER
Launched late in 1962, the Daimler V8 Saloon was essentially a rebadged Jaguar Mark 2 fitted with Daimler’s 2.5-litre 142 bhp V8 engine and drive-train, a Daimler fluted grille and rear number plate surround, distinctive wheel trims, badges, and interior details including a split-bench front seat from the Jaguar Mark 1 and a black enamel steering wheel. Special interior and exterior colours were specified. Most cars were fitted with power-assisted steering but it was optional. Automatic transmission was standard; manual, with or without overdrive, became an option in 1967. The 2.5 V8 was the first Jaguar designed car to have the Daimler badge. A casual observer, though not its driver, might mistake it for a Jaguar Mark 2. The Daimler’s stance on the road was noticeably different from a Mark 2. In April 1964 the Borg-Warner Type 35 automatic transmission was replaced by a D1/D2 type, also by Borg-Warner. A manual transmission, with or without an overdrive unit usable with the top gear, became available on British 2.5 V8 saloon in February 1967 and on export versions the following month. Cars optioned with the overdrive had the original 4.55:1 final drive ratio. In October 1967, there was a minor face-lift and re-labelling of the car to V8-250. It differed only in relatively small details: “slimline” bumpers and over-riders (shared with the Jaguar 240/340 relabelled at the same time), negative-earth electrical system, an alternator instead of a dynamo and twin air cleaners, one for each carburettor. Other new features included padding over the instrument panel, padded door cappings and ventilated leather upholstery, reclinable split-bench front seats and a heated rear window. Power steering and overdrive were optional extras. Jaguar replaced its range of saloons—the 240, the 340, the 420, and the 420G—with the XJ6 at the end of 1968. The company launched the XJ6-based Daimler Sovereign the following year to replace the Daimler saloons—the 240-based V8-250 and the 420-based Sovereign. Henceforth all new Daimlers would be re-badged Jaguars with no engineering links to the pre-1960 Daimlers.
FERRARI
In 1993, Ferrari presented a light weight 348 GT Competizione variant as a homologation version for competing in the GT Championship. Safety equipment such as a tool kit was carried over from the 348 Challenge. The braking system was derived from the F40 Evoluzione model. The cars also had modified racing suspension and exhaust system. The engine had a power output of 320 PS at 7,000 rpm and 324 Nm (239 lb/ft) of torque at 5,000 rpm, consistent to standard late 348 production with the F119H engine. Only 50 were made, including 8 Right Hand Drive models. Special features included a specially trimmed steering wheel indicating the number sequence in the production of the 50 cars, 5-spoke 18-inch Speedline competizione wheels and cloth trim seats with kevlar structure for weight reduction. Aiding further in the weight reduction was the carbon kevlar composite material used for the front and rear bumpers as well as the doors and a light-weight polycarbonate rear window. Additional interior trim pieces such as door sills featured carbon kevlar and creature comforts such as air conditioning and sound proofing materials were removed. These changes resulted in a dry weight of 1,180 kg (2,601 lb). The final drive in the gear box was changed to 25/27 ratio for improved performance. These cars are incredibly rare, and so this is actually a recreation/tribute to them rather than one of the originals.
Effectively a mid-life update to the 360 Modena, the F430 debuted at the 2004 Paris Motor Show. Designed by Pininfarina, under the guidance of Frank Stephenson, the body styling of the F430 was revised from the 360 Modena, to improve its aerodynamic efficiency. Although the drag coefficient remained the same, downforce was greatly enhanced. Despite sharing the same basic Alcoa Aluminium chassis, roof line, doors and glass, the car looked significantly different from the 360. A great deal of Ferrari heritage was included in the exterior design. At the rear, the Enzo’s tail lights and interior vents were added. The car’s name was etched into the Testarossa-styled driver’s side mirror. The large oval openings in the front bumper are reminiscent of Ferrari racing models from the 60s, specifically the 156 “sharknose” Formula One car and 250 TR61 Le Mans cars of Phil Hill. Designed with soft-top-convertible. The F430 featured a 4.3 litre V8 petrol engine of the “Ferrari-Maserati” F136 family. This new power plant was a significant departure for Ferrari, as all previous Ferrari V8’s were descendants of the Dino racing program of the 1950s. This fifty-year development cycle came to an end with the entirely new unit. The engine’s output was 490 hp at 8500 rpm and 343 lb/ft of torque at 5250 rpm, 80% of which was available below 3500rpm. Despite a 20% increase in displacement, engine weight grew by only 4 kg and engine dimensions were decreased, for easier packaging. The connecting rods, pistons and crankshaft were all entirely new, while the four-valve cylinder head, valves and intake trumpets were copied directly from Formula 1 engines, for ideal volumetric efficiency. The F430 has a top speed in excess of 196 mph and could accelerate from 0 to 100 km/h in 3.9 seconds, 0.6 seconds quicker than the old model. The brakes on the F430 were designed in close cooperation with Brembo (who did the calipers and discs) and Bosch (who did the electronics package),resulting in a new cast-iron alloy for the discs. The new alloy includes molybdenum which has better heat dissipation performance. The F430 was also available with the optional Carbon fibre-reinforced Silicon Carbide (C/SiC) ceramic composite brake package. Ferrari claims the carbon ceramic brakes will not fade even after 300-360 laps at their test track. The F430 featured the E-Diff, a computer-controlled limited slip active differential which can vary the distribution of torque based on inputs such as steering angle and lateral acceleration. Other notable features include the first application of Ferrari’s manettino steering wheel-mounted control knob. Drivers can select from five different settings which modify the vehicle’s ESC system, “Skyhook” electronic suspension, transmission behaviour, throttle response, and E-Diff. The feature is similar to Land Rover’s “Terrain Response” system. The Ferrari F430 was also released with exclusive Goodyear Eagle F1 GSD3 EMT tyres, which have a V-shaped tread design, run-flat capability, and OneTRED technology. The F430 Spider, Ferrari’s 21st road going convertible, made its world premiere at the 2005 Geneva Motor Show. The car was designed by Pininfarina with aerodynamic simulation programs also used for Formula 1 cars. The roof panel automatically folds away inside a space above the engine bay. The conversion from a closed top to an open-air convertible is a two-stage folding-action. The interior of the Spider is identical to that of the coupé. Serving as the successor to the Challenge Stradale, the 430 Scuderia was unveiled by Michael Schumacher at the 2007 Frankfurt Auto Show. Aimed to compete with cars like the Porsche RS-models and the Lamborghini Gallardo Superleggera it was lighter by 100 kg/220 lb and more powerful (510 PS) than the standard F430. Increased power came from a revised intake, exhaust, and an ion-sensing knock-detection system that allows for a higher compression ratio. Thus the weight-to-power ratio was reduced from 2.96 kg/hp to 2.5 kg/hp. In addition to the weight saving measures, the Scuderia semi-automatic transmission gained improved “Superfast”, known as “Superfast2”, software for faster 60 millisecond shift-times. A new traction control system combined the F1-Trac traction and stability control with the E-Diff electronic differential. The Ferrari 430 Scuderia accelerates from 0-100 km/h in 3.6 seconds, with a top speed of 202 miles per hour. Ferrari claimed that around their test track, Fiorano Circuit, it matched the Ferrari Enzo, and the Ferrari F430’s successor, the Ferrari 458. To commemorate Ferrari’s 16th victory in the Formula 1 Constructor’s World Championship in 2008, Ferrari unveiled the Scuderia Spider 16M at World Finals in Mugello. It is effectively a convertible version of the 430 Scuderia. The engine produces 510 PS at 8500 rpm. The car has a dry weight of 1,340 kg, making it 80 kg lighter than the F430 Spider, at a curb weight of 1,440 kg (3,175 lb). The chassis was stiffened to cope with the extra performance available and the car featured many carbon fibre parts as standard. Specially lightened front and rear bumpers (compared to the 430 Scuderia) were a further sign of the efforts Ferrari was putting into this convertible track car for the road. Unique 5-spoke forged wheels were produced for the 16M’s launch and helped to considerably reduce unsprung weight with larger front brakes and callipers added for extra stopping power (also featured on 430 Scuderia). It accelerates from 0-100 km/h in 3.7 seconds, with a top speed of 315 km/h (196 mph). 499 vehicles were released beginning early 2009 and all were pre-sold to select clients
After a gap of some years, Ferrari added a 4 seater V8 model to the range at the 2008 Paris Motor Show, with the California. According to industry rumours, the California originally started as a concept for a new Maserati, but the resulting expense to produce the car led the Fiat Group to badge it as a Ferrari in order to justify the high cost of purchase; the company denies this, however. The California heralded a number of firsts for Ferrari: the first front engined Ferrari with a V8; te first to feature a 7-speed dual-clutch transmission; the first with a folding metal roof; the first with multi-link rear suspension; and the first with direct petrol injection. Bosch produced the direct injection system. The engine displaces 4,297 cc, and used direct injection. It delivered 453 bhp at 7,750 rpm; its maximum torque produced was 358 lbf·ft at 5,000 rpm. The resulting 106 bhp per litre of engine displacement is one of the highest for a naturally aspirated engine, as other manufacturers have used supercharging or turbocharging to reach similar power levels. Ferrari spent over 1,000 hours in the wind tunnel with a one-third-scale model of the California perfecting its aerodynamics. With the top up, the California has a drag coefficient of Cd=0.32, making it the most aerodynamic Ferrari ever made until the introduction of the Ferrari F12 Berlinetta. Throughout the California’s production, only 3 cars were built with manual transmission, including one order from the UK. On 15 February 2012, Ferrari announced an upgrade, which was lighter and more powerful. Changes include reducing body weight by 30 kg (66 lb), increased power by output of 30 PS and 11 lbf·ft, acceleration from 0–100 km/h (62 mph) time reduced to 3.8 seconds, introduction of Handling Speciale package and elimination of the manual transmission option. The car was released at the 2012 Geneva Motor Show as a 2012 model in Europe. To give the clients a more dynamic driving experience, an optional HS (Handling Speciale) package was developed as part of the update. It can be recognised by a silver coloured grille and ventilation blisters behind the front wheel wells. The HS package includes Delphi MagneRide magnetorheological dampers controlled by an ECU with 50% faster response time running patented Ferrari software, stiffer springs for more precise body control and a steering rack with a 9 per cent quicker steering ratio (2.3 turns lock to lock as opposed to the standard rack’s 2.5). A more substantive update came in 2014, with the launch of the California T, which remains in production. It featured new sheetmetal, a new interior, a revised chassis and a new turbocharged powertrain.
The Ferrari California T (Type 149M) is an updated design of the California model featuring new sheetmetal and revised body features; a new interior, a revised chassis and a new turbocharged powertrain. First unveiled on the web on February 12, 2014, subsequently, the car debuted at the Geneva Motor Show. The T in the moniker stands for Turbo, a technology Ferrari last used on the F40 roadcar. The car utilizes a new 3,855 cc twin-turbocharged V8 engine that produces 560 PS (553 bhp) at 7,500 rpm and 755 Nm (557 lb/ft) at 4,750 rpm as well as a 7-speed dual clutch transmission with different gear ratios, a revised MagneRide adaptive suspension, as well as a new F1 Trac system. The car can accelerate from 0–100 km/h (0–62 mph) in 3.6 seconds and attain a top speed of 315 km/h (196 mph). The car also features a new front fascia that was influenced by the F12, a revised rear section and a revised interior. The revised rear end replaced the two sets of two vertically stacked exhaust pipes with four horizontally aligned pipes. Another improvement to the car is the reduction of emission pollution by 15% compared to its naturally aspirated predecessor. The car also utilises small turbo chargers and a variable boost management system to reduce turbo lag. It is also the first Ferrari road car debuting the new Apple CarPlay functionality into its built-in infotainment system – Apple confirmed at the launch of the Geneva Motor Show that Ferrari, Mercedes-Benz and Volvo would be among the first car manufacturers to bring CarPlay compatible models to the market. Similarly to the previous generation, a Handling Speciale (HS) package was made available for the California T, providing sportier handling at the expense of a stiffer ride. The Handling Speciale includes stiffer springs front and aft, retuned magnetorheological dampers, faster gear shifts when in Sport mode, a reprogrammed F1-Trac stability control, and a new sport exhaust system. Visually, the HS package-equipped cars are distinguished by a matte grey grille and rear diffuser, matte black diffuser fences and matte black exhaust tips.The California T Handling Speciale was unveiled at the March 2016 Geneva Motor Show. Through the Tailor Made programme, the California T was produced in several special editions and could also be customised to suit individual customers. For Ferrari’s 70th anniversary in 2017, this included 70 liveries inspired by the company’s iconic cars of the past such as the 250 GT Berlinetta SWB and Steve McQueen’s 1963 250 GT Berlinetta lusso. The California T Tailor Made liveries were unveiled at the March 2016 Geneva Motor Show and also shown at other subsequent motor shows such as the October 2016 Paris Motor Show. Production ceased in 2019 when the car was replaced by the Portofino.
The Ferrari F12berlinetta (Type F152) is a front mid-engine, rear-wheel-drive grand tourer which debuted at the 2012 Geneva Motor Show, and replaces the 599 grand tourer. The naturally aspirated 6.3 litre Ferrari V12 engine used in the F12berlinetta has won the 2013 International Engine of the Year Award in the Best Performance category and Best Engine above 4.0 litres. The F12berlinetta was named “The Supercar of the Year 2012” by car magazine Top Gear. The F12berlinetta was replaced by the 812 Superfast in 2017.
The F8 Tributo was a surprise newcomer at the 2019 Geneva Show, and the successor to the 488 GTB and the most powerful mid-engined V8 berlinetta in the history of the brand. The new Ferrari F8 Tributo is powered by the company’s twin-turbo 3.9-litre V8 engine, here tuned to produce 710 bhp and 568lb/ft (770Nm) of peak torque. The numbers are the exact same with the special 488 Pista. Ferrari claims that the new F8 Tributo is capable of a 0-62mph (100km/h) in 2.9 seconds, with 0-124mph (200km/h) in 7.8 seconds before hitting a top speed of 211mph (340km/h). It’s not a secret that the new F8 Tributo is the latest evolution of the aluminium 458 platform, with Ferrari saying that their latest mid-engine berlinetta is “a bridge to a new design language”. The new supercar blends in new design elements with aero features such as an S-Duct at the front, which on its own increases downforce by 15 percent compared to a standard 488 GTB. The rear end of Ferrari’s McLaren 720S rival marks the return of the classic Ferrari twin light clusters, while the engine cover is now made out of Lexan and features louvres to extract hot air and remind us of the iconic F40. The chassis of the new F8 Tributo employs Ferrari’s latest version of the Side Slip Angle Control traction management system, which aims to make sliding the car around manageable even for the less experienced drivers. The changes over the 488 GTB are less prominent once you look inside the cabin; the layout of the redesigned dashboard remains the same as before, only now there are completely new door panels and a centre console, as well as a new steering wheel design. The passenger gets a 7-inch touchscreen display. First deliveries of the new Ferrari F8 Tributo started earlier in 2020 and production ceased in 2022.
Final Ferrari here was an example of the rather good looking Roma.
FIAT
The first 124 Spider made its debut at the Turin Show in 1966, and continued in production until the mid 1980s, bearing its desginer, Pininfarina’s badges in later years when it remained popular in the American market. Early cars had 1400 and 1600cc engines, and these were gradually enlarged first 1800cc and then 2 litre, with fuel injection being added for more power and emissions compliance during the 1970s. Fiat spotted the potential of the car for more than just boulevard cruising, though, so in November 1972 they announced the Fiat Abarth 124 Rally, an overtly sporting version. Its main purpose was to receive FIA homologation in the special grand touring cars (Group 4) racing class, and replace the 1.6-litre Fiat Sport Spider rally car which had been campaigned. At the time, the 124 had already won the 1972 European Rally Championship at the hands of Raffaele Pinto and Gino Macaluso. The 124 Rally was added to the Sport Spider range, which included the 1600 and 1800 models; the first 500 examples produced were earmarked for the domestic Italian market. Amongst the most notable modifications over the standard spider there were independent rear suspension, engine upgrades, lightweight body panels, and a fixed hard top. In place of the usual rear solid axle, there was a Chapman-type McPherson strut independent suspension, supplemented by a longitudinal torque arm. At the front a radius rod on each side was added to the standard double wishbones. The Abarth-tuned type 132 AC 4.000 1.8-litre, twin-cam engine was brought from the standard 118 to 128 PS DIN by replacing the standard twin-choke carburettor with double vertical twin-choke Weber 44 IDF ones, and by fitting an Abarth exhaust with a dual exit exhaust The 9.8:1 compression ratio was left unchanged. The transmission was the all-synchronised 5-speed optional on the other Sport Spider models, and brakes were discs on all four corners. Despite the 20 kg (44 lb) 4-point roll bar fitted, kerb weight was 938 kg (2,068 lb), roughly 25 kg (55 lb) less than the regular 1.8-litre Sport Spider. The bonnet, boot lid and the fixed hard top were fibreglass, painted matt black, the rear window was perspex and the doors aluminium. Front and rear bumpers were deleted and replaced by simple rubber bumperettes. A single matte black wing mirror was fitted. Matte black wheel arch extensions housed 185/70 VR 13 Pirelli CN 36 tyres on 5.5 J × 13″ 4-spoke alloy wheels. Inside, the centre console, rear occasional seats, and glovebox lid were eliminated; while new features were anodised aluminium dashboard trim, a small three-spoke leather-covered Abarth steering wheel, and Recaro corduroy-and-leather bucket seats as an extra-cost option. The car carried Fiat badging front and rear, Abarth badges and “Fiat Abarth” scripts on the front wings, and Abarth wheel centre caps. Only three paint colours were available: Corsa red, white, and light blue. Seen here was an early AS series car.
The successor to the 500 was the 126, which arrived in the autumn of 1972. Initially it was produced alongside the 500, which stayed in production until 1976. The 126 used much of the same mechanical underpinnings and layout as its Fiat 500 rear-engined predecessor with which it shared its wheelbase, but featured an all new bodyshell resembling a scaled-down Fiat 127, also enhancing safety. Engine capacity was increased from 594 cc to 652 cc at the end of 1977 when the cylinder bore was increased from 73.5 to 77 mm. Claimed power output was unchanged at 23 PS, but torque was increased from 39 N·m (29 lb/ft) to 43 Nm (32 lb/ft). A slightly less basic DeVille version arrived at the same time, identified by its large black plastic bumpers and side rubbing strips. A subsequent increase in engine size to 704 cc occurred with the introduction of the 126 Bis in 1987. This had 26 PS, and a water cooled engine, as well as a rear hatchback. Initially the car was produced in Italy in the plants of Cassino and Termini Imerese, with 1,352,912 of the cars made in Italy, but from 1979, production was concentrated solely in Poland, where the car had been manufactured by FSM since 1973 as the Polski Fiat 126p. Even after the introduction of the 126 Bis the original model continued to be produced for the Polish market. The car was also produced under licence by Zastava in Yugoslavia. Western European sales ceased in 1991, ready for the launch of the Cinquecento, but the car continued to be made for the Polish market. In 1994, the 126p received another facelift, and some parts from the Fiat Cinquecento, this version was named 126 EL. The 126 ELX introduced a catalytic converter. Despite clever marketing, the 126 never achieved the popularity of the 500, with the total number produced being: 1,352,912 in Italy, 3,318,674 in Poland, 2,069 in Austria, and an unknown number in Yugoslavia.
Arriving relatively late was Andy Hurley in one of the pair of Punto GT models he owns (as well as an Abarth). Internally codenamed Project 176, the Punto was announced in September 1993 as a replacement for the ageing Fiat Uno and launched in the end of 1993 or the beginning of 1994, depending on the market. The Fiat Punto was voted European Car of the Year for 1995, defeating rival Volkswagen Polo by only 78 points. The Punto was designed by Giorgetto Giugiaro and was available as a three-door or five door hatchback, a two-door cabriolet and a three-door panel van. As with the majority of the new Fiat group models, suspension was all independent, composed of MacPherson struts at the front and trailing arms at the rear. Entry level in the Punto range were the 1.1 and 1.2 L petrol engines and the 1.7 diesel engine. The 1.2 engine’s actual capacity is 1242 cc, available in three versions. The first, was fitted in the Punto ELX 75 and produced 75 hp at 6000 rpm while the second, fitted to Punto ELX 85 produced 86 hp at 6000 rpm. The third was a 60 hp engine which eventually replaced the 1.1 54 hp engine. A Sporting model was also available with a 1.6 8v updated 128 SOHC engine, producing 88 hp, later replaced in 1997 by the 1.2 16v FIRE engine used in the 85 ELX, and a power drop to 86 hp. The top of the range model was the 136 PS 1.4 GT, using an evolution of the turbocharged 128 SOHC engine originally found in the Fiat Uno Turbo Mk II – capable of running over 200 km/h (120 mph) and reaching 100 km/h (62 mph) in 7.9 seconds, which came fitted with a five speed manual gearbox. During the years the GT was made in three different “series” with power 136 PS (1993–1995),133 PS (1995–1997) and 130 PS (1997–1999).
FORD
Sporting Escorts appeared only a matter of months after the launch of the regular 1100 and 1300cc cars. The first of these was a higher performance version designed for rallies and racing, the Escort Twin Cam. Built for Group 2 international rallying, it had an engine with a Lotus-made eight-valve twin camshaft head fitted to the 1.5 L non-crossflow block, which had a bigger bore than usual to give a capacity of 1,557 cc. This engine had originally been developed for the Lotus Elan. Production of the Twin Cam, which was originally produced at Halewood, was phased out as the Cosworth-engined RS1600 production began. The most famous edition of the Twin Cam was raced on behalf of Ford by Alan Mann Racing in the British Saloon Car Championship in 1968 and 1969, sporting a full Formula 2 Ford FVC 16-valve engine producing over 200 hp. The Escort, driven by Australian driver Frank Gardner went on to comfortably win the 1968 championship. The Mark I Escorts became successful as a rally car, and they eventually went on to become one of the most successful rally cars of all time with arguably the Escort’s greatest victory in the 1970 London to Mexico World Cup Rally, co-driven by Finnish legend Hannu Mikkola and Swedish co-driver Gunnar Palm. This gave rise to the Escort Mexico, which had a 1600cc “crossflow”-engined, as a special edition road version in honour of the rally car. Introduced in November 1970, 10,352 Mexico Mark I’s were built. In addition to the Mexico, the RS1600 was developed with a 1,601 cc Cosworth BDA which used a Crossflow block with a 16-valve Cosworth cylinder head, named for “Belt Drive A Series”. Both the Mexico and RS1600 were built at Ford’s Advanced Vehicle Operations (AVO) facility located at the Aveley Plant in South Essex. As well as higher performance engines and sports suspension, these models featured strengthened bodyshells utilising seam welding in places of spot welding, making them more suitable for competition. After updating the factory team cars with a larger 1701 cc Cosworth BDB engine in 1972 and then with fuel injected BDC, Ford also produced, in the autumn of 1973, an RS2000 model as an alternative to the somewhat temperamental RS1600, featuring a 2.0 litre Pinto OHC engine. This also clocked up some rally and racing victories; and pre-empted the hot hatch market as a desirable but affordable performance road car. Like the Mexico and RS1600, this car was produced at the Aveley plant.
In the late 1960s, Ford set about developing the third-generation Cortina, the Mark III, which would be produced in higher volumes than before, following the recent merger of Ford of Britain and Ford of Germany into the modern-day Ford of Europe. The car marked the convergence of the German Taunus and British Cortina platforms with only minor differences between the two, hence the car’s internal name TC1, standing for Taunus-Cortina. It was also the last European car engineered by Harley Copp as Vice President Engineering and head of Brentwood, before he returned to Detroit. Ford UK originally wanted to call it something other than Cortina, but the name stuck. Although the Mark III looked significantly larger than the boxier Mark II Cortina, it was actually the same overall length, but 4 inches wider. Within the overall length, a wheelbase lengthened by more than 3 inches (76 mm) also contributed to the slightly more spacious interior. The Mark III Cortina was inspired by the contemporary “coke bottle” design language which had emanated from Detroit – the car sported similar fluted bonnet and beltline design elements to the North American Mercury Montego and Ford LTD of the same era. It replaced both the Mark II Cortina and the larger, more expensive Ford Corsair, offering more trim levels and the option of larger engines than the Mark II Cortina. The Mark III’s continental European sister car – the Taunus TC – was subtly different in appearance, with longer front indicators, different door skins and rear wing pressings that toned down the drooping beltline in order to lose the “coke-bottle” appearance of the Cortina. The MacPherson strut front suspension was replaced with more conventional double A-arm suspension which gave the Mark III a much softer ride on the road’ but did give the larger engines distinct understeer. Trim levels for the Mark III Cortina were Base, L, XL , GT and GXL. The early Mark III Cortinas came with the same 1,300 and 1,600 cc engines as the Mark II Cortinas, except for the 1,600 cc GXL. These engines are known as the Kent, crossflow engine or OHV engine. There was also the introduction of the 2000 cc engine, the single overhead cam engine, now known as the pinto engine. SOHC. The OHV Kent unit was fitted with a single choke carburettor and was used for the early models up to GT trim, the SOHC twin choke carburettor Pinto unit was used for the GT and GXL models. The GXL was also offered in 1,600 in the later Cortina Mark IIIs. In left-hand drive markets, the 1,600 cc OHC was replaced by a twin-carb OHV (Kent) unit not offered in the home market, in order to distinguish it from the competing Taunus which only came with the OHC Pinto engine. 2.0 litre variants used a larger version of the 1,600 cc Pinto unit and were available in all trim levels except base. Base, L and XL versions were available as a five-door estate. Although no longer than its predecessor, the Mark III was a heavier car, reflecting a trend towards improving secondary safety by making car bodies more substantial. Weight was also increased by the stout cross-member incorporated into the new simplified front suspension set-up, and by the inclusion of far more sound deadening material which insulated the cabin from engine and exhaust noise, making the car usefully quieter than its predecessor, though on many cars the benefit was diminished by high levels of wind noise apparently resulting from poor door fit around the windows. Four-speed manual transmissions were by now almost universally offered in the UK for this class of car, and contemporary road tests commented on the rather large gap between second and third gear, and the resulting temptation to slip the clutch when accelerating through the gears in the smaller-engined cars: it was presumably in tacit acknowledgment of the car’s marginal power-to-weight ratio that Ford no longer offered the automatic transmission option with the smallest 1,298 cc-engined Cortina. Four headlights and Rostyle wheels marked out the GT and GXL versions, while the GXL also had bodyside rub strips, a vinyl roof and a brushed aluminium and black boot lid panel on the GXLs, while the GTs had a black painted section of the boot with a chrome trim at either site sloping dashboard with deeply recessed dials and all coil suspension all round. In general styling and technical make up, many observed that the Mark III Cortina aped the Vauxhall Victor FD of 1967. The Cortina went on sale on 23 October 1970, but sales got off to a particularly slow start because of production difficulties that culminated with a ten-week strike at Ford’s plant between April and June 1971, which was at the time reported to have cost production of 100,000 vehicles, equivalent to almost a quarter of the output for a full year. During 1971 the spring rates and damper settings were altered along with the front suspension bushes which reduced the bounciness of the ride and low speed ride harshness which had generated press criticism at the time of the Cortina Mark III’s launch. Volumes recovered, and with the ageing Austin/Morris 1100/1300 now losing out to various newer models, the Cortina was Britain’s top selling car in 1972, closely followed by the Escort. It remained the UK’s top selling car until 1976 when it overtaken by the Mk2 Escort. In late 1973 the Cortina Mark III was given a facelift. The main difference was the dashboard and clocks, no longer did it slope away from the driver’s line of sight. But shared the same dash and clocks as the later Mark IV and Mark V Cortinas, upgraded trim levels and revised grilles, rectangular headlights for the XL, GT and the new 2000E (the “E” standing for executive), which replaced the GXL. The 1.3 litre Kent engine was carried over but now, 1.6 litre models all used the more modern 1.6 litre SOHC engine. Whilst the TD Cortina still had double A-arm suspension with coils at the front and a four-link system at the rear, handling was improved. The 2000E reverted to the classy treatment offered by the 1600E and later Mark IV/V Ghia models instead of the faux wood-grain trim offered by the GXL. The 2000E was also available as an estate version. The cars were replaced by the Mark IV in the autumn of 1976.
It was nice to see a Mark 2 Capri here, as these seem to be the rarest of the three generations of the “Car you always promised yourself”. It was introduced on 25 February 1974. After 1.2 million of the original model had been sold, and with the 1973 oil crisis, Ford chose to make the new car more suited to everyday driving with a shorter bonnet, larger cabin and the adoption of a hatchback rear door (accessing a 630-litre boot). By the standards of the day, the Capri II was a very well evolved vehicle with very few reliability issues. Although the car appeared the same in all European markets, there were still different engines between the UK models (1.3, 1.6, 1.6GT, 2.0 and 3.0) and Germany where the Capri had the same 4 cylinder engines at the bottom of the range, a 1.3-litre (55 PS), 1.6-litre (72 PS ), 1.6-litre GT (88 PS), and 2.0-litre (99 PS) but the upper reaches included a 2.3-litre V6 (108 PS) as well as the UK sourced 3.0-litre V6 with 140 PS. All were available with either a four-speed Ford Type 5 manual transmission or one of Ford’s new C3 three-speed automatic transmissions available on all models except the 1.3, the C3 automatic transmission proved to be a very popular option among Ghia buyers, therefore it became standard on all Ghia models after the 1976 model year and the four-speed manual transmission became optional. As before, there were plenty of trim levels and options, so you could personalise your Capri. Ford introduced the John Player Special limited edition, (known as the JPS) in March 1975. Available only in black or white, the JPS featured yards of gold pinstriping to mimic the Formula 1 livery, gold-coloured wheels, and a bespoke upgraded interior of beige cloth and carpet trimmed with black. In May 1976, and with sales decreasing, the intermediate 3.0 GT models disappeared to give way for the upscale 3.0 S and Ghia designations. In October 1976, production was limited to the Saarlouis factory only. In 1977 Ford RS dealerships started offering various different performance and handling upgrades for the Capri, Escort, Cortina, and Fiesta. Cars with these upgrades equipped are referred to as ” X Pack ” models.
The squarer-styled Mark II Escort appeared in January 1975. The first production models had rolled off the production lines on 2 December 1974. Unlike the first Escort (which was developed by Ford of Britain), the second generation was developed jointly between the UK and Ford of Germany. Codenamed “Brenda” during its development, it used the same mechanical components as the Mark I. The 940 cc engine was still offered in Italy where the smaller engine attracted tax advantages, but in the other larger European markets in Europe it was unavailable. The estate and van versions used the same panelwork as the Mark I, but with the Mark II front end and interior. The car used a revised underbody, which had been introduced as a running change during the last six months production of the Mark I. Rear suspension still sat on leaf springs though some contemporaries such as the Hillman Avenger had moved on to coil springs. The car came in for criticism for its lack of oddments space, with a glove compartment only available on higher end models, and its stalk-mounted horn. The “L” and “GL” models (2-door, 4-door, estate) were in the mainstream private sector, the “Sport”, “RS Mexico”, and “RS2000” in the performance market, the “Ghia” (2-door, 4-door) for a hitherto untapped small car luxury market, and “base / Popular” models for the bottom end. Panel-van versions catered to the commercial sector. The 1598 cc engine in the 1975 1.6 Ghia produced 84 hp with 92 lb/ft torque and weighed 955 kg (2105 lb). A cosmetic update was given in 1978 with L models gaining the square headlights (previously exclusive to the GL and Ghia variants) and there was an upgrade in interior and exterior specification for some models. Underneath a wider front track was given. In 1979 and 1980 three special edition Escorts were launched: the Linnet, Harrier and Goldcrest. Production ended in Britain in August 1980, other countries following soon after.
With over 16 million units sold, the Fiesta has been an undoubted success for Ford, vindicating the decision that was taken back in the early 1970s that they really did need a car in this class, one that they were frankly late in joining. Originally developed under the project name “Bobcat” (not to be confused with the subsequent rebadged Mercury variant of the Ford Pinto) and approved for development by Henry Ford II in September 1972, just after the launch of two comparable cars – the Fiat 127 and Renault 5, the Fiesta was an all new car in the supermini segment, and was at the time the smallest car ever made by Ford. Development targets indicated a production cost US$100 less than the current Escort. The car was to have a wheelbase longer than that of the Fiat 127, but with overall length shorter than that of Ford’s Escort. The final proposal was developed by Tom Tjaarda at Ghia. The project was approved for production in late 1973, with Ford’s engineering centres in Cologne and Dunton (Essex) collaborating. Ford estimated that 500,000 Fiestas a year would be produced, and built an all-new factory near Valencia, Spain; a trans-axle factory near Bordeaux, France; factory extensions for the assembly plants in Dagenham, UK. Final assembly also took place in Valencia. The name Fiesta belonged to General Motors, used as a trim level on Oldsmobile estate models, when the car was designed but it was freely given for Ford to use on their new B-class car. After years of speculation by the motoring press about Ford’s new car, it was subject to a succession of carefully crafted press leaks from the end of 1975. A Fiesta was on display at the Le Mans 24 Hour Race in June 1976, and the car went on sale in France and Germany in September 1976; to the frustration of UK dealerships, right hand drive versions only began to appear in January 1977. Its initial competitors in Europe, apart from the Fiat 127 and Renault 5, included the Volkswagen Polo and Vauxhall Chevette. Chrysler UK were also about to launch the Sunbeam by this stage, and British Leyland was working on a new supermini which was eventually launched as the Austin Metro in 1980. The Fiesta was initially available in Europe with the Valencia 957 cc with high compression and low compression options, and 1,117 cc engines in Base, Popular, L, GL (1978 onward), Ghia and S trim, as well as a van. A sporting derivative, the 1.3 Supersport was offered for the 1980 model year, using the 1.3 litre Kent Crossflow engine, effectively to test the market for the similar XR2 introduced a year later, which featured a 1.6 litre version of the same engine. Black plastic trim was added to the exterior and interior. The small square headlights were replaced with larger circular ones, with the front indicators being moved into the bumper to accommodate the change. With a quoted performance of 0–60 mph in 9.3 seconds and 105 mph top speed, the XR2 hot hatch became a cult car beloved of boy racers throughout the 1980s. Minor revisions appeared across the range in late 1981, with larger bumpers to meet crash worthiness regulations and other small improvements in a bid to maintain showroom appeal ahead of the forthcoming second generation. Rust claimed almost all the original Fiestas, so they are a rare sight today.
Ford introduced a new Granada in 1977 and it was produced until April 1985 following a mild facelift which paid attention to drivetrain noise, vibration, and harshness in 1982. It was a development of the previous car, the main differences being the use of the “Cologne” V6 engine in 2.0, 2.3, and 2.8 ltire forms replacing the older “Essex” unit (which had never been offered in the Cologne-built Granadas), and the introduction of features such as air conditioning and, for the top-priced 2.8-litre versions, fuel-injection. In mainland Europe, a 1.7 litre V4 was originally available. By the time of its introduction, UK Granada production had been quietly abandoned “for some time”; UK market Granada IIs were imported from Germany. A relatively small number of vehicles were also produced with an Indenor four-cylinder diesel engine in 1.9-, 2.1- and 2.5-litre capacities. Most of these went to taxi operators, and few survive. The smallest 1.9 was quite underpowered and was soon replaced by the somewhat more powerful 2.1, which was presented as the “Granada GLD” in March 1979 at Geneva. By 1982, this was replaced by the more capable 2.5. Fuel-injected 2.8 models were originally offered with an ‘S’ pack or GL trim. In 1979, both versions were replaced by the 2.8i GLS. Today early injection models are particularly rare. The UK only received four door saloons and a commodious estate, but there was a two door saloon as well, offered to those markets who still wanted such a configuration. Although most surviving Granada Mark IIs feature the body-coloured post-facelift (1981) grille, the earlier cars came with a simple black grille regardless of body colour. Both the cars seen here were the facelifted models which came out in late 1981.
The Capri Mk III was referred to internally as “Project Carla”, and although little more than a substantial update of the Capri II, it was often referred to as the Mk III. The first cars were available in March 1978, but failed to halt a terminal decline in sales. The concept of a heavily facelifted Capri II was shown at the 1976 Geneva show: a Capri II with a front very similar to the Escort RS2000 (with four headlamps and black slatted grille), and with a rear spoiler, essentially previewed the model some time before launch. The new styling cues, most notably the black “Aeroflow” grille (first used on the Mk I Fiesta) and the “sawtooth” rear lamp lenses echoed the new design language being introduced at that time by Ford of Europe’s chief stylist Uwe Bahnsen across the entire range. Similar styling elements were subsequently introduced in the 1979 Cortina 80, 1980 Escort Mk III and the 1981 Granada Mk IIb. In addition, the Mk III featured improved aerodynamics, leading to improved performance and economy over the Mk II and the trademark quad headlamps were introduced. At launch the existing engine and transmission combinations of the Capri II were carried over, with the 3.0 S model regarded as the most desirable model although the softer, more luxurious Ghia derivative with automatic, rather than manual transmission, was the bigger seller of the two V6-engined models. Ford began to focus their attention on the UK Capri market as sales declined, realising the car had something of a cult following there. Unlike sales of the contemporary 4-door Cortina, Capri sales in Britain were to private buyers who would demand less discounts than fleet buyers allowing higher margins with the coupé. Ford tried to maintain interest in 1977 with Ford Rallye Sport, Series X, “X Pack” options from the performance oriented RS parts range. Although expensive and slow selling these proved that the press would enthusiastically cover more developed Capris with higher performance. In early 1982, the Essex 3.0 V6 which had been the range topper since September 1969 was dropped, while a new sporty version debuted at the Geneva Motor Show, called the 2.8 Injection. The new model was the first regular model since the RS2600 to use fuel injection. Power rose to a claimed 160 PS, even though tests showed the real figure was closer to 150 PS, giving a top speed of 210 km/h (130 mph), but the car still had a standard four-speed gearbox. The Capri 2.8 Injection breathed new life into the range and kept the car in production 2–3 years longer than Ford had planned. The four-speed gearbox was replaced with a five-speed unit early on – at the same time Ford swapped the dated looking chequered seats for more luxurious looking velour trim. A more substantial upgrade was introduced in 1984 with the Capri Injection Special. This development used half leather seating and included a limited slip differential. Externally the car could be easily distinguished by seven spoke RS wheels (without the customary “RS” logo since this was not an RS vehicle) and colour-coded grille and headlamp surrounds. At the same time the 2.0 Capri was rationalised to one model, the 2.0 S, which simultaneously adopted a mildly modified suspension from the Capri Injection. The 1.6 model was also reduced to a single model, the 1.6 LS. The car was finally deleted at the end of 1986, 1.9 million cars having been made over 18 years, and having been sold only in the UK for the final months of production.
Final representative of the Cortina range was this Cortina 80, sometimes known as the Mark V. It was announced on 24 August 1979. Officially the programme was code named Teresa, although externally it was marketed as “Cortina 80”, but the Mark V tag was given to it immediately on release by the press, insiders and the general public. Largely an update to the Mark IV, it was really a step between a facelift and a rebody. The Mark V differentiated itself from the Mark IV by having revised headlights with larger turn indicators incorporated (which were now visible on the side too), a wider slatted grille said to be more aerodynamically efficient, a flattened roof, larger glass area, slimmer C-pillars with revised vent covers, larger slatted tail lights (on saloon models) and upgraded trim. Improvements were also made to the engine range, with slight improvements to both fuel economy and power output compared to the Mark IV. The 2.3 litre V6 engine was given electronic ignition and a slight boost in power output to 116 bhp, compared to the 108 bhp of the Mark IV. Ford also claimed improved corrosion protection on Mark V models; as a result, more Mark Vs have survived; however, corrosion was still quite a problem. The estate models combined the Mark IV’s bodyshell (which was initially from the 1970 Ford Taunus) with Mark V front body pressings. A pick-up (“bakkie”) version was also built in South Africa. These later received a longer bed and were then marketed as the P100. Variants included the Base, L, GL, and Ghia (all available in saloon and estate forms), together with Base and L spec 2-door sedan versions (this bodystyle was available up to Ghia V6 level on overseas markets). The replacement for the previous Mark IV S models was an S pack of optional extras which was available as an upgrade on most Mark V models from L trim level upwards. For the final model year of 1982 this consisted of front and rear bumper overriders, sports driving lamps, an S badge on the boot, tachometer, 4 spoke steering wheel, revised suspension settings, front gas shock absorbers,’Sports’ gear lever knob, sports road wheels, 185/70 SR x 13 tyres and Fishnet Recaro sports seats (optional). Various “special editions” were announced, including the Calypso and Carousel. The final production model was the Crusader special edition which was available as a 1.3 litre, 1.6 litre, and 2.0 litre saloons or 1.6 litre and 2.0 litre estates. The Crusader was a final run-out model in 1982, along with the newly introduced Sierra. It was the best-specified Cortina produced to date and 30,000 were sold, which also made it Ford’s best-selling special edition model. Another special edition model was the Cortina Huntsman, of which 150 were produced. By this time, the Cortina was starting to feel the competition from a rejuvenated Vauxhall, which with the 1981 release Cavalier J-Car, was starting to make inroads on the Cortina’s traditional fleet market, largely helped by the front wheel drive benefits of weight. Up to and including 1981, the Cortina was the best selling car in Britain. Even during its final production year, 1982, the Cortina was Britain’s second best selling car and most popular large family car. On the continent, the Taunus version was competing with more modern and practical designs like the Talbot Alpine, Volkswagen Passat, and Opel Ascona. The very last Cortina – a silver Crusader – rolled off the Dagenham production line on 22 July 1982 on the launch of the Sierra, though there were still a few leaving the forecourt as late as 1987, with one final unregistered Cortina GL leaving a Derbyshire dealership in 2005. The last Cortina built remains in the Ford Heritage Centre in Dagenham, Essex, not far from the factory where it was assembled.
A sporting version of Ford’s front wheel drive Escort was announced at the same time as the “cooking” 1.1, 1.,3 and 1,6 litre cars in October 1980. This was the XR3, and it came initially with a carb fed 1.6 litre engine generating 105 bhp and had a four speed gearbox. 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 computerised ignition and a modified head as well as the fuel injection. For 1983, the XR3i was upgraded to 115bhp thanks to the use of fuel injection and a five speed transmission had been standardised. Both variants proved very popular, getting a significant percentage of Escort sales and also as a slightly more affordable alternative to a Golf GTi. For those for whom the performance was not quite enough, Ford had an answer, with the the RS Turbo. This 132 PS car was shown in October 1984, as a top of the range car, offering more power than the big-selling XR3i and the limited production RS1600i. Going on sale in the spring of 1985, it proved to be somewhat of a disappointment, with the chassis coming in for severe criticism. The RS Turbo Series 1 was only marketed in a few European nations as production was limited to 5,000 examples, all in white. They were well equipped, with the alloy wheels from the limited production RS 1600i, Recaro seats, and a limited slip differential.
Ford did not make the same mistake with the Focus as they had with its predecessor, so even the ordinary models were good to drive. There was a long wait for a truly sporting flagship, but when it arrived, in late 2002, the Focus RS proved to be rather special. Originally it was to be released as the Racing Focus, however after the poor selling Racing Puma, Ford decided to revive the RS badge. The car was largely built on its own assembly line in Ford’s Saarlouis plant, with some additional specialist off-line assembly performed by the ACÜ group at Überhern. The RS was offered all over Europe, with production limited to 4501 units. 2147 of these were sold in the United Kingdom, by far its largest of the 21 markets where it was available. The development of the Focus RS was undertaken by a mixed team of mainstream Ford engineers (not SVE or the TeamRS group which replaced it later on) and Tickford Engineering in Milton Keynes, United Kingdom. More bespoke than the prior Focus ST170, the Focus RS upgraded or replaced 70% of the standard Focus mechanicals. The turbocharged straight-4 engine produced a minimum of 212 bhp and 310 N·m (229 lb·ft) of torque, which was then mated to the 5-speed MTX-75 and not the Getrag transmission used in the ST 170. Mechanically, most notably, the car incorporated a Quaife automatic torque biasing differential to improve traction from the front-wheel drive setup. The steering used a similar quick-ratio rack as the ST170 while the brakes used fixed-caliper, four-piston Brembo units with 12.8 in discs at the front and single-piston floating calipers and 11.0 in discs at the back. Wheels were 18″ alloys specially developed by OZ Racing. The engine was heavily modified with forged aluminium pistons, hardened valve seats, sodium-filled exhaust valves, stainless steel exhaust system. The forced induction system comprised a Garrett turbocharger with a water-cooled charge air cooler and an electric water pump. To transmit the higher torque an upgraded AP clutch was used. It could generate a steady 0.98G in lateral acceleration due to racing parts such as Sachs dampers, lightweight O.Z Alloy Wheels and a Quaife ATB Differential. It would also allow 1.0G of braking force due to the standard Brembo braking system. The Focus RS was available in one metallic colour, Imperial Blue. The body looked similar to the standard Focus or to the ST170, although the RS featured unique front and rear bumper assemblies required for the wider wheel arches which accommodated the 65 mm (2.6 in) wider front track. Internally, the theme is blue and black with sections of blue leather trim on the door trim panels, the steering wheel and the Sparco seats which were trimmed in blue/black leather and Alcantara. A green starter button starts the engine. The instruments have a blue background and in place of the coolant temperature gauge, the RS was equipped with a boost pressure indicator (up to 1.5 bar). The gear lever knob, handbrake lever, and pedals were all custom made by Sparco. All-around performance was roughly equal or better to its other competitors, including hatchbacks such as the Honda Civic Type-R and some four-wheel drive cars in the same price field. Power was a diminished priority and the handling on a track, courtesy of the front differential, was considered by most observers to be its strongest characteristic. In a Top Gear review, Jeremy Clarkson noted that “it lacks the straightforward oomph of a Subaru Impreza. […] The reason it was quick round our track is simple: this car handles like it’s in a cartoon.” Clarkson and other motor journalists also commented on the car’s torque steer on bumpy British roads. Well preserved examples – and that’s not all of them, by any means, now – are worth decent money and will likely increase in value over time.
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.
Ford played much the same guessing game about whether there would be an RS version of the third generation Focus as they had done with the earlier versions. Production of the regular cars started in late 2010, but it was not until the 2015 Geneva Motor Show before the production ready MKIII Ford Focus RS was unveiled. It came packing the turbocharged 2.3-litre inline-four engine found in the Mustang EcoBoost. In the Focus RS, the engine itself produces 350 hp. Power is sent to all four wheels via Ford’s all-new Torque-Vectoring All-Wheel-Drive system with a rear drive unit designed by GKN, as well as upgraded suspension and brakes. As well as that, the new Focus RS will be fitted with Drive Modes – including an industry-first Drift Mode that allows controlled oversteer drifts – and Launch Control. The RS will boast a model specific aerodynamic package that helps to differentiate it from other Focus models. The RS is capable of accelerating to 100 km/h (62 mph) in 4.7 seconds. Sales finally started in mid 2016, with long waiting lists having been created, though Ford did eventually catch up with expanded production levels allowing them to meet the demand.
The third-generation of the Ford F-Series is a series of trucks that were produced by Ford from 1957 until 1960. Following its competitors at Dodge and General Motors, Ford widened the front bodywork to integrate the cab and front fenders together. Going a step further, the F-Series integrated the hood into the bodywork with a clamshell design; the feature would stay part of the F-Series for two decades. Although offered previously, the optional chrome grille was far more prominent than before. In the rear, two types of pickup boxes were offered, starting a new naming convention: the traditional separate-fender box was dubbed “Flareside”, while “Styleside” boxes integrated the pickup bed, cab, and front fenders together. As before, Ford still offered a low-GVWR version of each model. In May 1957, Ford discontinued building trucks at the Highland Park Ford Plant in Highland Park, Michigan. All light and medium trucks were transferred to 10 other plants in the USA. After 1969, heavy-duty trucks (above F-350) and some light duty trucks were transferred to Kentucky Truck Assembly in Louisville, Kentucky. Third generation trucks were built in Brazil as the F-100, F-350, and F-600 from 1962 until 1971, featuring the 272 and 292 cu.in. Y-Block V8. OHV sixes and V8s were the same ones as used in Ford cars of the era. This was the last generation of the panel van. Ford would not offer a full-size van again until the 1968 introduction of the second generation E-Series.
Completing the array of Ford models was an example of the Mustang, the current car being the first in the nearly 60 year history of the model to be offered in right hand drive form It has proved quite popular here.
HONDA
The Honda CR-X was completely redesigned by late 1987 for the 1988 model year. The wheelbase increased 4 in (102 mm) overall, length increased by 3.2 in (81 mm) and width is nearly 2 in (51 mm) wider from the previous model. The suspension was completely redesigned. Honda abandoned the original torsion bar in the front and beam axle and trailing link in the rear to a 4-wheel double-wishbone suspension. The larger design and revised suspension brought improvements in handling as well passenger and cargo space versus the previous generation. The CR-X received a mild refresh for the 1990 model year. The VTEC equipped models also received a makeover, with updated bumpers, lights, hood, brakes, suspension and dashboard design amongst other features. Additionally, some of these design changes were added to the concurrent non-VTEC models. One of the options for the Japanese Domestic Market (JDM) CR-X was a glass roof, a fixed glass panel which stretched from the top of the windshield to the top of the hatch opening. Relatively common in Japan, these are sought-after models in other markets. A rather different looking third generation model was launched in late 1991.
In 2001, Honda introduced the next generation of the Civic Type R as a unique 3-door hatchback to the UK market, which was manufactured in Swindon, England. This European Domestic Market Civic Type R featured a 200 PS 2.0-litre i-VTEC engine (K20A2) and the regular Type R treatment of seam welding, close-ratio 6-speed transmission and upgraded brakes, but did not include some of the other higher-end features, such as the helical LSD and red Recaro race-seats, that were standard on the EK9. However, Honda marketed a JDM (Japanese domestic market) version of the EP3 (which was exclusively manufactured in Swindon, UK and was shipped to Japan), which retained the highly renowned helical LSD similar to that of the EK9 and red Recaro race-seats. Other differences of the JDM model included a more track-oriented chassis/undercarriage settings as compared to the European model as well as a more powerful engine having a power output of 215 PS (designated K20A) had a fully balanced crankshaft assembly with the different intake manifold, exhaust manifold, higher-lift camshafts, higher-compression pistons, chrome-moly flywheel and ECU programming. All of the Japan-spec K20A Type R powertrains were built in Japan and shipped to the Swindon plant to be installed in the Japan-spec Type-R EP3. The JDM EP3 was also available in the traditional Type R Championship White while the EDM was not. The EDM has more relaxed gear ratios and some high rpm torque traded for low rpm torque compared to the JDM. In 2003, the EP3 was updated with many improvements – revised EPS with quicker steering, revised suspension settings, projector headlamps (JDM came equipped with halogens only while the EDM came with an option for HIDs with self-levelling motors), lighter clutch and flywheel assembly, etc. Based on Honda literature, this facelifted (FL) model was targeted at addressing customers’ and critics’ feedback such as understeer on the limit (due to the front MacPherson strut setup), numb steering response and lack of low-end torque. Mugen Motorsports developed an upgraded version of the JDM Civic Type R, with a sport exhaust system and engine tuning, special Mugen Grille, and anti-roll bars for pro racing activities. In 2003 Honda celebrated 30 years of the Civic badge by offering a special edition 30th Anniversary Civic Type R. This special edition features red bucket seats from Recaro, AIR CONDITIONING, privacy glass on the rear windows, a leather MOMO steering wheel, red interior carpet and door cards. The 30th Anniversary models in the UK were available in Nighthawk Black, Satin Silver and Milano Red. Only 300 of these models were produced, 100 in each colour. In 2005 towards the end of the EP3’s production run, Honda introduced the Civic Type R Premier edition which had Recaro Trendline seats (similar to those found in the Anniversary Edition, only in red and black rather than all red), a darker shade of fabric on the rear seat centre sections, a MOMO Steering Wheel, Red Carpet, Door Linings, “Type R” embossed into the front brake calipers and black privacy glass on the rear windows. Air conditioning was an option. They were available in Milano Red, Nighthawk Black, Cosmic Grey and Satin Silver. In 2004 Honda introduced the “C Package” option (¥330,000 JPY) to Japan’s Civic Type R line-up which included an additional colour, Satin Silver Metallic, HID lighting, rear privacy glass, automatic air conditioner and outside air temperature sensor. For the last production year (2005), the EP3 Type R was offered in Vivid Blue Pearl for the European Market. A total of 132 EP3’s, which were all left-hand drive, were produced in Vivid Blue Pearl.
This is an Integra type R and is from the fourth and final generation of the car, often referred to as the DC5, which is the Honda internal reference fro the car. The fourth generation Integra was introduced in Japan on April 13, 2001 and produced from July 2001 to July 2006. For North America (United States and Canada), it was introduced as the Acura RSX in accordance with Acura’s new alphabetical naming scheme. It also had an entirely new engine, the K-series. The Integra came in two models in the United States, the RSX and the RSX Type-S boasting the K20A2 engine from 2002 to 2004, while the 2005 and 2006 RSX-S came with a K20Z1. The RSX was sold as a Honda Integra in Japan and Australia, markets where Acura did not exist. In March 2006, Honda announced that the Integra would be discontinued in June after its final 300 cars were sold, due to the shrinkage of the coupe market. The reaction of the consumers towards the discontinuation, however, forced Honda to extend production until July 2006 and produce 150 more Integras. The Acura RSX was discontinued as well, as the RSX did not fit within the confines of Acura’s re-structured market strategy. This left the Acura TSX as Acura’s entry-level vehicle. Also, the introduction of the similarly powerful and less expensive 2006 model-year Honda Civic Si was there to fill in the gap left by the RSX. The DC5 Type R (Japanese market only) comes standard with a K20A 220 hp 2.0 litre DOHC i-VTEC four-cylinder engine. The “i” in i-VTEC stands for intelligent VTEC, which employs VTC (Variable Timing Control) to advance or retard the intake cam timing within a 50 degree range. The Integra Type R comes equipped with Recaro seats, four-piston Brembo front brakes, a close ratio six-speed manual transmission, a limited-slip differential, variable back-pressure exhaust system, and a stiffer suspension
LAMBORGHINI
The Lamborghini Huracán (Spanish for “hurricane”; [uɾaˈkan]) is a sports car replacing the previous V10 offering, the Gallardo. The Huracán was revealed online in December 2013, making its worldwide debut at the 2014 Geneva Auto Show, and was released in the market in the second quarter of 2014. The Huracán’s name (huracán being the Spanish word for hurricane) is inspired by a Spanish fighting bull. Historic Spanish fighting bulls have traditionally provided the names of most Lamborghini car models. Huracán was a bull known for its courage that fought in 1879. The Huracán maintains the 5.2-litre naturally aspirated Audi/Lamborghini V10 engine with an additional 0.2 litres, compared to the Gallardo, tuned to generate a maximum power output of 602 bhp/610 PS. To ensure its balance and performance, the car is mid-engined. The engine has both direct fuel injection and multi-point fuel injection. It combines the benefits of both of these systems; it is the first time this combination is used in a V10 engine. To increase its efficiency, the Huracán’s engine also includes a start-stop system. The firing order of the engine is 1, 6, 5, 10, 2, 7, 3, 8, 4, 9. This is printed on a metal plate on the top of the engine, as with all other Lamborghini models. The drag coefficient of Cd=0.39 was undisclosed until 2021. The LP 610-4 designation comes from the car having 610 PS and four-wheel drive, while LP stands for “Longitudinale Posteriore”, which refers to the longitudinal mid-rear engine position. Changes from the Gallardo include full LED illumination, a 12.3 inch full-colour TFT instrument panel, fine napa leather and Alcantara interior upholstery, redesigned dashboard and central tunnel, Iniezione Diretta Stratificata (IDS, essentially an adapted version of parent Audi’s Fuel Stratified Injection) direct and indirect gasoline injections, engine Stop & Start technology, EU6 emissions regulation compliance, Lamborghini Doppia Frizione (LDF) 7-speed dual-clutch transmission with 3 modes (STRADA, SPORT and CORSA), 20-inch wheels, carbon-ceramic braking system, optional Lamborghini Dynamic Steering variable steering system and MagneRide electromagnetic damper control. The main competitors of the Huracán include the McLaren 650S (as well as the 720S), the Audi R8, the Ferrari 458 Speciale and the 488 GTB. Extra options that increase the price of the car include interior enhancements, special paint schemes, improved suspension, and a lifting system, as well as multiple components optionally available in carbon fibre, rather than aluminium. The convertible variant of the Huracán LP 610-4 was revealed at the Frankfurt Motor Show on 14 September 2015. The 5.2-litre naturally-aspirated V10 engine is the same as the coupé and generates a maximum power output of 602 bhp/610 PS. Acceleration from 0 to 100 km/h (62 mph) takes 3.4 seconds and the top speed is 323 km/h (201 mph). It has the same 7-speed Lamborghini Doppia Frizione (LDF) dual-clutch transmission as that of the coupé. The Spyder has a dry weight of 1,542 kg (3,400 lb) which is 120 kg (265 lb) more than the coupé due to chassis reinforcing components. The Spyder has a CO2 emission of about 280 g/km. Unveiled at the 2016 Geneva Motor Show, the Huracán LP 580-2 is a lower cost derivative of the Huracán LP 610-4 that differs mostly in having the 5.2 L V10 engine detuned to 572 bhp/580 PS and 533 Nm (393 lb/ft) of torque along with having a rear wheel drive drivetrain instead of the all-wheel drive drivetrain found in the standard Huracán. Lamborghini claims the car will accelerate from 0–100 km/h (0–62 mph) in 3.4 seconds and 0–200 km/h (0–124 mph) in 10.1 seconds. The top speed is claimed to be as high as 320 km/h (199 mph). It also features slight visual differences to the standard variant of the car – with a different front fascia and larger air vents at the rear of the car for improved brake cooling. The seven-speed dual-clutch transmission is the same as used in the standard LP 610–4. The base level LP 580-2 costs US$201,100, about US$40,000 less than the base level LP 610–4. A convertible variant of the Huracán LP 580-2 was unveiled at the Los Angeles Auto Show on 16 November 2016. The 5.2-litre naturally-aspirated V10 engine is the same as in the coupé, and generates a maximum power output of 572 bhp/580 PS. 0 to 100 km/h (62 mph) takes 3.6 seconds and the top speed is 320 km/h (199 mph). A track oriented variant of the Huracán, called the Performante, was unveiled at the 2017 Geneva Motor Show. The Performante underwent various exterior changes with the most noticeable being the front and rear bumpers. Carbon fibre is used for the bumpers and the side skirts. An adjustable carbon fibre rear wing has been added to increase downforce. The position of the exhaust has also been changed, and is now just a bit above the rear diffuser. The interior also underwent noticeable changes, now sporting new seats and a new digital speedometer (similar to that of the Aventador SV’s speedometer). The Performante’s 5.2-litre V10 has been tuned to have a power output of 631 bhp/640 PS at 8,000 rpm and 601 Nm (443 lb/ft) of torque at 6,500 rpm. The weight has also decreased by 40 kg (88 lb), courtesy of the forged aluminium and forged carbon fibre body components (first used in the construction of the Sesto Elemento). All the new aero components on the car have active aerodynamic capability and help keep the car stable at high speeds. The Performante is capable of accelerating from 0–100 km/h (0–62 mph) in 2.9 seconds, 0–200 km/h (0–124 mph) in 8.9 seconds. It also has a theoretical top speed of 325 km/h (200 mph). The car has been stiffened by 10% with new springs, roll bars, and radial axial arm bushings. The magnetorheological suspension has been reworked to give a driver a serious track experience. The Lamborghini Dynamic Steering has been re-calibrated. The Performante utilises Lamborghini’s new ALA (Aerodinamica Lamborghini Attiva) system, which is said to be 80% lighter than regular sports car hydraulic systems. According to Lamborghini, ALA is also said to provide 750% more downforce than the standard Huracán. The Lamborghini Huracán Performante Spyder was unveiled at the 2018 Geneva Motor Show. It takes much of the styling inspiration from the coupé and the outgoing LP 610-4 Spyder. The Spyder is identical to the coupé from performance and technological standpoint, but the acceleration time from 0–60 mph has risen by one-tenth of a second and stands at 3.1 seconds while the 0–200 km/h (0–124 mph) has risen by four-tenths of a second and stands at 9.3 seconds. Due to the loss of the roof, the Spyder weighs 125 kg (276 lb) more than the coupé due to chassis reinforcing components. Top speed remains the same as well and stands at 325 km/h (202 mph). Deliveries of the Spyder began in the fourth quarter of 2018. The Huracán received a mid-cycle update in 2019, now being called the Huracán Evo. It now shares its engine and some of the technology with the Performante variant. The updated version of the Huracán has a more aggressive design language, the new front bumper has integrated aeroblades for improved downforce along with the rear styling inspired by the Performante variant, having the same rear diffuser, exhaust pipe position and radiators. A new ducktail spoiler improves downforce by 5 times as compared to the outgoing model. The engine is shared with the Performante and generates 631 bhp/640 PS at 8,000 rpm and 601 Nm (443 lb/ft) of torque at 6,500 rpm. The exhaust system is more refined and has titanium intake valves. This allows the car to achieve a 0–60 mph) acceleration time of 2.9 seconds, 0–200 km/h (0–124 mph) acceleration time of 9 seconds and a top speed of 325 km/h (202 mph). The car has a braking distance from 100–0 km/h (62–0 mph) of 104 ft (32 m). The Huracán Evo has a rear-wheel steering system for improved handling and a torque vectoring system. A new central processing unit controls the various functions of the car and monitors various settings. The control system is controlled by the new infotainment system (via an 8.4 inch touchscreen) dubbed the Lamborghini Dinamica Veicolo Integrata which has integrated both Apple CarPlay and Android Auto. The infotainment system predicts the driving modes by a feed forward logic. The feed forward logic works by sensors monitoring the lateral, longitudinal and vertical accelerations, as well as roll, pitch and yaw rate to predict the best possible driving mode for the driver. The magnetorheological suspension is also revised and now uses electromagnetic current to adjust the suspension system in accordance with the driving mode. The transmission system from the outgoing model is retained which transfers power to all four wheels. A new Ego mode allows the driver to change driving settings to their own preference. The Huracán Evo Spyder was introduced online in February 2019. The Spyder has the same enhancements as the coupé but is 100 kg (220 lb) heavier due to the addition of chassis reinforcement components owing to the loss of the roof. The car has the same canvas folding soft top as the outgoing model which takes 17 seconds for operation and is operable at speeds up to 50 km/h (31 mph). The Spyder can accelerate to 100 km/h (62 mph) in 3.1 seconds from a standstill, to 200 km/h (124 mph) in 9.3 seconds and can attain a top speed of 325 km/h (202 mph). A rear-wheel drive variant of the Evo debuted in January 2020, replacing the LP 580–2. The front splitter has been reshaped and generates more airflow, which is directed to the revised diffuser. Unique to the RWD model is P-TCS (Performance Traction Control System) that ensures that torque is not cut off abruptly; Lamborghini claims this increases oversteer by 30 percent compared to the LP 580–2. The engine is detuned and is now rated at 602 bhp/610 PS. Due to the detuned engine, the car is slower than the standard Huracán Evo accelerating to 100 km/h (62 mph) in 3.3 seconds while having the same top speed. The car also receives a unique paint option, Giallo Belenus, along with a matching interior upholstered in leather and microsuede. A convertible version of the rear-wheel drive variant of the Evo was showcased in May 2020, replacing the LP 580-2 Spyder. Like the Coupé variant, the convertible has a power output of 602 bhp/610 PS. The convertible has a 0– 60 mph acceleration time of 3.5 seconds and has a claimed top speed of 323 km/h (201 mph). Unveiled on April 12, 2022, The Huracán Tecnica sits between the EVO RWD and the track-focused STO. It is 6.1 cm (2.4 in) longer than the EVO, but is the same height and width. It uses the naturally-aspirated V10 engine from the STO and has a top speed of 325 km/h (202 mph) and an acceleration time of 0–100 km/h (0–62 mph) in 3.2 seconds. According to Lamborghini, the Tecnica’s aerodynamic changes increase downforce 35 percent and reduce drag by 20 percent compared to the EVO. It is expected that production will end in 2024.
LANCIA
Replacing the Gamma was the Thema, Lancia’s luxury car based on the Tipo Quattro platform, one of four cars to do so, the others being the Alfa Romeo 164, Fiat Croma and Saab 9000. The Thema re-established Lancia as a high-quality luxury manufacturer with a galvanised steel chassis and rust protection that equalled or bettered that of its competitors. Build quality was higher than the Fiat Croma’s and on par with the Saab 9000, with which it shared a great deal of body engineering, including its doors. Lancia’s sales organisation, however, was poor in many markets and secondhand values for the car suffered. The first series was built between 1984 and 1988, and was available with 1995 cc 8 valve, twin-cam fuel injected or turbocharged engines or a 2849 cc V6. For most European markets a 2445 cc four-cylinder turbodiesel was also available, though this was not offered to UK buyers. Two of these cars, in 2 litre Turbo ie spec, which was the most popular among UK buyers, were on show here. For a while, the Thema changed little, but in 1986, a station wagon designed by Pininfarina was added to the range, though this was also never sold in the UK. 21,074 Thema station wagons were built. The second series Thema was presented at the Paris Motor Show in September 1988 with 16v 2.0 litre engines replacing the 2.0 litre 8v units increasing the power output of the injection version to 146 PS and the turbo to 205 PS. The diesel engine size increased marginally, to 2499 cc. The series two was then replaced by the facelifted third and last series, introduced at the Paris Motor Show in September 1992 and produced from 1992-1994. Production of the Thema ceased in 1994 when Lancia presented a replacement. the Kappa, a car that would not be sold in the UK.
LOTUS
In 2004, the Series 2 Exige was introduced. It features a naturally aspirated 1.8 L 16-valve DOHC Toyota/Yamaha engine that is rated at 190 bhp with the Toyota engine designation of 2ZZ-GE. Compared to the Series 2 Elise, it has a front splitter, a fibreglass hardtop roof with roof scoop, a rear engine cover, and rear spoiler. The sole purpose of these aerodynamic additions to the base Elise is to create more downforce (almost 45 kg (100 lb) of downforce at 161 km/h (100 mph) in the Exige versus 5.9 kg (13 lb) at 100 mph in the Elise). In February 2005, Lotus announced a limited production run of 50 Exiges, using the Toyota engine with a supercharger. This increased the power output to 243 bhp. These models were only available in yellow or black, representing the colours of Lotus Sport, and are badged 240R. They have a projected 0 – 60 mph time of 3.9 seconds and 0-161 km/h (100 mph) of 9.9 seconds, with a top speed of 249 km/h (155 mph). The North American Exige was unveiled at the Los Angeles Auto Show in January 2006. According to Lotus, the standard Exige Series 2 model weighs 2,016 lb (914 kg). In February 2006, Lotus announced the Exige S model which used a supercharged Toyota 2ZZ-GE engine rated at 220 bhp The S was also made available in North American markets as a 2007 model. According to Lotus, the Exige S model, weighing 2,057 lb (933 kg), has the following specifications: In 2008, the Exige S was replaced by the Exige S 240. Power output increased by 9% over the outgoing model to 240 bhp. The S 240 also received upgraded AP Racing brakes from the Exige Cup 240 and a larger roof scoop utilised by the Exige Cup 255. 0–60 mph times improved to 4.0 seconds. The S 240 base manufacturer suggested retail price was $65,690. The Exige S 260 produced an additional 7% power output over the S 240 resulting in 256 bhp. Even with a full fuel tank, extensive use of weight-saving materials such as carbon fiber reduced the vehicle’s gross weight to 916 kg (2,020 lb) compared to 942 kg (2,077 lb) in the S 240. It can accelerate from 0–60 mph in 4.0 seconds. After 2009, both the S 240 and S 260 received distinctively new and enlarged rear spoilers mounted to the rear clam instead of the motor bay cover. Countless limited edition models were produced, as well. A third generation car was launched in 2012.
Developed under the project name Project Eagle, this car was launched as the Evora on 22 July 2008 at the British International Motor Show. The Evora is based on the first all-new vehicle platform from Lotus Cars since the introduction of the Lotus Elise in 1995 (the Exige, introduced in 2000, and the 2006 Europa S are both derivatives of the Elise. Evora was planned to be the first vehicle of three to be built on the same platform and was the first product of a five-year plan started in 2006 to expand the Lotus line-up beyond its track-specialised offerings, with the aim of making Evora a somewhat of a more practical road car that would appeal to the mainstream. As such it is a larger car than recent Lotus models Elise and its derivatives (Exige, Europa S, etc.), with an unladen weight of 1,383 kg (3,049 lb). It is currently the only Lotus model with a 2+2 configuration, although it is also offered in a two-seater configuration, referred to as the “Plus Zero” option. It is also the only 2+2 mid engined coupé on sale. The interior is larger to allow taller persons of 6’5″ to fit. The cooled boot behind the engine is large enough to fit a set of golf clubs, although Lotus Design Head Russell Carr denies that this was intentional. Lotus intends Evora to compete with different market sectors including the Porsche Cayman. The name “Evora” keeps the Lotus tradition of beginning model names with an “E”. The name is derived from the words evolution, vogue, and aura. and it of course sounds similar to Évora, which is the name of a Portuguese city and UNESCO World Heritage Site. Sales started in summer 2009, with an annual target of 2000 cars per year, with prices between £45,000 and just over £50,000. and in America from the beginning of 2010. The Evora received several accolades at its launch from the British motoring press, including: Britain’s Best Driver’s Car 2009 from Autocar and Car of the Year 2009, from Evo. Sales, however, were far from target, as the car was seen as too costly. A more powerful Evora S was launched in 2010 with a supercharged equipped 3.5-litre V6. A facelifted and more powerful Evora 400 model was unveiled at the 2015 Geneva Motor Show.
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.
Currently, Lotus are only producing one model, the highly rated Emira, and there was one here.
MASERATI
I brought my Ghibli along, and for most of the morning, it looked as if it was going to be the only Maserati present, but eventually a second example of the marque (and another QS regular) did arrive.
The Maserati GranTurismo and GranCabrio (Tipo M145) are a series of a grand tourers produced from 2007 to 2019. They succeeded the 2-door V8 grand tourers offered by the company, the Maserati Coupé, and Spyder. The GranTurismo set a record for the most quickly developed car in the auto industry, going from design to production stage in just nine months. The reason being that Ferrari, after selling off Maserati to the Fiat Chrysler Group, took the designs of the proposed replacement of the Maserati Coupé and after some modifications, launched it as the Ferrari California. Unveiled at the 2007 Geneva Motor Show, the GranTurismo has a drag coefficient of 0.33. The model was initially equipped with a 4.2-litre V8 engine developed in conjunction with Ferrari. The engine generates a maximum power output of 405 PS and is equipped with a 6-speed ZF automatic transmission. The 2+2 body was derived from the Maserati M139 platform, also shared with the Maserati Quattroporte V, with double-wishbone front suspension and a multilink rear suspension. The grand tourer emphasises comfort in harmony with speed and driver-enjoyment. The better equipped S variant was unveiled at the 2008 Geneva Motor Show and features the enlarged 4.7-litre V8 engine shared with the Alfa Romeo 8C Competizione, rated at 440 PS at 7,000 rpm and 490 Nm (361 lb/ft) of torque at 4,750 rpm. At the time of its introduction, it was the most powerful road-legal Maserati offered for sale (excluding the homologation special MC12). The engine is mated to the 6-speed automated manual shared with the Ferrari F430. With the transaxle layout weight distribution improved to 47% front and 53% rear. The standard suspension set-up is fixed-setting steel dampers, with the Skyhook adaptive suspension available as an option along with a new exhaust system, and upgraded Brembo brakes. The seats were also offered with various leather and Alcantara trim options. The upgrades were made to make the car more powerful and more appealing to the buyers while increasing performance, with acceleration from 0–100 km/h (0–62 mph) happening in 4.9 seconds and a maximum speed of 295 km/h (183 mph). Aside from the power upgrades, the car featured new side skirts, unique 20-inch wheels unavailable on the standard car, a small boot lip spoiler, and black headlight clusters in place of the original silver. The variant was available in the North American market only for MY2009 with only 300 units offered for sale. The GranTurismo MC is the racing version of the GranTurismo S developed to compete in the FIA GT4 European Cup and is based on the Maserati MC concept. The car included a 6-point racing harness, 120 litre fuel tank, 380 mm (15.0 in) front and 326 mm (12.8 in) rear brake discs with 6-piston calipers at the front and 4-piston calipers at the rear, 18-inch racing wheels with 305/645/18 front and 305/680/18 rear tyres, carbon fibre bodywork and lexan windows throughout along with a race interior. All the weight-saving measures lower the weight to about 3,000 lb (1,361 kg). The car shares the 4.7-litre V8 engine from the GranTurismo S but is tuned to generate a maximum power output of 450 PS along with the 6-speed automated manual transmission. The GranTurismo MC was unveiled at the Paul Ricard Circuit in France. It went on sale in October, 2009 through the Maserati Corse programme. 15 GranTurismo MC racecars were developed, homologated for the European Cup and National Endurance Series, one of which was taken to be raced by GT motorsport organization Cool Victory in Dubai in January, 2010. Introduced in 2008, the GranTurismo MC Sport Line is a customisation programme based on the GranTurismo MC concept. Changes include front and rear carbon-fibre spoilers, carbon-fibre mirror housings and door handles, 20-inch wheels, carbon-fibre interior (steering wheel rim, paddle shifters, instrument panel, dashboard, door panels), stiffer springs, shock absorbers and anti-roll bars with custom Maserati Stability Programme software and 10 mm (0.4 in) lower height than GranTurismo S. The programme was initially offered for the GranTurismo S only, with the product line expanded to all GranTurismo variants and eventually all Maserati vehicles in 2009. Replacing both the GranTurismo S and S Automatic, the Granturismo Sport was unveiled in March 2012 at the Geneva Motor Show. The revised 4.7L engine is rated at 460 PS. The Sport features a unique MC Stradale-inspired front fascia, new headlights and new, sportier steering wheel and seats. The ZF six-speed automatic gearbox is now standard, while the six-speed automated manual transaxle is available as an option. The latter has steering column-mounted paddle-shifters, a feature that’s optional with the automatic gearbox. New redesigned front bumper and air splitter lowers drag coefficient from Cd=0.33 to 0.32. In September 2010, Maserati announced plans to unveil a new version of the GranTurismo – the MC Stradale – at the 2010 Paris Motor Show. The strictly two-seat MC Stradale is more powerful than the GranTurismo at 450 PS, friction reduction accounts for the increase, says Maserati, due to the strategic use of “diamond-like coating”, an antifriction technology derived from Formula 1, on wear parts such as the cams and followers. It is also 110 kg lighter (1,670 kg dry weight) from the GranTurismo, and more aerodynamic than any previous GranTurismo model – all with the same fuel consumption as the regular GranTurismo. In addition to two air intakes in the bonnet, the MC Stradale also receives a new front splitter and rear air dam for better aerodynamics, downforce, and improved cooling of carbon-ceramic brakes and engine. The body modifications make the car 48 mm (2 in) longer. The MC Race Shift 6-speed robotised manual gearbox (which shares its electronics and some of its hardware from the Ferrari 599 GTO) usually operates in an “auto” mode, but the driver can switch this to ‘sport’ or ‘race’ (shifting happening in 60 milliseconds in ‘race’ mode), which affects gearbox operations, suspension, traction control, and even the sound of the engine. The MC Stradale is the first GranTurismo to break the 300 km/h (186 mph) barrier, with a claimed top speed of 303 km/h (188 mph). The push for the Maserati GranTurismo MC Stradale came from existing Maserati customers who wanted a road-legal super sports car that looked and felt like the GT4, GTD, and Trofeo race cars. It has been confirmed by the Maserati head office that only 497 units of 2-seater MC Stradales were built in total from 2011 to 2013 in the world, Europe: 225 units, China: 45 units, Hong Kong: 12, Taiwan: 23 units, Japan: 33 units, Oceania: 15 units and 144 units in other countries. US market MC’s do not have the “Stradale” part of the name, and they are sold with a fully automatic six-speed transmission rather than the one available in the rest of the world. US market cars also do not come with carbon fibre lightweight seats like the rest of the world. The MC Stradale’s suspension is 8% stiffer and the car rides slightly lower than the GranTurismo S following feedback from racing drivers who appreciated the better grip and intuitive driving feel of the lower profile. Pirelli has custom-designed extra-wide 20-inch P Zero Corsa tyres to fit new flow-formed alloy wheels. The Brembo braking system with carbon-ceramic discs weighs around 60% less than the traditional system with steel discs. The front is equipped with 380 x 34 mm ventilated discs, operated by a 6 piston caliper. The rear discs measure 360 x 32 mm with four-piston calipers. The stopping distance is 33 m at 100 km/h (62 mph) with an average deceleration of 1.2g. At the 2013 Geneva Motor Show, an update to the GranTurismo MC Stradale was unveiled. It features an updated 4.7 litre V8 engine rated at 460 PS at 7,000 rpm and 520 Nm (384 lb/ft) of torque at 4,750 rpm, as well as the MC Race Shift 6-speed robotized manual gearbox which shifts in 60 milliseconds in ‘race’ mode. The top speed is 303 km/h (188 mph). All models were built at the historic factory in viale Ciro Menotti in Modena
McLAREN
Now an established part of the McLaren range, the 570S along with its slightly cheaper and less powerful brother, the 540C, was revealed at the 2015 New York Auto Show, going on sale towards the end of that year. These were labelled as part of McLaren’s Sports Series. This mid-engine sportscar features the lightweight carbon fibre MonoCell II chassis, and a highly efficient 3.8-litre twin turbo V8 engine generating 562bhp and 443lb/ft of torque. Although the model has been conceived with a greater focus on day-to-day usability and refinement, it is still very much a pure McLaren, boasting a class-leading power-to-weight ratio of 434PS per tonne, and electrifying performance. The 570S Coupé accelerates from 0 to 100km/h in just 3.2 seconds, reaches 200km/h (124mph) in 9.5 seconds, and on to a top speed of 204mph. Pricing for the 570S Coupé started at £143,250, though like all cars of this type, that figure can quickly rise once you raid the options list.
A McLaren you don’t see that often is the GT, even though it has been on sale for a good couple of years now, having been first announced at the 2019 Geneva Motor Show, thought full details of the car were not released until May 15 of the same year and sales did not start until the end of that year. The McLaren GT is the company’s first dedicated grand tourer and is based on the same platform underpinning the 720S with the addition of a carbon fibre rear deck to house a glazed tailgate creating significantly greater storage capacity. The GT features a new variation of the 3,994 cc twin-turbocharged M840T V8 engine found in the 720S. Having a new dedicated codename of M840TE, the new engine has smaller turbochargers that deliver lower peak performance than its Super Series variant but greater low RPM-performance and responsiveness. The GT has a rated power output of 620 PS (612 bhp) at 7,000 rpm, and the maximum torque is 465 lb/ft (630 Nm) at 5,500 rpm. The suspension system in the GT is also derived from the system in the 720S. The car utilises double wishbones at the front and rear axles, and a modified version of the ProActive Chassis Control II active damping system called Proactive Damping Control. The company claims that the GT has a top speed of 326.7 km/h (203 mph), it can accelerate from 0–60 mph in 3.1 seconds, and 0–200 km/h (0–124 mph) in 9 seconds. The McLaren GT features 150 litres of storage space at the front and 420 litres in the rear, accommodating a full-sized set of golf clubs.
Unveiled on 3 March 2020, the 765LT is a limited (765 units worldwide) version of the 720S and the successor to the 675LT as a Super Series Longtail car, focused on track performance. The M840T engine is now rated at 765 PS/755 bhp at 7,500 rpm and 590 lb/ft (800 Nm) of torque at 5,500 rpm achieved with a higher-capacity fuel pump, forged aluminium pistons and a three-layer head gasket from the Senna. The top speed is lowered from the 720S’s 341 km/h (212 mph) to 330 km/h (205 mph) due to added drag created by the added high downforce parts, although the 765LT weighs 80 kg (176 lb) less than the 720S at 1,339 kg (2,952 lb) in its lightest configuration and has a quicker 0–100 km/h (0–62 mph) time of 2.8 seconds. It also can hit 0–200 km/h (0–124 mph) in 7.0 seconds and complete a quarter-mile dash in 9.9 seconds according to McLaren. A US-spec McLaren 765LT was tested by Road & Track with a quarter-mile time of 11.6 seconds at 131.1 mph (211.0 km/h), which equates to 0–100 km/h in the high-3 range and 0–200 km/h in the mid-10 range. In addition, it stopped at 92 feet from 60-0 mph. Other testing sources such as DragTimes have recorded quarter mile times as low as 9.2 seconds and at speeds up to 152 mph. The Senna’s brake calipers are also available as an extra-cost option; McLaren claims these have four times the thermal conductivity as conventional carbon ceramics, while Pirelli Trofeo R tyres are standard. Suspension changes involve a 5 mm (0.2 in) reduction in ride height and the use of lightweight main springs with secondary “helper” units as well as an upgraded Proactive Chassis Control system. The aerodynamics are redesigned to produce 25% more downforce than the 720S, featuring front fender vents, a larger front splitter and a longer active wing element at the rear at the cost of less noise insulation, thinner-gauge glass and stiffened engine mounts. The rear of the car also features a quad-exit full titanium exhaust to distinguish it from the 720S. Production was limited to 765 cars globally with customer deliveries in October 2020.
MERCEDES-BENZ
There were a number of Mercedes models here, of course, most of them AMG versions. It was this C63 Coupe which is the only one that I photographed.
MINI
The Mini was the model that refused to die, with sales continuing after the launch of the Metro in 1980, and gathering momentum again in the 1990s, thanks in no small part to interest from Japan and because Rover Group decided to produce some more Cooper models. The first series of Cooper cars had been discontinued in 1971, replaced by the cheaper to build 1275GT, but when a limited edition model was produced in 1990, complete with full endorsement from John Cooper, the model was a sell out almost overnight, which prompted the decision to make it a permanent addition to the range. A number of refinements were made during the 90s, with fuel injection adding more power, a front mounted radiator and more sound deadening making the car quieter and new seats adding more comfort and a new dash making the car look less spartan inside. It formed part of the range until production of all Issigonis Minis ended in 2000.
MITSUBISHI
This is a Lancer Evo VI, of the type which was produced between January 1999 and February 2001. Based on the Lancer saloon, the Evo kept pace with changes to that model, so the Evo IV, seen in 1996 had been a new model compared to the first three Evo generations. Evo IV, V and VI were all broadly similar with detailed changes coming with each new iteration. The Evolution VI’s changes mainly focused on cooling and engine durability. It received a larger intercooler, larger oil cooler, and new pistons, along with a titanium-aluminide turbine wheel for the RS model, which was a first in a production car. The Evolution VI received new bodywork yet again, with the most easily noticeable change being within the front bumper where the huge fog lights were reduced in size and moved to the corners for better airflow. A new model was added to the GSR and RS lineup; known as the RS2, it was an RS with a few of the GSR’s options. Another limited-edition RS was known as the RS Sprint, an RS tuned by Ralliart in the UK to be lighter and more powerful with 330 hp. Yet another special edition Evolution VI was released in December 1999: the Tommi Mäkinen Edition, named after Finnish rally driver Tommi Mäkinen who had won Mitsubishi four WRC drivers championships. It featured a different front bumper, Red/Black Recaro seats (with embossed T. Mäkinen logo), 17″ Enkei white wheels, a leather Momo steering wheel and shift knob, a titanium turbine that spooled up more quickly, front upper strut brace, lowered ride height (with tarmac stages in mind), and a quicker steering ratio. Amongst other colours, the Evo VI came in either red (Tommi Mäkinen Edition only), white, blue, black or silver with optional special decals, replicating Tommi Mäkinen’s rally car’s colour scheme. This car is also sometimes referred to as an Evolution 6½, Evolution 6.5, or TME for short. There were two “standard” models. The RS – “rally sport” had a close-ratio 5-speed, minimal interior, rally suspension, Rear 1.5 Way LSD as opposed to AYC, (Shortened close-ratio 5-speed transmission, Optional Enkei Wheels, Optional Recaro Seats, Optional Air Conditioner, Optional Brembo brakes, Optional power windows). The GSR came with a 5-speed, gauge pack, AYC (Active Yaw Control), Anti-Lock Braking System, Recaro front bucket and rear seat, auto air-conditioner, double-din audio, power windows, Brembo brakes. The Tommi Mäkinen Edition Models also came in RS and GSR guise. The RS was the same as the standard RS with close-ratio 5-speed, lowered ride height, Tommi Mäkinen Edition front bumper, and titanium turbine (same option with standard RS) and the GSR was the same as the standard GSR with lowered ride height, Tommi Mäkinen Edition front bumper, Red/Black Recaro seats (with embossed T. Mäkinen logo), 17″ Enkei white wheels and titanium turbine. These cars were fearsomely expensive to run, and as such, you don’t see them very often any more.
NISSAN/DATSUN
Although not many of the Datsun 240Z were sold in the UK, or indeed Europe, this car proved phenomenally popular in the US, and was really the beginning of the end for the British sports cars which American buyers had been buying in large quantities throughout the 1960s. Known internally as the Nissan S30, and sold in Japan as the Nissan Fairlady Z, the car we call the the Datsun 240Z, and the later 260Z and 280Z was the first generation of Z GT two-seat coupe, produced by Nissan from 1969 to 1978. It was designed by a team led by Yoshihiko Matsuo, the head of Nissan’s Sports Car Styling Studio. With strong performance from the 2.4 litre engine, and excellent ride and handling from the four-wheel independent suspension, the car was good to drive, In the United States, Datsun priced the 240Z within $200 of the MGB-GT, and dealers soon had long waiting lists for the “Z”. Its modern design, relatively low price, and growing dealer network compared to other imported sports cars of the time (Jaguar, BMW, Porsche, etc.), made it a major success for the Nissan Motor Corporation, which at the time sold cars in North America under the name Datsun. As a “halo” car, the 240Z broadened the image of Japanese car-makers beyond their econobox success. The car was updated to the 260Z in 1975, when a larger 2.6 litre engine was used
The Nissan 370Z (known as the Fairlady Z Z34 in Japan) is a 2-door, 2-seater sports car (S-segment in Europe) manufactured by Nissan Motor Company. It was announced on October 29, 2006, and was first shown at an event in Los Angeles ahead of the 2008 Greater LA Auto Show, before being officially unveiled at the show itself. The 370Z is the sixth generation of the Nissan Z-car line, succeeding the 350Z. The 370Z marks the last production car with a naturally aspirated and high-rev V6 coupled to a manual transmission. Almost every piece and component of the 370Z has been redesigned from the previous 350Z. The wheelbase is 4 in (100 mm) shorter at 100.4 in (2,550 mm) and an overall length 2.7 in (69 mm) shorter at 167.1 in (4,240 mm). The overall width has been increased by 1.3 in (33 mm), the rear track by 2.2 in (56 mm), and overall height reduced by 0.3 in (7.6 mm). The smaller exterior dimensions and use of more lightweight materials helped reduce weight. The 370Z features a front aluminium subframe, aluminium-alloy engine cradle, aluminium door panels, an all-aluminium hood, and an aluminium hatch. Front body torsional rigidity is improved by 10 percent with an extensively revised body structure, which includes a new front suspension cradle to reduce front body lateral bending, new rear structural reinforcements, and an underbody “V-bar” to help reduce rear lateral bending. Rear body torsional rigidity is improved by up to 22 percent and rear body vertical bending rigidity is improved by up to 30 percent. Additional enhancements include the use of a carbon fibre composite radiator housing and strengthening of the rear fender and hatch areas. The new structure weighs slightly less than the 350Z. The 370Z uses a front double wishbone suspension, with forged aluminium control arms and steering knuckle. The rear multi-link suspension uses a forged aluminium upper control arm, lower arm and radius rod, the toe control rod is steel and wheel carrier assembly is aluminium. The refreshed 2013 model uses new dampers with the Sport package models. The brakes have been changed from the more expensive Brembo racing brakes to Nissan branded brakes which are manufactured by Akebono. The coefficient of drag is 0.30 and 0.29 with the Sport Package, figures identical to the 350Z. The Japanese model of the 370Z Coupe went on sale in December 1, 2008. The vehicle was unveiled in the 2008 Los Angeles Auto Show, with sales of the North American model beginning at Nissan dealers in early 2009. Standard and optional equipment includes 19-inch RAYS wheels, Bluetooth, Sirius/XM satellite radio, heated electric seats, viscous limited slip differential, Bose sound system with dual subwoofers and 6-CD changer, and automatic climate control. Deliveries of the European model began in April 2009. There was also an open-topped car, the 370Z Roadster which went on sale in late summer 2009 as 2010 model year vehicle. Early models include the 370Z and 370Z Touring, with Sport Package and Navigation packages for the 370Z Touring. European models went on sale as 2010 model year vehicles. Although there were numerous limited edition models that followed, the car changed little over the next several years. The 2020 model year was the final model year for the 370Z. The line was continued by the Nissan Z (RZ34) on a modified version of the same platform.
Like its predecessor, the R33 GT-R was the most extreme version of a range of Skyline cars, which in R33 guise were launched in 1993 and would go on to be produced for 6 years. The previous R32 model was a well proven build but the R32 wasn’t without faults and suffered with uplift and balance issues. Along with that, Nissan was as other Japanese companies were under strict restrictions on power gains. So Nissan had to combat all these areas so the sophisticated strength Programme was made. Nissan increased the width by about one inch on the R33 to the R32 and made it about 4 inches longer. This gave the R33 a longer wheelbase overall and lower stance mixed with new technology now from the computer aerodynamic age. Each line on the R33 was intended to give the car ultimate aerodynamics with wider gaps in the bumper and angles of air movement which allowed better cooling, in addition to the fuel tank lifted; the battery moved to the boot/trunk. Rigidity points were added mixed with improvements on the Attessa and Hicas all now offered the R33 with the best aerodynamics, balance, and handling. Nissan engineers also found other ways to reduce weight, even by a few grams. This includes: Hollowing out the side door beams. Using high tensile steel on body panels. Reduction in sound deadening materials. Super HICAS becoming electric. Hollowing out of rear stabiliser bar. Use of high tensile springs front and rear. Shrinking the ABS actuator. Light aluminium wheels with higher rigidity The front and rear axles were made of aluminium (as in the BNR32) but also so were engine mount insulators and brackets New plastics were used for : fuel tank, head lamps, super high strength “PP” bumpers, air cleaner, changing the headlining material, changing material of rear spoiler. All this put together meant we saw an improved time against the R32 of 21 seconds faster around the Nurburgring and 23 seconds faster in V spec trim. Still making the R33 the fastest skyline around the Nurburgring. The BCNR33 GT-R version also had the same RB26DETT engine that the BNR32 was equipped with, although torque had been improved, due to changes in the turbo compressor aerodynamics, turbo dump pipe, and intercooler. The turbo core changed from a sleeve bearing to a ball bearing, but the turbine itself remained ceramic, except on N1 turbos (steel turbine, sleeve bearing). From the R33 onward, all GT-Rs received Brembo brakes. In 1995 the GT-R received an improved version of the RB26DETT, the ATTESA-ETS four-wheel-drive system, and Super HICAS 4-wheel steering. A limited edition model was created in 1996, called the NISMO 400R, that produced 400 hp from a road-tuned version of Nissan’s Le Mans engine. A stronger six-speed Getrag gearbox was used. An R33 GT-R driven by Dirk Schoysman lapped the Nordschleife in less than 8 minutes. The Skyline GT-R R33 is reported to be the first production car to break 8 minutes, at 7 minutes and 59 seconds. Other manufacturers had caught up since the R32 was released, and the R33 never dominated motorsport to the extent of the R32. The R33 saw victory in the JGTC GT500 dominating the class and taking victory each year until its final racing year in which it was finally beaten by the Mclaren F1 GTR. The R33 saw huge favour in the tuning world with it being a popular model on the Wangan and top tuning companies building heavily tuned version from Top Secret ran by Smokey Nagata to Jun etc. and later by companies like Sumo. HKS GT-R would hold a drag series record for several years in there drag series making a record win of 7.671-second pass at Sendai Hi-Land Raceway with Tetsuya Kawasaki behind the wheel and taking it to be the World’s fastest AWD car.
There was also an example of the now long lived R35 generation GT-R here.
NOBLE
Follow on to the Noble M10, the M12 was a two-door, two-seat model, originally planned both as a coupe and as a convertible. All M12s were powered by modified bi-turbocharged Ford Duratec V6 engines. There was a full steel roll cage, steel frame, and G.R.P. (fibreglass) composite clam shell body parts. Although looking to be track derived, the M12 was street-legal, ready for both road and track. The M12 has no anti-roll bars on the car, allowing for a comfortable feel. The coupe evolved through four versions of Noble cars, with the 425 bhp M400 as the ultimate version of the M12, following the first 2.5 litre 310 bhp car, the 352 bhp 3 litre GTO-3 and the GTO-3R. The car was sold in the US, where it proved quite popular, with 220 GTO-3Rs and M400s sold there. US production rights were sold in February 2007 to 1G Racing from Ohio. Due to high demand of these cars, 1G Racing (now Rossion Automotive) released its own improved car based on the M400, named Rossion Q1. Another company which is also producing a model developed from the M12 is Salica Cars 1 with their Salica GT and Salica GTR.
PEUGEOT
Before the 205, Peugeot was considered the most conservative of France’s “big three” car manufacturers, producing large saloons such as the 504 and 505, although it had entered the modern supermini market in 1973 with the Peugeot 104. The genesis of the 205 lay within Peugeot’s takeover in 1978 of Chrysler’s European divisions Simca and the former Rootes Group, which had the necessary expertise in making small cars including the Simca 1100 in France and Hillman Imp in Britain. It was around this time that Peugeot began to work on the development of a new supermini for the 1980s. It was launched on 24 February 1983, and was launched in right-hand drive form for the UK market in September that year. Shortly after its launch, it was narrowly pipped to the European Car of the Year award by the similar sized Fiat Uno, but ultimately (according to the award organizers) it would enjoy a better image and a longer high market demand than its Italian competitor. It was one of five important small cars to be launched onto the European market within a year of each other: the other four were the Uno, the second generation Ford Fiesta, the original Opel Corsa (sold as the Vauxhall Nova on the British market) and the original Nissan Micra. Its launch also closely followed that of the Austin Metro and Volkswagen Polo Mk2. The styling of the 205 is often thought to be a Pininfarina design, although Gerard Welter claims that it is an in-house design; Pininfarina only styled the Cabriolet. It is often credited as the car that turned Peugeot’s fortunes around. The fully independent suspension used the now standard PSA Peugeot Citroën layout that had debuted in the Peugeot 305 estate. A key ingredient of the success of the 205, it had MacPherson struts at the front and trailing arms with torsion bars at the rear. The rear suspension was very compact, designed to minimise suspension intrusion into the boot, giving a wide flat loadspace, while providing excellent ride and handling. Early 205s used the X petrol engine [n 1] from the older Peugeot 104, although these were later (1987–1988) replaced with the newer XU and TU-series engines, which were of PSA design. Engines ranged in displacement from 954 cc to 1905 cc, in carburettor or fuel injected versions. The diesel models employed the PSA XUD engine, lifted from the Citroën BX which was introduced in September 1982. These engines had a capacity of 1769 cc (XUD7) and 1905 cc (XUD9) and are closely related to the XU5 and XU9 petrol engines in the BX16 and BX19 of the time. The diesel engines were world-beating and so petrol-like that many buyers were won over by petrol car performance combined with diesel economy. For instance, the 205 GRD (1.8 Diesel, 59 bhp, 78 lb/ft (105.8 Nm)) was as fast as, yet smoother than, the 205 GR (1.4 Petrol, 59 bhp, 78 lb/ft (105.8 Nm)), due to the engine developing peak torque at much lower rpm, while using much less fuel. There were various versions intended for commercial use, such as the two-seater XA-series. There was also the “205 Multi”, a tall-bodied special version on XA or XE-basis built by independent coachbuilders like Gruau and Durisotti. Gruau called their XA-based two-seater version the “VU”, while the five-seat XE-based version was called the “VP”. Durisotti began building the 205 Multi in 1986; it was called the “205 Multi New Look”. The 205 was an instant hit, and its styling was echoed in every Peugeot model that was to follow. The exterior styling was never facelifted or significantly altered in its 15-year production run. There was a dashboard redesign for the 1988 model year, and in late 1990 the 205 received new door design and cards, clear front indicators, new ‘smoked’ rear light clusters, single point petrol injection and catalytic converters were introduced, to meet the new 1992 pollution limits. These updates came at a crucial time, as 1990 also saw the arrival of a completely new French competitor, the Renault Clio, while the Rover Metro and Volkswagen Polo were also heavily updated, and Ford had already replaced its Fiesta with a third generation model. Still, the 205 was still widely regarded in the motoring press as the benchmark car in this sector by 1990. At the beginning of 1993, Peugeot launched the 306, which officially replaced the 309; the arrival of this car also diminished the 205’s role (and its sales figures) in the Peugeot range, as had the arrival of the smaller 106 in September 1991 – although the final demise of the 205 was still some years away. The engines were continuously updated, with the new TU engines introduced in 1988. In 1991, the 205 dTurbo was launched with a powerful turbocharged version of the 1,769 cc xud diesel engine. After several years of gradually declining sales, the Peugeot 205 was discontinued in the United Kingdom in 1996. The Peugeot 205 was still offered in the “Sacré Numéro” and “Génération” models until the end of the production in 1998. The last models were GLD 1.8 configuration and were sold in Argentina. Most of the later European versions were only sold in France. Due to the pressure from the market, with buyers wanting a Peugeot supermini in the mould of the 205 again, the company finally built a direct replacement in the 206, which was launched in 1998. 5,278,050 Peugeot 205s have been sold, and a significant percentage of them were still in circulation as of 2009. By 2014, there were still as many as 14,000 on the road in the United Kingdom, compared to the peak high of 374,773 in 1994. With potentially as many 400,000 sales in the UK, it became the best selling car ever sold by Peugeot in the UK – although its success was emulated a few years later by the larger 306 and later by the 206. It also helped boost the popularity of the Peugeot brand there, and was at least a factor in Peugeot’s decision to phase out the Talbot brand in the mid 1980s when launching new models to be built at the former Rootes Group plant near Coventry and the former Simca plant at Poissy.
A cabriolet version of the 205, known as the CJ (or CT in France), was designed and partially assembled by Pininfarina of Italy. A CTi version, with the same plastic arches and wheels as the 1.6 GTI was also available. Only minor changes were made to the car in the next few years, with the most obvious visual change being the switch to grey bumpers and trim from black ones in 1990, along with revised lights. A new dashboard had been incorporated across the entire 205 range a couple of years before this. Sales of the GTI in the UK in the early 1990s were badly hit by soaring insurance premiums, brought about by high theft and ‘joyriding’ of cars of this sort. Increasingly stringent emissions regulations meant the 1.6 GTi went out of production in 1992, while the 1.9 litre was sold for a couple more years thanks to re-engineering of the engine to enable it to work properly with a catalytic converter, which dropped power to 122 bhp. Many of them had a hard life, but there are some nice original cars out there and people are starting to spend serious money in restoring them.
PORSCHE
The 911 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.
The 996 was replaced with the 997 in 2005. It retains the 996’s basic profile, with an even lower 0.28 drag coefficient, but draws on the 993 for detailing. In addition, the new headlights revert to the original bug-eye design from the teardrop scheme of the 996. Its interior is also similarly revised, with strong links to the earlier 911 interiors while at the same time looking fresh and modern. The 997 shares less than a third of its parts with the outgoing 996, but is still technically similar to it. Initially, two versions of the 997 were introduced— the rear-wheel-drive Carrera and Carrera S. While the base 997 Carrera had a power output of 321 hp from its 3.6 L Flat 6, a more powerful 3.8 L 350 hp Flat 6 powers the Carrera S. Besides a more powerful engine, the Carrera S also comes standard with 19 inch “Lobster Fork” style wheels, more powerful and larger brakes (with red calipers), lowered suspension with PASM (Porsche Active Suspension Management: dynamically adjustable dampers), Xenon headlamps, and a sports steering wheel. In late 2005, Porsche introduced the all-wheel-drive versions to the 997 lineup. Carrera 4 models (both Carrera 4 and Carrera 4S) were announced as 2006 models. Both Carrera 4 models are wider than their rear-wheel-drive counterparts by 1.76 inches (32 mm) to cover wider rear tyres. The 0–100 km/h (62 mph) acceleration time for the Carrera 4S with the 350 hp engine equipped with a manual transmission was reported at 4.8 seconds. The 0–100 km/h (62 mph) acceleration for the Carrera S with the 350 hp was noted to be as fast as 4.2 seconds in a Motor Trend comparison, and Road & Track has timed it at 3.8 seconds. The 997 lineup includes both 2- and 4-wheel-drive variants, named Carrera and Carrera 4 respectively. The Targas (4 and 4S), released in November 2006, are 4-wheel-drive versions that divide the difference between the coupés and the cabriolets with their dual, sliding glass tops. The 997 received a larger air intake in the front bumper, new headlights, new rear taillights, new clean-sheet design direct fuel injection engines, and the introduction of a dual-clutch gearbox called PDK for the 2009 model year. They were also equipped with Bluetooth support. The change to the 7th generation (991) took place in the middle of the 2012 model year. A 2012 Porsche 911 can either be a 997 or a 991, depending on the month of the production.
In February 2006, Porsche unveiled the second generation of GT3, the 997 commonly now known as the 997.1 GT3. In addition to a new 415 PS 3.6 litre flat-six engine, the vehicle featured “zero lift” aerodynamics, meaning the car creates only aerodynamic downforce and no grip-diminishing “lift” upwards and away from the road surface. The GT3 made use of a modified, track oriented version of Porsche’s active PASM suspension making it the first of Porsche’s RS or GT3 versions to feature an electronically adjustable suspension system. Also available was a navigation system and Porsche’s “sports chrono” gauge package. The car went to sale in summer of 2006. A total of 917 units were sold in the United States and 46 units in Canada. The 997 GT3 has a rated 0–60 mph acceleration time of 4.1 seconds and has a top speed of 311 km/h (193 mph). Road and Track was able to achieve a 0–60 mph acceleration time of 3.8 seconds. Porsche’s official test-driver Walter Röhrl completed the Nürburgring Nordschleife in 7 minutes 42 seconds with the 997 GT3 in 2006. In 2009, Porsche launched the 2nd Generation 997 GT3 (commonly known as the 997.2 GT3), with an enlarged 3.8 litre engine rated at 435 PS. It also featured a number of new options including dynamic engine mounts and a pneumatically lifting front axle to compensate for the low ground clearance. The rear spoiler was also modified along with other parts of the bodywork. Deliveries in Europe commenced in November the same year. A total of 654 units were sold in the United States and 58 units in Canada.
The 991 introduced in 2012 is an entirely new platform, only the third since the original 911. Porsche revealed basic information on the new Carrera and Carrera S models on 23 August 2011. The Carrera is powered by a 350 hp 3.4-litre engine. The Carrera S features a 3.8-litre engine rated at 400 hp. A Power Kit (option X51) is available for the Carrera S, increasing power output to 430 hp. The new 991’s overall length grows by 56 mm (2.2 in) and wheelbase grows by 99 mm (3.9 in) (now 96.5 in.) Overhangs are trimmed and the rear axle moves rearward at roughly 76 mm (3 in) towards the engine (made possible by new 3-shaft transmissions whose output flanges are moved closer to the engine). There is a wider front track (51 mm (2 in) wider for the Carrera S). The design team for the 991 was headed by Michael Mauer. At the front, the new 991 has wide-set headlights that are more three-dimensional. The front fender peaks are a bit more prominent, and wedgy directionals now appear to float above the intakes for the twin coolant radiators. The stretched rear 3/4 view has changed the most, with a slightly more voluminous form and thin taillights capped with the protruding lip of the bodywork. The biggest and main change in the interior is the centre console, inspired by the Carrera GT and adopted by the Panamera. The 991 is the first 911 to use a predominantly aluminium construction. This means that even though the car is larger than the outgoing model, it is still up to 50 kilograms (110 lb) lighter. The reduced weight and increased power means that both the Carrera and Carrera S are appreciably faster than the outgoing models. The 0–60 mph acceleration time for the manual transmission cars are 4.6 seconds for the Carrera and 4.3 seconds for the Carrera S. When equipped with the PDK transmission, the two 991 models can accelerate from 0–97 km/h in 4.4 seconds and 4.1 seconds. With the optional sports chrono package, available for the cars with the PDK transmission, the 991 Carrera can accelerate from 0–97 km/h in as little as 4.2 seconds and the Carrera S can do the same in 3.9 seconds. Apart from the reworked PDK transmission, the new 991 is also equipped with an industry-first 7-speed manual transmission. On vehicles produced in late 2012 (2013 model year) Rev Matching is available on the 7-speed manual transmission when equipped with the Sport Chrono package. Rev-Matching is a new feature with the manual transmission that blips the throttle during downshifts (if in Sport Plus mode). Also, the 7th gear cannot be engaged unless the car is already in 5th or 6th gear. One of Porsche’s primary objectives with the new model was to improve fuel economy as well as increase performance. In order to meet these objectives, Porsche introduced a number of new technologies in the 911. One of the most controversial of these is the introduction of electromechanical power steering instead of the previous hydraulic steering. This steering helps reduce fuel consumption, but some enthusiasts feel that the precise steering feedback for which the 911 is famous is reduced with the new system.[citation needed] The cars also feature an engine stop/start system that turns the engine off at red lights, as well as a coasting system that allows the engine to idle while maintaining speed on downhill gradients on highways. This allows for up to a 16% reduction in fuel consumption and emissions over the outgoing models. The new cars also have a number of technologies aimed at improving handling. The cars include a torque vectoring system (standard on the Carrera S and optional on the Carrera) which brakes the inner wheel of the car when going into turns. This helps the car to turn in quicker and with more precision. The cars also feature hydraulic engine mounts (which help reduce the inertia of the engine when going into turns) as part of the optional sports chrono package. Active suspension management is standard on the Carrera S and optional on the Carrera. This helps improve ride quality on straights while stiffening the suspension during aggressive driving. The new 991 is also equipped with a new feature called Porsche Dynamic Chassis Control (PDCC). Porsche claims that this new feature alone has shaved 4 seconds off the standard car’s lap time around the Nürburgring. PDCC helps the car corner flat and is said to improve high-speed directional stability and outright lateral body control, but according to several reviews, the car is more prone to understeer when equipped with this new technology. In January 2013, Porsche introduced the all-wheel-drive variants of the Carrera models. The ‘4’ and ‘4S’ models are distinguishable by wider tyres, marginally wider rear body-work and a red-reflector strip that sits in between the tail-lights. In terms of technology, the 4 and 4S models are equipped with an all-new variable all-wheel-drive system that sends power to the front wheels only when needed, giving the driver a sense of being in a rear-wheel-drive 911. In May 2013, Porsche announced changes to the model year 2014 911 Turbo and Turbo S models, increasing their power to 513 hp on the ‘Turbo’, and 552 hp on the ‘Turbo S’, giving them a 0–97 km/h acceleration time of 3.2 and 2.9 seconds, respectively. A rear-wheel steering system has also been incorporated on the Turbo models that steers the rear wheels in the opposite direction at low speeds or the same direction at high speeds to improve handling. During low-speed manoeuvres, this has the virtual effect of shortening the wheelbase, while at high speeds, it is virtually extending the wheelbase for higher driving stability and agility. In January 2014, Porsche introduced the new model year 2015 Targa 4 and Targa 4S models. These new models come equipped with an all-new roof technology with the original Targa design, now with an all-electric cabriolet roof along with the B-pillar and the glass ‘dome’ at the rear. In September 2015, Porsche introduced the second generation of 991 Carrera models at the Frankfurt Motor Show. Both Carrera and Carrera S models break with previous tradition by featuring a 3.0-litre turbocharged 6-cylinder boxer engine, marking the first time that a forced induction engine has been fitted to the base models within the 911 range
Porsche unveiled the facelifted 991.2 GT3 at the 2017 Geneva Motor Show. Extensive changes were made to the engine allowing for a 9,000 rpm redline from the 4.0 litre flat-six engine derived from Porsche 911 GT3 R and Cup racing cars. The engine has a power output of 500 PS (493 bhp) and 460 Nm (339 lb/ft) of torque. Porsche’s focus was on reducing internal friction to improve throttle response. Compared to the 991.1, the rear spoiler is 0.8 inch taller and located farther back to be more effective resulting in a 20% increase in downforce. There is a new front spoiler and changes to the rear suspension along with larger ram air ducts. The car generates 154 kg (340 lb) of downforce at top speed. The 991.2 GT3 brought back the choice between a manual transmission or a PDK dual clutch transmission. Performance figures include a 0-60 mph acceleration time of 3.8 seconds (3.2 seconds for the PDK version) and a quarter mile time of 11.6 seconds. The GT3 can attain a top speed of 319 km/h (198 mph).
Completing the array of 911-badged cars was this latest 992 generation model.
The 968 was launched in 1992, renamed from the 944, as so little of the outgoing S2 remained unaltered. In addition to the numerous mechanical upgrades, the new model also received significantly evolved styling both inside and out, with a more modern, streamlined look and more standard luxury than on the 944. Production was moved from the Audi plant in Neckarsulm to Porsche’s own factory in Zuffenhausen. The 968 was powered by an updated version of the 944’s straight-four engine, now displacing 3.0 L with 104 mm bore, 88 mm stroke and producing 240 PS. Changes to the 968’s powertrain also included the addition of Porsche’s then-new VarioCam variable valve timing system, newly optimized induction and exhaust systems, a dual-mass flywheel, and updated engine management electronics among other more minor revisions. The 968’s engine was the second-largest four-cylinder ever offered in a production car up to that time. A new 6-speed manual transmission replaced the 944’s old 5-speed, and Porsche’s dual-mode Tiptronic automatic became an available option. Both the VarioCam timing system and Tiptronic transmission were very recent developments for Porsche. The Tiptronic transmission had debuted for the first time ever only 3 years prior to the debut of the 968, on the 1989 Type 964 911. The VarioCam timing system was first introduced on the 968 and would later become a feature of the Type 993 air-cooled six-cylinder engine. The 968’s styling was an evolution on that of the outgoing 944, itself styled evolutionarily from the earlier 924, but elements were borrowed from the more expensive 928 model in an attempt to create a “family resemblance” between models, and the swooping headlamp design, inspired by those of the 959, previewed similar units found later on the Type 993 911. Along with the new styling, the 968 featured numerous small equipment and detail upgrades, including a Fuba roof-mounted antenna, updated single lens tail lamps, “Cup” style 16″ alloy wheels, a wider selection of interior and exterior colours, and a slightly updated “B” pillar and rear quarter window to accommodate adhesive installation to replace the older rubber gasket installation. Because some parts are interchangeable between the 968, 944 and 924, some enthusiasts purchase those parts from Porsche parts warehouses as “upgrades” for their older models. Like the 944, the 968 was sold as both a coupe and a convertible. Much of the 968’s chassis was carried over from the 944 S2, which in itself shared many components with the 944 Turbo. Borrowed components include the Brembo-sourced four-piston brake calipers on all four wheels, aluminium semi-trailing arms and aluminium front A-arms, used in a Macpherson strut arrangement. The steel unibody structure was also very similar to that of the previous models. Porsche maintained that 80% of the car was new. From 1993 through 1995, Porsche offered a lighter-weight “Club Sport” version of the 968 designed for enthusiasts seeking increased track performance. Much of the 968’s luxury-oriented equipment was removed or taken off the options list; less sound deadening material was used, electrical windows were replaced with crank-driven units, upgraded stereo systems, A/C and sunroof were still optional as on the standard Coupe and Convertible models. In addition, Porsche installed manually adjustable lightweight Recaro racing seats rather than the standard power-operated leather buckets (also manufactured by Recaro), a revised suspension system optimised and lowered by 20 mm for possible track use, 17-inch wheels rather than the 16-inch and wider tyres, 225 front and 255 rears rather than 205 and 225 respectively. The four-spoke airbag steering wheel was replaced with a thicker-rimmed three-spoke steering wheel with no airbag, heated washer jets were replaced with non heated, vanity covers in the engine bay were deleted, as was the rear wiper. The Club Sport has no rear seats, unlike the 2+2 Coupé. Club Sports were only available in Grand Prix White, black, Speed yellow, Guards red, Riviera blue or Maritime blue. Seat backs were colour-coded to the body. Club Sport decals were standard in either black, red or white but there was a ‘delete’ option. All Club Sports had black interiors with the 944 S2 door cards. Due to the reduction in the number of electrical items the wiring loom was reduced in complexity which saved weight and also the battery was replaced with a smaller one, again reducing weight. With the no frills approach meaning less weight, as well as the optimising of the suspension, Porsche could focus media attention on the Club Sport variants fast road and track abilities. This helped to slightly bolster the flagging sales figures in the mid-1990s. The Club Sport variant achieved a ‘Performance Car Of The Year’ award in 1993 from Performance Car magazine in the UK. Club Sport models were only officially available in the UK, Europe, Japan & Australia, although “grey market” cars found their way elsewhere. The declared weight of the 968 CS is 1320 kg, ~100 kg lighter than the regular 968. Acceleration from standstill to 100 km/h is 6.3 seconds and a top speed is 260 km/h (160 mph). A UK-only version called “968 Sport”, was offered in 1994 and 1995, and was essentially a Club Sport model (and was produced on the same production line with similar chassis numbers) with electric windows, electric release boot, central locking, cloth comfort seats (different from both the standard and the Club Sport). With the added electrics the larger wiring loom was used. The Sport Variant also got back the two rear seats, again in the cloth material specific to the Sport. At £29,975, the 968 Sport was priced £5,500 lower than the standard 968, but had most of the latter’s desirable “luxuries” and consequently outsold it by a large margin (306 of the 968 Sport models compared to 40 standard 968 coupés). In 1993, Porsche Motorsports at Weissach briefly produced a turbocharged 968 Turbo S, a fairly odd naming choice for Porsche which usually reserves the added “S” moniker for models that have been tuned for more power over a “lesser” counterpart, such as with the 911 Turbo. The 968 Turbo S shared the same body and interior as the Club Sport and visually can be identified by the NACA bonnet hood scoops, adjustable rear wing and deeper front spoiler. Powered by a large 8 valve SOHC cylinder head (944 Turbo S) with 3.0 Litre 944S2 style engine block. Tests conducted in 1993 produced a 0 to 60 mph (97 km/h) of 4.7 seconds and a top speed of 282 km/h (175 mph), performance comparable to the much newer Type 996 911. It generated 305 bhp at 5600 rpm with a maximum torque of 370 lb·f) at 3000rpm. Only 16 were produced in total and only for sale in mainland Europe. Between 1992 and 1994, Porsche Motorsports Research and Development built and provided a full “Race” version (stripped out 968 Turbo S) for Porsche’s customer race teams. The 968 Turbo RS was available in two variations; a 337 bhp version using the K27 turbocharger from the Turbo S, which was built to the German ADAC GT specification (ballast added to bring the car up to the 1350 kg minimum weight limit), and an international spec version which used a KKK L41 turbocharger producing 350 bhp and was reduced to 1212 kg in weight. Only 4 were ever produced ; 1 Guards Red, 1 Speed Yellow, 1 Black and 1 White. These are the rarest 968s ever produced.
In 2021, Porsche unveiled the 718 Cayman GT4 RS, the first Cayman to receive the RS treatment which is usually reserved for the 911 models. With a 4.0 naturally aspirated flat-six derived from the 911 GT3, it puts out 500 PS (490 bhp) and 450 Nm (330 lb/ft) with an rpm limit of 9,000rpm, which allows it to sprint from 0–100 km/h (0–62 mph) in just 3.4 seconds. It generates 25% more downforce than the GT4 variant, through a swan-neck attachment fixed rear wing. The GT4 RS lapped the Nürburgring Nordschleife 23 seconds faster than the GT4. There is a hefty price premium over the GT4 model.
RENAULT
The Renault Fuego (Fire in Spanish) is a sport hatchback that was manufactured and marketed by Renault from 1980 to 1986, replacing the Renault 15 and 17 coupés of the 1970s. Marketed in the United States by American Motors Corporation (AMC), the Fuego was also assembled in several countries in South America, where production continued until 1992. According to Renault, 265,367 Fuegos were produced, 85% of those manufactured in France from February 1980 to October 1985. Spanish production for European markets continued into 1986. The Fuego’s exterior was styled by Michel Jardin, and the interior by Francois Lampreia, both working under direction of Robert Opron. Automotive journalist L. J. K. Setright said the Fuego “is blessed with a body which is not only roomy and aerodynamically efficient, but is also beautiful”. The Fuego was heavily based on the Renault 18, sharing its floorpan and drivetrain, with its front suspension developed from the larger Renault 20/30. Despite sharing no parts, the design kept the familiar double-wishbone layout common with the Renault 18, incorporating a negative scrub radius geometry. The suspension design would later be added to the facelifted Renault 18, and later, with minor refinements (larger bushings etcetera), the Renault 25. Power steering was available at the higher end of the range. The Fuego dashboard was added to the facelifted R18 in 1984 (though initially only available in the R18 Turbo) and then both updated again in September 1983 (LHD cars only) for the 1984 model year. European production continued until 1985 in France and 1986 in Spain, while Renault Argentina produced the Fuego from 1982 until ending production in 1992 with the 2.2 L “GTA Max” (the final phase III facelift introduced in 1990). In Argentina, it reached 63 percent local parts integration. Wind tunnel testing was used to allow the Fuego to have sporty coupé lines while maximizing rear seat space. The resulting drag coefficient (Cd) factor ranges from 0.32 to 0.35. In October 1982, the turbocharged diesel Fuego became the fastest diesel car in the world, with a top speed of 180 km/h (110 mph). The Fuego was one of the first cars to offer a remote keyless system with central locking, available from September 1982, using a system invented by Frenchman Paul Lipschutz — marketed as the “PLIP” remote in Europe. The Fuego was also the first to have remote steering-wheel-mounted controls for the audio system (European LHD GTX and Turbo from September 1983). This feature was subsequently popularised on the 1984 model Renault 25. The Fuego was also available with options including leather upholstery, multi-function trip computer, cruise control, air-conditioning (factory or dealer-installed), and a full-length Webasto electric fabric sunroof. A convertible version trimmed with a leather interior was unveiled by the French coachbuilder Heuliez in 1982 aimed at the U.S. market, but was not produced due to lower than expected sales in the American market – the R11/Alliance convertible taking its place. Three examples were built and finished to American specification (sealed beam headlights, enlarged bumpers, etc.). The Fuego became the best selling coupé in Europe during 1980 through to 1982. Variants included: 1.4 L TL, 1.6 L economy tuned GTL (LHD only); 1.6 L TS and GTS (manual and automatic transmissions); 2.0 L TX and GTX (manual and automatic transmissions). The TX was a downgraded version of the GTX, but differences varied by country. This model deleted alloy wheels, electric windows, central locking, air conditioning, fog lights, headlight wipers, etc. depending upon the market. A manual-only 2.1 L turbo-diesel was also produced for LHD European markets in the 1982-1985 period. This model was differentiated by the “bulge” in the top of the bonnet, extra vents in the front bumper, and “Turbo D” badging on the grille, side and rear hatch glass. The Fuego Turbo (1.6 L/1565cc with a manual transmission) was added in 1983 to coincide with the facelift. This facelift included a revised front grille, plastic trim on the bumpers, revised dashboard on LHD models, wheel design, interior trim and fabrics – sepia (coffee brown) with dark brown/white striped velour seats; or ash (grey) with black/red striped velour seats for the Turbo, and ash or sepia for the other models sold with European specifications. Interior colour now depended on exterior colour, eliminating the large choice of customised options of the previous models. The facelifted GTX was also offered with the 2.2 L EFI engine from the Renault 25 in certain LHD markets (generally where the Fuego Turbo was not sold). Renault sold the Fuego in the UK aiming it at the market segment occupied by the Opel Manta and Ford Capri. It became the top-selling coupé during 1981 and 1982. The available trims beginning in 1980–81 with the TL, GTS, and GTX, before increasing to the TL, TS, GTS, GTS Automatic, TX, and GTX manual in 1981–82; TL, TS, GTS, GTS Automatic, TX, GTX, GTX Automatic in 1982–83; TL, GTS, TX, GTX Automatic, and Turbo in 1983–84, and down to just two (GTS and Turbo) during 1985 and 1986 as sales declined.
This is the Renault Clio V6 Renault Sport, to give the car its full and rather cumbersome name. This was a rear mid-engine, rear-wheel-drive layout hot hatch based on the Renault Clio launched in 2001, very much in the same style as the earlier mid-engined R5 Turbo models of the 1980s. Designed by Renault, the Phase 1 models were built by Tom Walkinshaw Racing and Phase 2 were designed and helped by Porsche and built by Renault Sport in Dieppe. The Clio V6 was based on the Clio Mk II, though it shared very few parts with that car. The 3.0 litre 60° V6 engine, sourced from the PSA group. It was the ES9J unit as used in the Peugeot 406, 407 and 607, and the Citroen C 5 and not the one that Renault used in the 3 litre Laguna engine, which had an PRV (Peugeot, Renault & Volvo) an earlier development 90° V based on a V8 that never was. For this car it was upgraded to around 227 bhp and placed in the middle of the vehicle where the more ordinary Clios have rear seats – making this car a two-seater hot hatch. In order to accommodate the radical change from front-engine, front-wheel drive hatchback to mid-engine, rear-wheel drive two-seater quasi-coupé, the car had to be extensively reworked structurally, leading to the Phase 1 version being some 300 kg (660 lb) heavier than the sportiest “regular” Clio, the 172 Cup. Due to this, even though the V6 model had significantly more power, it was not remarkably faster in a straight line accelerating to legal road speeds than the 172 Cup – accelerating to 60 mph in 6.2 seconds compared to the Cup’s 6.7 seconds – though its maximum speed was significantly higher at 146 mph compared to 138 mph. Opinions varied on the handling, but many found it very twitchy and the car soon a gained a reputation for breaking away with little warning. That was largely addressed by the Phase 2 cars which were launched in 2003. The front end took on the same sort of new design as had been applied to the regular models. The engine was upgraded, to make the Phase 2 Clio V6 the most powerful serial produced hot hatch in the world with 255 bhp exceeding the 247 bhp of the Alfa Romeo 147 GTA and the 222 bhp SEAT León Cupra R. Based on the Phase 1 engine, its extra performance was helped with assistance from Porsche and although the Phase 2 gained even more weight, the result was a a reduced 0–60 mph run at 5.9 seconds and a top speed of 153 mph. Though based on a utilitarian hatchback, the Clio V6 was not a practical family car. With an average fuel consumption of 24 mpg, this resulted in an empty fuel tank in just over 300 miles. The loss of the back seats and most of the boot space, due to the engine placement, resulted in a severe restriction in luggage space – there was only a small space in the front where the engine used to be, suitable for a holdall or week-end groceries, a small netted area behind the seats plus a small stash area under the tailgate. The enhanced steering made tight manoeuvring a little challenging, the turning circle being a rather awkward 13 m (42.7 ft) – around three car lengths – turning what might normally be a three-point turn into a five-point turn. Standard equipment in the car was good, this was not a stripped-out special, and it included rain sensing windscreen wipers, automatic headlights, air conditioning, and six speakers and CD changer. The Phase 2 Clio V6 retailed for £27,125 in the United Kingdom, until it was withdrawn from sale in 2005 coinciding with a facelift for the Clio range. The Phase 2 was received far more enthusiastically by the ever-critical UK press. These days there is no doubting the fact that this is a modern classic.
The Megane Renault Sport 230 Renault F1 Team R26 is a version that commemorates the success of Renault in the Formula 1 World Championship with the 2005 and 2006 Constructors’ and Drivers’ Championship titles and is named after the 2006 F1 car (R26). It is based on the facelifted Mégane RS. The engine is rated at 227 hp (230 PS) at 5,500 rpm and 310 Nm (229 lb⋅ft) at 3,000 rpm. It incorporates the improved version of the Cup Chassis package now with a limited slip differential fitted for the first time in addition to 18-inch Anthracite spoked alloy wheels with Michelin Pilot Sport 2 235/40 R18 tyres, Brembo front and rear red brake calipers and an increased brake master cylinder diameter, plus revised stiffened steering. Other features include a sport exhaust, Recaro seats, climate control, 4×15-watt RDS radio single CD/MP3 player with 6 speakers, Renault F1 decals, numbered plaque, limited slip differential and a rear spoiler. The car weights 1,355 kg (2,987 lb) kerb, 1,820 kg (4,012 lb) gross. This generation of Megane RS was widely regarded as one of the best hot hatches of the time.
ROVER
Whilst the 3 litre P5 model may have been thought of as a replacement for the top end of the long running P4 Rovers, it was really this car, the P6 model, first seen in October 1963 which was its true successor. Very different from the long-running 60/75/80/90/95/100/105/110 models, this car took some of its inspiration, it is claimed, from the Citroen DS as well as lessons learned from Rover’s Jet Turbine program of the 1950s and early 60s. It was a “clean sheet” design, carrying nothing over, and was advanced for the time with a de Dion tube suspension at the rear, four-wheel disc brakes (inboard on the rear), and a fully synchromesh transmission. The unibody design featured non-stressed panels bolted to a unit frame. The de Dion set-up was unique in that the “tube” was in two parts that could telescope, thereby avoiding the need for sliding splines in the drive shafts, with consequent stiction under drive or braking torque, while still keeping the wheels vertical and parallel in relation to the body. The Rover 2000 won industry awards for safety when it was introduced and included a carefully designed “safety” interior. One innovative feature was the prism of glass on the top of the front side lights. This allowed the driver to see the front corner of the car in low light conditions, and also confirmed that they were operative. One unique feature of the Rover 2000 was the design of the front suspension system, in which a bell crank (an L-shaped rotating bracket trailing the upper hub carrier joint) conveyed the vertical motion of the wheel to a fore-and-aft-horizontally mounted spring fastened to the rear wall of the engine compartment. A single hydraulically damped arm was mounted on the firewall for the steering. The front suspension was designed to allow as much width for the engine compartment as possible so that Rover’s Gas Turbine engine could be fitted. In the event, the engine was never used for the production vehicle, but the engine compartment width helped the accommodation of the V8 engine adopted years after the car’s initial launch for the 2000. The luggage compartment was limited in terms of usable space, because of the “base unit” construction, complex rear suspension and, in series II vehicles, the battery location. Lack of luggage space (and hence the need to re-locate the spare tyre) led to innovative options for spare tyre provision including boot lid mountings and optional Dunlop Denovo run-flat technology. The car’s primary competitor on the domestic UK market was the Triumph 2000, also released in October 1963, just one week after the Rover, and in continental Europe, it contended in the same sector as the Citroen DS which, like the initial Rover offering, was offered only with a four-cylinder engine – a deficiency which in the Rover was resolved, four years after its launch, when Rover’s compact V8 was engineered to fit into the engine bay. The Rover 2000 interior was not as spacious as those of its Triumph and Citroen rivals, especially in the back, where its sculpted two-person rear seat implied that Rover customers wishing to accommodate three in the back of a Rover should opt for the larger and older Rover 3 Litre. The first P6 used a 1,978 cc engine designed specifically for the car, which put out around 104 bhp. That was not enough to live up to the sports saloon ambitions, so Rover later developed a twin SU carburettor version with a re-designed top end and marketed the revised specification vehicles as the 2000 TC. The 2000 TC was launched in March 1966 for export markets in North America and continental Europe, relenting and making it available to UK buyers later that year. This engine generated around 124 bhp. The standard specification engines continued in production in vehicles designated as 2000 SC models. These featured the original single SU. More performance was to come. Rover saw Buick’s compact 3528 cc V8 unit that they had been looking at developing as the means of differentiating the P6 from its chief rival, the Triumph 2000. They purchased the rights to the innovative aluminium engine, and, once improved for production by Rover’s own engineers, it became an instant hit. The Rover V8 engine, as it became known, outlived its original host, the P5B, by more than thirty years. The 3500 was introduced in April 1968, one year after the Rover company was purchased by Triumph’s owner, Leyland and continued to be offered until 1977. The light metal V8 engine weighed the same as the four-cylinder unit of the Rover 2000, and the more powerful car’s maximum speed of 114 mph as well as its 10.5-second acceleration time from 0–60 mph were considered impressive, and usefully faster than most of the cars with which, on the UK market, the car competed on price and specifications. It was necessary to modify the under-bonnet space to squeeze the V8 engine into the P6 engine bay: the front suspension cross-member had to be relocated forward, while a more visible change was an extra air intake beneath the front bumper to accommodate the larger radiator. There was no longer space under the bonnet for the car’s battery, which in the 3500 retreated to a position on the right side of the boot. Nevertheless, the overall length and width of the body were unchanged when compared with the smaller-engined original P6. Having invested heavily in the car’s engine and running gear, the manufacturer left most other aspects of the car unchanged. However, the new Rover 3500 could be readily distinguished from the 2000 thanks to various prominent V8 badges on the outside and beneath the radio. The 3500 was also delivered with a black vinyl covering on the C-pillar, although this decoration later appeared also on four-cylinder cars. A 3-speed Borg Warner 35 automatic was the only transmission until the 1971 addition of a four-speed manual 3500S model, fitted with a modified version of the gearbox used in the 2000/2200. The letter “S” did not denote “Sport”, it was chosen because it stood for something specific on those cars: “Synchromesh”. However it is important to note that the 3500S was noticeably quicker than the automatic version of this car with a 0-60mph time of 9 seconds, compared with 10.1 for the standard car. Moreover, due to the fuel-guzzling nature of automatic gearboxes of this era, the manual car’s official cycle was 24mpg compared to the automatic’s 22mpg. The Series II, or Mark II as it was actually named by Rover, was launched in 1970. All variants carried the battery in the boot and had new exterior fixtures such as a plastic front air intake (to replace the alloy version), new bonnet pressings (with V8 blips even for the 4-cylinder-engined cars) and new rear lights. The interior of the 3500 and 2000TC versions was updated with new instrumentation with circular gauges and rotary switches. The old-style instrumentation with a linear speedometer and toggle switches continued on the 2000SC versions. The final changes to the P6 came in the autumn of 1973 when the 2200 SC and 2200 TC replaced the 2000 SC and TC. These cars used an enlarged 2,205 cc version of the 2000 engine, which increased power outputs to 98 and 115 bhp respectively as well as offering improved torque. The P6 was replaced by the SD1 Rover, a completely different sort of car indeed, after 322,302 cars had been built.
In May 1990, a heavily revised Metro was revealed, with the model adopting full Rover badging. The looks had been modernised, but it was what had been done under the bonnet that was far more significant, with the relatively new K-Series engine finding a home in both 1100 and 1400cc guises. Combined with a five speed gearbox in more costly models, and a new trim that looked decidedly up-market for a small car, suddenly the Metro was back in contention, and that year, the model won high praise and just about every comparison test there was. The MGs were no more, but there was a 1.4 GTi car at the top of the range, and there was even a (very low volume) Cabrio for a while. Sadly, though, with development funds still next to non-existent, the car stayed in production for too long. By 1997, the basic design was 17 years old, and it was the fact that it had the safety standards more akin to cars of 1980 than 1997 that finally finished it off, with a disastrous NCAP safety test which deterred all but the very faithful form buying it.
SHLEBY
This is a replica Shelby Daytona Coupe, an American sports-coupé, related to the Shelby Cobra roadster, loosely based on its chassis and drive-train developed and built as an advanced evolution. It was engineered and purpose built for auto racing, specifically to take on Ferrari and its 250 GTO in the GT class. The original project had six Shelby Daytona Coupes built for racing purposes between 1964 and 1965, as Carroll Shelby was reassigned to the Ford GT40 project to compete at the 24 Hours of Le Mans, again to beat Ferrari in the highest level prototype class. With the Shelby Daytona, Shelby became the first American constructor to win a title on the international scene in the FIA International Championship for GT Manufacturers in 1965. In 2014, the first Cobra Daytona Coupe became the first vehicle recorded under a U.S. federal program for documenting historically important national treasures. During 1964 and 1965, Ford entered their six Shelby Daytona Coupes in numerous races through the British Alan Mann Racing Ford factory team, as well as temporarily selling or leasing to other racing teams such as “Tri-Colore” of France and Scuderia Filipinetti of Switzerland. Just the six cars were built, but in 2015, Shelby announced that they would build a continuation series of a further 50 cars. Even these are exceedingly rare, so when you see one, it is almost certainly going to be a replica model, like this one.
SUBARU
Subaru introduced the “New Age” Impreza, the second generation car, to Japan in August 2000, and it arrived in Europe towards the end of that year. Larger in size compared to the previous iteration, the sedan increased its width by 40 millimetres (1.6 in), while the wagon notably increased by just 5 millimetres (0.2 in)—placing the two variants in different Japanese classification categories. The coupe body style from the first generation did not reappear for the new series, and the off-road appearance package that included contrasting-coloured bumpers did carry over forward. Marketed as a separate model line, this North America-only variant was, as before, badged the Outback Sport. Naturally aspirated flat-four (boxer) engines comprised the 1.5-litre EJ15, the 1.6-litre EJ16, the 2.0-litre EJ20, and the 2.5-litre EJ25. Turbocharged versions of the 2.0- and 2.5-litre engines were offered in the WRX and WRX STI models. STI models featured a more powerful 2.0-litre (2.5-litre outside of the Japanese market) turbocharged engine. WRX models featured a 2.0-litre turbocharged boxer engine until 2005, after which they switched to the 2.5-litre turbocharged engine. As with the first generation, the turbocharged STI variants were available in numerous specifications with a myriad of limited edition variants sold. The bug-eyed styling was not well received, and Subaru had two further attempts at the front end, neither of which was entirely successful, either, but enthusiasts were happy to overlook the gawky looks because the way the car drove. Subaru issued yearly updates to the STI, tweaking cosmetics and equipment levels, and also improving performance and handling. The car was replaced in 2007 by the third generation Impreza, widely regarded as inferior in many ways to this version.
TOYOTA
The third-generation MR2 was marketed as the Toyota MR-S in Japan, Toyota MR2 Spyder in the US, and the Toyota MR2 Roadster in Europe. Also known as the Midship Runabout-Sports, the newest MR2 took a different approach than its predecessor, most obviously becoming a convertible and receiving the ‘Spyder’ marketing nomenclature. The first prototype of MR-S appeared in 1997 at the Tokyo Motor Show. The MR2 Spyder chief engineer Harunori Shiratori said, “First, we wanted true driver enjoyment, blending good movement, low inertia and light weight. Then, a long wheelbase to achieve high stability and fresh new styling; a mid-engine design to create excellent handling and steering without the weight of the engine up front; a body structure as simple as possible to allow for easy customizing, and low cost to the consumer.” The only engine available for the ZZW30 was the all-aluminium alloy 1ZZ-FED, a 1.8 litre Inline-four engine. Like its predecessors, it used DOHC and 4 valves per cylinder. The intake camshaft timing was adjustable via the VVT-i system, which was introduced earlier on the 1998 MR2 in some markets. Unlike its predecessors, however, the engine was placed onto the car the other way round, with the exhaust manifold towards the rear of the car instead of towards the front. The maximum power of 138 bhp at 6,400 rpm and 126 lb/ft (171 Nm) of torque at 4,400 rpm was quite a drop from the previous generation, but thanks to the lightness of the car it could still move quite quickly, accelerating from 0 to 100 km/h (62 mph) in 6.8 to 8.7 seconds depending on the transmission option, the Sequential Manual being unable to launch and shift as quickly as the clutch operated manual. Curb weight is 996 kg (2,195 lb) for manual transmission models. In addition to the 5-speed manual transmission, a 6-speed manual or 5-speed Sequential Manual Transmission (SMT) was also available starting in 2002. The SMT was a standard feature in Australian market; however, air conditioning was optional. After 2003, a 6-speed SMT was an option. The SMT had no conventional H-pattern shift lever or clutch pedal. The driver could shift gears by tapping the shift lever forward or backward or by pressing steering-wheel mounted buttons. Clutch engagement is automatic, and the car will automatically shift to second and then first gear when stopping. Cruise control was never offered with the manual transmission, but was standard for SMT-equipped cars. The MR2 Spyder featured a heated glass rear window. A hard top was also available from Toyota in Japan and Europe. Production ended in 2007 and there was no direct successor.
I had a long chat with the owner of this car. He has spent a lot of money on getting it as original and as perfect as he can and he was saying how these cars are so treasured in Japan that getting any parts is now getting very difficult. The AE86 series of the Toyota Corolla Levin and Toyota Sprinter Trueno are small, front-engine/rear-wheel-drive models within the front-engine/front-wheel-drive fifth generation Corolla (E80) range—marketed by Toyota from 1983 to 1987 in coupé and liftback configurations. Lending themselves to racing, the cars were light, affordable, easily modifiable and combined a five-speed manual transmission, optional limited slip differential, MacPherson strut front suspension, high revving (7800 rpm), twin-cam engine with oil cooler (e.g., in the US), near 50/50 front/rear weight balance, and importantly, a front-engine/rear-drive layout—at a time when this configuration was waning industry-wide. Widely popular for Showroom Stock, Group A, and Group N, Rally and Club racing, the cars’ inherent qualities also earned the AE86 an early and enduring international prominence in the motorsport discipline of drifting. The AE86 was featured centrally in the popular, long-running Japanese manga and anime series titled Initial D (1995–2013) as the main character’s drift and tofu delivery car. In 2015, Road & Track called the AE86 “a cult icon, inextricably interwoven with the earliest days of drifting.” The AE86 would go on to inspire the Toyota 86 (2012–present), a 2+2 sports car jointly developed by Toyota and Subaru, manufactured by Subaru—and marketed also as the Toyota GT86, Toyota FT86, Scion FR-S and Subaru BRZ. In November 2021, Toyota temporarily restarted the production of a limited number of parts for the AE86, with dealers beginning to take orders for new steering knuckle arms and rear brake calipers. Rear axle half shafts have also been scheduled for new production. Toyota has also announced that this reboot is temporary, and parts will only be available as long as stocks last. The nameplate Trueno derives from the Spanish word for thunder, and Levin derives from the Middle English for lightning. In Japan, the Sprinter Trueno was exclusive to Toyota Japan dealerships called Toyota Auto Store, while the Corolla Levin was exclusive to Toyota Corolla Store. The name AE86 derives from Toyota’s internal code during the car’s development, designating the 1600 cc RWD model from the fifth generation of the Corolla. In Toyota’s code language, the “A” designates the car’s engine (4A series), “E” designates Corolla, “8” designates fifth generation (E80 series) and “6” designates the variant within this generation. The AE86 is also called the “Hachi-Roku (ハチロク)”, Japanese for “eight-six”. Similarly the AE85 was commonly called “Hachi-Go (ハチゴー)”, meaning “eight-five”. Bracketing a minor external facelift, models marketed between 1983 and 1985 are called “zenki” (前期, lit. early period), and those marketed from 1986 to 1987 are called “kouki” (後期, lit. latter period). In 1986, Toyota marketed a limited edition model of the AE86 as the “Black Limited” model. It was advertised as a limited-production model with only 400 units, and was based on the Kouki Sprinter Trueno GT-APEX 3-door liftback. The AE86 was available with a naturally aspirated 4A-GE 1,587 cc inline-four engine, a DOHC four-valve-per-cylinder motor, in Japan and Europe, which was also used in the first-generation MR2 G Limited (AW11), Corona GT (AT141), Celica 1600GT-R (AA63) and Carina 1600GTR (AA63) (Japan only) with a compression ratio of 9.4:1. It had a maximum SAE gross power output of 130 PS (128 bhp) at 6,600 rpm and 110 lb/ft (149 Nm) at 5,200 rpm of torque in standard form, though it was later down-rated to 120 PS (118 hp) and 105 lb/ft (142 Nm) in net output. The 4A-GE engines used in the AE86 and AW11 were also equipped with Denso electronic port fuel injection and T-VIS variable intake geometry. In North America, a modified 4A-GEC engine was used to comply with California emissions regulations. Power was rated at 112 hp (114 PS) and 100 lb/ft (136 Nm) of torque. The AE86 used ventilated disc brakes. The car was equipped with a MacPherson strut style independent suspension at the front and a four-link live axle with coil springs for the rear as well as stabilizer bars, front and rear, and an optional LSD. The AE86 came with a 5-speed manual gearbox, and later came with the option of an automatic. Higher-spec American AE86 models known as the Sport GT-S featured the DOHC 4A-GEC engine, four-wheel disc brakes, had a T-series 6.7″ differential, colour-matched bumpers, front lower bumper surround with a much more sporty and pronounced lip, moulded door panels, tachometer redline at 7500 rpm, leather-wrapped steering wheel, seats with leather-wrapped tops (front seats are completely different from Sport SR5), optional LSD, and aluminium wheels. The VIN of the GT-S is AE88 (for North American market cars), however the chassis code on the engine firewall remained as AE86. The Sport GT-S can also be identified by the “Q” identification on the 4th digit of the model code, found on the chassis plate. Lower-spec American AE86 SR5 models used the 1,587 cc 4A-C SOHC unit, The S-series rear end was a 6.38″ non-LSD with drum brakes. The SR5 model also had a softer suspension, and small styling and interior changes such as seats, gauge cluster, door panels, un-painted matte black front and rear bumpers, the lower part of the front bumper surround is shorter and flat, and its VIN differs as well, being AE86 for the SR5 model (for North American market cars). The SR5 can also be identified by the “X” identification on the 4th digit of the model code, found on the chassis plate. Another lower-spec American AE86 model was the base-model DX, which had the same 1,587 cc (1.6 L) 4A-C SOHC unit and 6.38″ non-LSD rear end with drum brakes as the SR5. It had a smaller center console, no rear sway bars, no air-conditioning, a very basic interior, and many options present on the GT-S and SR5 that were unavailable in the DX. The DX was an internal Toyota designation and was absent in advertising and brochures, as well as being more uncommon than the SR5 and GT-S. The VIN of the DX is AE85 (which is not to be confused with the Japan-only AE85), but as with the GT-S, the chassis code on the engine firewall remained as AE86. The DX can also be identified with the “D” identification on the 4th digit of the model code, found on the chassis plate. Models equipped with the 4A-GE engine received a 6.7 in (170 mm) T-series rear differential, while 3A-U (only offered on the AE85), 4A-U and 4A-C models received a smaller, weaker, 6.38 in (162 mm) S-series rear differential. The AE86 DX and SR5 (4A-C equipped) had an optional 4-speed automatic transmission alongside the 5-speed manual, however the GT-S model (with the 4A-GE DOHC engine) only came with a standard 5-speed manual gearbox. One of the staff who was behind the car’s engineering work was Nobuaki Katayama, who would later head the company’s motorsport department and who would become chief engineer of the Altezza project a decade later. He has a photo of an AE86 hung in his office. The Levin and Trueno featured fixed-headlights and retractable headlights respectively, with both available as hatchback or coupé. The export model name Corolla applies to both variations. The AE86 (along with the lower spec 1,452 cc AE85 and 1,587 cc SR5 and DX versions) was rear wheel drive, built on the rear wheel drive E70 Corolla platform (same wheelbase length, interchangeable parts, etc.), unlike the front wheel drive E80 models in the same range.
In September 1996, the X100 Chaser replaced the X90 Chaser. The product lineup consisted mostly of Avante and Tourer trim, with the Avante as the luxury model (with more interior accessories) and the Tourer as the sporty model (with large 16-inch wheels). Toyota’s VVTi, the company’s version of variable-valve timing, was added to the 1JZ engines; they were also upgraded to have more torque, since they had already reached the agreed voluntary limit set by Japanese Automobile Manufacturer’s Association regarding horsepower. The 1JZ-GTE was powered by a single turbo configuration instead of the twin turbo of its predecessors. New to the lineup was the Avante Four and the Avante Four G Package (basically the Avante 2.5 L with a full-time 4WD system). These cars were only available with a 4-speed electronic control type (ECT) automatic transmission. The Tourer V and the automatic-only Avante G 3.0 L (2JZ) models had the option of electronic control flex lockup attaching 4-speed automatic (intelligent) (ECT-iE) transmission, besides the ECT-E automatic in the lower-end models. In 1997, the lineup remained largely unchanged, although a basic Tourer 2.0 L model was added. The Tourer was powered by a 1G-FE engine, rated at 140 PS at 5,600 rpm. It was sold with only the 4-speed electronic control type (ECT) automatic transmission. In 1998, the base Tourer model received the optional manual gearbox and a 4WD option was added to the base Avante models; the Avante Four S Package received a higher special-edition interior. Additionally, the Chaser received a facelift, with the most significant changes to the rear tail lights. Other changes included new fog lights with a slightly redesigned front bar to accommodate them, different interior fabric, a 3-spoke steering wheel instead of 4 spokes, orange gauge lighting instead of white and a grille with 2 horizontal bars instead of 3. The Chaser was discontinued in June 2001. It was replaced with a new model called the Verossa which shared the same model code. The Cresta suffered the same fate, but the Mark II continued for another generation (X110) before it was also discontinued. In 2004, the all-new X120 Mark X was introduced in Japan, incorporating many characteristics of the Chaser and the Cresta. In fact, the aim of the Mark X was to combine the characteristics of the 3 models into one single model
Not surprisingly, there were several examples of the popular Yaris GR here.
TRIUMPH
The TR’s smaller and cheaper brother was the Spitfire and there was a nice Mark 3 model here. Based on the chassis and mechanicals of the Triumph Herald, the Spitfire was conceived as a rival to the Austin-Healey Sprite and MG Midget, which were launched a year earlier. The Triumph soon found a strong following, with many preferring it to the BMC cars which in time would become in-house stablemates. Mark II models arrived in 1965 and a more comprehensive facelift in 1967 with the distinctive “bone in mouth” front grille necessitated by US bumper height regulations also brought changes, but it was with the Mark IV that the greatest number of alterations would come about. The Mark IV featured a completely re-designed cut-off rear end, giving a strong family resemblance to the Triumph Stag and Triumph 2000 models, both of which were also Michelotti-designed. The front end was also cleaned up, with a new bonnet pressing losing the weld lines on top of the wings from the older models, and the doors were given recessed handles and squared-off glass in the top rear corner. The interior was much improved: a proper full-width dashboard was provided, putting the instruments ahead of the driver rather than over the centre console. This was initially black plastic however was replaced with wood in 1973. An all-new hardtop was also available, with rear quarter-lights and a flatter rear screen. By far the most significant change, however, was to the rear suspension, which was de-cambered and redesigned to eliminate the unfortunate tendencies of the original swing-axle design. The Triumph GT6 and Triumph Vitesse had already been modified, and the result on all these cars was safe and progressive handling even at the limit. The 75 hp engine was now rated at 63 hp (for UK market employing the 9:1 compression ratio and twin SU HS2 carburettors; the less powerful North American version still used a single Zenith Stromberg carburettor and an 8.5:1 compression ratio) due to the German DIN system; the actual output was the same for the early Mark IV. However, it was slightly slower than the previous Mark III due to carrying more weight, and employing a taller 3.89:1 final drive as opposed to the earlier 4.11:1. The engine continued at 1296 cc, but in 1973 was modified with larger big-end bearings to rationalise production with the TR6 2.5 litre engines, which somewhat decreased its “revvy” nature; there was some detuning, to meet new emissions laws, which resulted in the new car being a little tamer. With the overall weight also increasing to 1,717 lb (779 kg) the performance dropped as a consequence, 0 to 60 mph now being achieved in 15.8 seconds and the top speed reducing to 90 mph. The overall fuel economy also dipped to 32mpg. The gearbox gained synchromesh on its bottom gear. The Mark IV went on sale in the UK at the end of 1970 with a base price of £735. In 1973 in the United States and Canada, and 1975 in the rest of the world, the 1500 engine was used to make the Spitfire 1500. Although in this final incarnation the engine was rather rougher and more prone to failure than the earlier units, torque was greatly increased by increasing the cylinder stroke to 87.5 mm (3.44 in), which made it much more drivable in traffic. While the rest of the world saw 1500s with the compression ratio reduced to 8.0:1, the American market model was fitted with a single Zenith-Stromberg carburettor and a compression ratio reduced to 7.5:1 to allow it to run on lower octane unleaded fuel, and after adding a catalytic converter and exhaust gas recirculating system, the engine only delivered 53 bhp with a slower 0–60 time of 16.3 seconds. The notable exception to this was the 1976 model year, where the compression ratio was raised to 9.1:1. This improvement was short-lived, however, as the ratio was again reduced to 7.5:1 for the remaining years of production. In the UK the 9:1 compression ratio, less restrictive emissions control equipment, and the Type HS2 SU carburettors now being replaced with larger Type HS4 models, led to the most powerful variant to date. The 1500 Spitfire now produced 71hp (DIN) at 5500 rpm, and produced 82 lb/ft of torque at 3000 rpm. Top speed was now at the magical 100 mph mark, and 0 to 60 mph was reached in 13.2 seconds. Fuel economy was reduced to 29mpg. Further improvements to the suspension followed with the 1500 included longer swing axles and a lowered spring mounting point for more negative camber and a wider rear track. The wider, lower stance gave an impressive skid pad result of 0.87g average. This put the Spitfire head and shoulders over its competition in handling. The American market Spitfire 1500 is easily identified by the big plastic over-riders and wing mounted reflectors on the front and back wings. The US specification models up to 1978 still had chrome bumpers, but on the 1979 and 1980 models these were replaced by black rubber bumpers with built-in over-riders. Chassis extensions were also fitted under the boot to support the bumpers. Detail improvements continued to be made throughout the life of the Mark IV, and included reclining seats with “chequered brushed nylon centre panels” and head restraints, introduced for domestic market cars early in 1977 along with a new set of column stalk operated minor controls (as fitted already in the TR7) replacing the old dashboard mounted knobs and switches. Also added for the model’s final years were a wood dash, hazard flashers and an electric screen washer, in place of the previous manual pump operated ones. Options such as the hard top, tonneau cover, map light and overdrive continued to be popular, but wire wheels ceased to be available. The 1980 model was the last and the heaviest of the entire run, weighing 1,875 lb (850.5 kg). Base prices for the 1980 model year was £3,631 in the UK. The last Spitfire, an Inca Yellow UK-market model with hardtop and overdrive, rolled off the assembly line at Canley in August 1980, shortly before the factory closed. It was never sold and is now displayed at the museum at Gaydon.
Launched at the same time as the Rover 2000 was Triumph’s large saloon car, also called 2000. A replacement for the long running Standard Vanguard, this was the more sporting of the duo, with a subtly different appeal from the Rover. Between them, the cars defined a new market sector in the UK, promising levels of comfort and luxury hitherto associated with larger Rover and Jaguar models, but with usefully lower running costs and purchase prices, all in a modern package. Both added more powerful models to their range, with Rover going down the twin carburettor route, whilst in 1967, Triumph installed a larger 2.5 litre engine and the then relatively new fuel injection system, creating the 2.5PI, which is what was to be seen here. This Lucas system was not renowned for its reliability in the early days, but it did make the car rapid and refined. A facelift in 1969 brought new styling front and rear, which turned out to be a taster for a new grand tourer model which would emerge a few months later, and in this Mark 2 guise, the car was sold until 1977, in both saloon and estate guises. A mid range model, with twin carburettors but the larger engine, the 2500TC was introduced in 1974 and the 2500S arrived in 1975 with more power but also carb fed, to replace the troublesome and thirsty PI. These are the most sought after models now.
TVR
The Chimaera was originally intended to replace the Griffith but sufficient demand for both of the models led TVR continuing them. In 1994, TVR introduced the Chimaera 500, a high performance derivative of the Chimaera. The BorgWarner T5 manual transmission replaced the Rover LT77 unit on the rest of the range. A new alternator, power steering and a single Vee belt were fitted to improve reliability. The 4.3 litre engine option was replaced by the 4.0 litre High Compression option. The Chimaera was mildly updated in 1996. Updates included a rear bumper shared with the Cerbera, push button doors with the buttons located under the wing mirrors, a boot lid shared with the Cerbera and the replacement of the front mesh grille with a horizontal bar. The GKN differential was also replaced by a BTR unit. A 4.5 litre model was added to the lineup in 1997. It was originally intended to be fitted with the AJP8 V8 engine but due to the engine not being ready on time, a bored version of the Rover V8 was used instead. In 1998, the rear light styling and the number plate mounting angle was updated while the base 4.0 litre model was discontinued. In 2001, the Chimaera was again facelifted and now featured the Griffith’s headlights as well as seats from the Cerbera. The Chimaera was succeeded by the Tamora in 2002.
The Tuscan was launched in 2000, by which time there had been a series of what we think of as the modern era TVRs produced for nearly a decade, the Cerbera, Griffith and Cerbera. The Tuscan did not replace any of them, but was intended to help with the company’s ambitious push further up market to become a sort of Blackpool-built alternative to Ferrari. It did not lack the styling for the task, and unlike the preceding models with their Rover V8 engines, the new car came with TVR’s own engine, a straight six unit of 3.6 litre capacity putting out 360 bhp. The Tuscan was intended to be the grand tourer of the range, perfectly practical for everyday use, though with only two seats, no ABS, no airbags and no traction control, it was a tough sell on wet days in a more safety conscious world, but at least there was a removable targa top roof panel for those days when the sun came out. The car may have lacked the rumble of a V8, but when pushed hard, the sound track from the engine was still pretty special, and the car was faster than the Cerbera, but sadly, the car proved less than reliable, which really started to harm TVR’s reputation, something which would ultimately prove to be its undoing.
VAUXHALL
In April 1993, the Corsa B was unveiled and in the United Kingdom. Vauxhall dropped the Nova name, with the car from now being known as the Corsa. In May 1994, it was launched by Holden in Australia, as the Barina, replacing a version of the Suzuki Swift sold under that name. This proved a success, and was the first Spanish built car to be sold in significant volumes in the Australian market. Unlike the previous model, there was no saloon version for the European market, but one was designed in Brazil for the Latin American market, as saloons were much preferred to hatchbacks there. This was also introduced in South Africa and India. An estate car, panel van and pickup truck were also introduced, and a convertible version was produced for the Australian market, called the Holden Barina Cabrio. Chevrolet Corsa Sedan, Chevrolet Corsa Pick Up and Chevrolet Corsa Wagon were Designed by Wagner Montes Cla Dias in the GM Brasil Studios in São Caetano do Sul. Italy was the only European country where the Argentinian-built wagon version was offered, which meant that the Italian importer had to shoulder the entire cost of homologation. In Italy, the wagon was offered with a 1.4-liter 16-valve petrol engine or the 1.7-liter naturally aspirated diesel. The Corsa also spawned a small coupé, named the Opel Tigra. Four cylinder power came from 1.2, 1.4, and 1.6 litre Family 1 petrol engines, as well as an economical 1.5 L turbodiesel engine. Most cars received a five speed manual transmission, although a four speed automatic was also available with certain engines. In the first few years, a four speed manual was also available coupled to the smallest 1.2 litre engine. 1.0 L three cylinder and 1.2 L four-cylinder Family 0 economy version was launched in 1997, and a Lotus-tuned suspension was added as well as an exterior refresh. The third generation car was launched in 2000.
Opel chose to name its 1986 replacement car in this segment Omega rather than Rekord. Vauxhall stayed with the Carlton name. On its launch in November 1986 the Vauxhall Carlton / Opel Omega saloon and estate range earned itself the accolade of European Car of the Year – the second Vauxhall/Opel product to achieve this distinction, two years after the Astra/Kadett won the accolade. The Carlton (Omega B) shared its platform again with the Senator this time known in both Opel and Vauxhall forms by the same name: Senator. Interior dashboard and trim also differed The Senator body-shell was different between the B and C/D pillars and used different rear doors and a larger rear quarter-light, resulting in a higher roof-line at the rear, in order to give rear seat passengers slightly better headroom. This had a corresponding effect on drag, with the Carlton achieving 0.28cd against the Senator’s 0.30cd. The same GM V platform was also used in Holden variants and other GM products. Vauxhall scrapped the Carlton nameplate in early 1994, but the name of its Opel equivalent, the Omega, lived on, as it was applied to the Carlton’s replacement, the Opel Omega B1. Although the models had always shared the same platform, and the replacement was again based on the GM V Platform, GM had the Vauxhall equivalent adopt the Opel name (a drive towards homogenization of European market model names was taking place throughout the range) and so the Carlton’s replacement was sold as the Vauxhall Omega. There was no equivalent up-market Senator variant in the new range. All of the 4-cylinder engines available in the Carlton Mk II were the GM Family II units in 1.8L and 2.0L capacities. The Opel Omega A was offered with a large 2.4L Opel CIH engine in certain European markets, but this variant was never offered in the Carlton. New to the Carlton’s line-up with the Mark II were two straight-6 engines with 2.6 and 3.0–litres. These were both 12-valve engines, again from the Opel CIH family, but later 3.0-litre models were offered with 24-valves, producing much more power and torque. As well, Vauxhall used the “Dual-Ram” intake manifold, which lets the car breathe as two separate three-cylinder engines below 4,000 rpm, but changes the intake manifold profile at 4000 rpm to increase the runner length, thus increasing total engine output. In addition to the straight-6 engines there was a range of straight-4s. Starting with GMs popular 2-litre family 2 engine, the C20NE, with 115PS and 125lb.ft torque. There was also a 2.3 turbo diesel available with 100PS and 160lb.ft torque. In 1990, Vauxhall launched a high performance 377 bhp Lotus Carlton in collaboration with Lotus Cars. (An Opel version was also produced as the Lotus Omega.) It was built with a 3615 cc six-cylinder twin-turbo engine (designated C36GET) capable of over 176 mph (283 km/h), making it officially (for the time) the fastest full four-seater that had ever been made. It cost £48,000 – well over double the price of a standard Carlton. As a result, Vauxhall’s original plans to sell about 1,000 in the UK ended in 440 UK cars being sold. For those with less money there was the 3000GSi 24v, with a top speed of 146 mph (235 km/h). Prior to the Lotus tuned version, the range topper was the GSi 3000 upon which the Lotus Carlton was based. At launch in 1986 it had 177 bhp giving it a top speed of 134 mph (216 km/h). In 1990, power was increased by going from two valves per cylinder to four, creating a 24-valve engine, resulting in 204 bhp which allowed 0-62 mph to be dispatched in 7.6 seconds and increased the top speed to 149 mph (240 km/h). It was also available with an Automatic gearbox, which reduced the top speed to 146 mph (235 km/h) and increased the 0–62 mph time to 8.6 seconds. The Carlton Diamond 3.0 24v Estate was also made. Identical to the GSI but with an estate body shell, it sold in much more limited numbers (90) and so is a much rarer sight. In June 1992 two teams from Horley Round Table, Surrey, UK, set a Guinness World Record time of 77 hours 34 minutes, driving a total 6,700 km across the then 12 EC countries in two Vauxhall Carlton 24V 3000 GSi’s (J870 FFM and J751 DYC). The Carltons were provided by Vauxhall Motors and the record attempt was also supported by Mobil Oil and the Royal Automobile Club. By February 2016, just 468 examples of the Carlton were still on Britain’s roads, with most remaining examples believed to be the high performance 3000 GSi and Lotus versions of the MK2 model.
VOLKSWAGEN
Making its customary appearance here was “Eyore”, the name given by owner Beth Schofield to her very late model Type 2 VW. There were a couple of examples of the Type 2 “Bus”, the second generation of VW’s versatile van range, first seen in late 1967. It was built in Germany until 1979. In Mexico, the Volkswagen Kombi and Panel were produced from 1970 to 1994. Models before 1971 are often called the T2a (or “Early Bay”), while models after 1972 are called the T2b (or “Late Bay”). This second-generation Type 2 lost its distinctive split front windshield, and was slightly larger and considerably heavier than its predecessor. Its common nicknames are Breadloaf and Bay-window, or Loaf and Bay for short. At 1.6 litres and 47 bhp DIN, the engine was also slightly larger. The battery and electrical system was upgraded to 12 volts, making it incompatible with electric accessories from the previous generation. The new model also did away with the swing axle rear suspension and transfer boxes previously used to raise ride height. Instead, half-shaft axles fitted with constant velocity joints raised ride height without the wild changes in camber of the Beetle-based swing axle suspension. The updated Bus transaxle is usually sought after by off-road racers using air-cooled Volkswagen components. The T2b was introduced by way of gradual change over three years. The first models featured rounded bumpers incorporating a step for use when the door was open (replaced by indented bumpers without steps on later models), front doors that opened to 90° from the body, no lip on the front guards, unique engine hatches, and crescent air intakes in the D-pillars (later models after the Type 4 engine option was offered, have squared off intakes). The 1971 Type 2 featured a new, 1.6 litre engine with dual intake ports on each cylinder head and was DIN-rated at 50 bhp. An important change came with the introduction of front disc brakes and new roadwheels with brake ventilation holes and flatter hubcaps. Up until 1972, front indicators are set low on the nose rather than high on either side of the fresh air grille – giving rise to their being nicknamed “Low Lights”. 1972’s most prominent change was a bigger engine compartment to fit the larger 1.7- to 2.0-litre engines from the Volkswagen Type 4, and a redesigned rear end which eliminated the removable rear apron and introduced the larger late tail lights. The air inlets were also enlarged to accommodate the increased cooling air needs of the larger engines. In 1971 the 1600cc Type 1 engine as used in the Beetle, was supplemented with the 1700cc Type 4 engine – as it was originally designed for the Type 4 (411 and 412) models. European vans kept the option of upright fan Type 1 1600 engine but the 1700 Type 4 became standard for US spec models. In the Type 2, the Type 4 engine, or “pancake engine”, was an option for the 1972 model year onward. This engine was standard in models destined for the US and Canada. Only with the Type 4 engine did an automatic transmission become available for the first time in the 1973 model year. Both engines were 1.7 L, DIN-rated at 66 bhp with the manual transmission and 62 bhp with the automatic. The Type 4 engine was enlarged to 1.8 L and 67 bhp DIN for the 1974 model year and again to 2.0 L and 70 bhp DIN for the 1976 model year. The two-litre option appeared in South African manufactured models during 1976, originally only in a comparably well-equipped “Executive” model. The 1978 2.0 L now featured hydraulic valve lifters, eliminating the need to periodically adjust the valve clearances as on earlier models. The 1975 and later U.S. model years received Bosch L-Jetronic electronic fuel injection as standard equipment; 1978 was the first year for electronic ignition, utilising a hall effect sensor and digital controller, eliminating maintenance-requiring contact-breaker points. As with all Transporter engines, the focus in development was not on power, but on low-end torque. The Type 4 engines were considerably more robust and durable than the Type 1 engines, particularly in Transporter service. In 1972, exterior revisions included relocated front turn indicators, squared off and set higher in the valance, above the headlights. Also, square-profiled bumpers, which became standard until the end of the T2 in 1979, were introduced in 1973. Crash safety improved with this change because of a compressible structure behind the front bumper. This meant that the T2b was capable of meeting US safety standards for passenger cars of the time, though not required of vans. The “VW” emblem on the front valance became slightly smaller. Later model changes were primarily mechanical. By 1974, the T2 had gained its final shape. Very late in the T2’s design life, during the late 1970s, the first prototypes of Type 2 vans with four-wheel drive (4WD) were built and tested.
A popular classic now, this was a nice example of the first generation Golf GTi. The model was first seen at the Frankfurt Motor Show in 1975. The idea behind it was rather straightforward – take a basic-transportation economy car and give it a high-performance package, making it practical and sporty. It was one of the first small cars to adopt mechanical fuel injection, which meant that the 1588cc engine put out 110 bhp, a big increase on what was available in the regular Golf models, which, in conjunction with a light weight of just 810 kg, gave it a top speed of aorund 100 mph and a 0 – 60 time of 9 seconds, impressive figures in their day. Volkswagen initially built the GTI only for the home market of West Germany, but launched it onto the British market in 1977 in left-hand drive form, with a right-hand drive version finally becoming available in 1979 as demand and competition increased. Many regard the Golf GTI Mk1 as the first “hot hatch” on the market, it was in fact preceded by the Autobianchi A112 Abarth in 1971, although it would prove to be far more popular than the earlier car in the UK market since the A112 Abarth was never available in RHD. It also competed with a number of quick small saloons including the Ford Escort RS2000. When the Escort switched to front-wheel drive and a hatchback for the third generation model in 1980, Ford launched a quick XR3 model which was comparable to the Golf GTI in design and performance. The Golf GTI was among the first “hot hatch” with mass market appeal, and many other manufacturers since have created special sports models of their regular volume-selling small hatchbacks. Within a few years of its launch, it faced competitors including the Fiat Ritmo, Ford Escort XR3/XR3i, Renault 5 GT Turbo and Vauxhall Astra/Opel Kadett GTE. A five speed gearbox became available in 1981 and in 1982, the engine was enlarged to 1780cc, which increased the available power a little. The car proved popular in the UK from the outset, with over 1500 being sold in 1979. Although the subsequent recession saw new car sales fall considerably during 1980 and 1981, sales of the Golf GTI reached nearly 5,000 in 1981. This also came in spite of the arrival of a popular new British-built competitor – the Ford Escort XR3. By 1983, the GTI accounted for more than 25% of total Golf sales (some 7,000 cars).
Conceived as a replacement for the popular Beetle Cabrio, and at the time unique in the market place, a convertible version of the Golf was presented to Volkswagen’s management by coachbuilder Wilhelm Karmann GmbH as early as 1976. This early prototype lacked the roll-over bar of the later version, and had a flat body line in the rear, where the soft top folded down below the sill level. The production version of the convertible Golf was designated Type 155. In Europe and Canada it was called the Golf Cabriolet, while in the United States it was sold as the Rabbit Convertible until 1985, when it was also renamed “Cabriolet”. The Cabriolet was sold from 1980 to 1993. It had a reinforced body, a transverse roll-over bar, and a high level of trim. From stamping to final assembly the Mk1 Cabriolet was built entirely at the Karmann factory. Volkswagen supplied engines, suspension, and interior trim for Karmann to install. The tops, of vinyl or cloth, were heavily insulated, with a heated glass rear window. The top was raised and lowered manually until 1991, when it became electrically operated. The body of the Cabriolet did not change through the entire production run except for a larger fuel tank. It kept the pre-1980 style of rear lamp clusters. A space saver spare wheel was fitted from the outset, including 1978 pre-production models, unlike the saloon which did not adopt this until 1984. All Cabriolets from 1988 on left the factory fitted with a “Clipper” bodykit that featured smooth body-coloured bumpers, wheel-arch extensions, and side skirts. Prior to the 1984 model year the highest standard specification Cabriolet was the GLI, which was essentially a GTI in all but name. It was only in late 1983 with the introduction of the 1984 model that an officially badged GTI version of the cabriolet finally became available.
The third generation Passat was introduced in March 1988 in Europe, 1990 in North America, and 1995 in South America. The lack of a grille made the car’s front end styling reminiscent of older, rear-engined Volkswagens, such as the 411, and also doubled as a modern styling trend. The styling was developed from the 1981 aerodynamic (cd 0.25) Auto 2000 concept car. At the time, it was the first transverse engine layout Passat to be built on a Volkswagen-designed platform, rather than sharing one with an Audi saloon. The car, although designated B3 in Volkswagen’s platform nomenclature, was based largely on the A platform as used for the smaller Golf model, but was stretched in all directions, and therefore had no connection with the B3 series Audi 80, launched two years earlier. Many components are shared directly between these vehicles. This generation of Passat was sold as a four-door saloon or a five-door estate, with the Passat not being sold as a hatchback from this point onwards. It was marketed under the Passat name in all markets; in North America, this was a first. The fuel-injected petrol engines gave better performance and refinement than the carburettor units previously used. They were mounted transversely, and the floorpan was engineered to accept Volkswagen’s ‘Syncro’ four-wheel drive system. Engine options were the 2.0-litre 16-valve engine in the GL model, 1.8-litre engine in the CL model (not available in North America, all CLs, GLs, and GLSs had the 2.0 16v), The 1.8 8v 112 bhp PB engine from the Golf GTi was also used in the Passat GT model. Volkswagen’s new 2.8-litre VR6 engine (also used in the Golf and Corrado) in the GLX/GLS model (introduced in 1991 in Europe and 1992 in North America), and the G60 engine (only available on the Syncro model in Canada for the North American market). The VR6 engine gave the top-of-the-range Passat a top speed of 224 kilometres per hour (139 mph). The 1.9-litre and the 1.6-litre diesel engine were also available as options. The B3 Passat was heavily facelifted in 1993, and despite being designated B4, it was not an all-new model.
As with the Mk2 Golf, Volkswagen did not make a convertible version of the Mk4 Golf. Instead, they facelifted the front bumper, fenders, hood, and headlights of the Mk3 Golf Cabrio to resemble the styling of the Mk4 Golf (colloquially referred to as the Mk3.5). Changes to the rear included a redesigned hatch, which moved the number plate tub to a restyled rear bumper, in addition to a handle and larger VW emblem more closely resembling the rear of a Mk4 Golf. VW incorporated other non-structural parts from the Mk4 as well, such as fender repeaters, grille, side mirror caps, etc. The interior remained largely similar to the Mk3 interior save for a Mk4 style three-spoke leather steering wheel and airbag, a textured dashboard (also known as “dimpled dash” or “shark skin dash”), heavily bolstered front seats with incorporated side airbags, and a chromed finish on several parts, such as the inner door handles, emergency brake button, door strikers, front seat-belt anchors, key lock cylinders, and shifter button in automatic transmission equipped cars. The instrument panel was updated with a relocated hazard light switch and blue and red backlighting, as found in the Mk4. Technical updates include the immobilizer and engine computer from the Mk4 Golf being retrofit to the older Mk3 engine mechanicals.
VOLVO
Many would doubtless walk by this car without realising that it is rather rare, as the V8 badge on the grille would evidence. The second generation S80 was unveiled at the 2006 Geneva Motor Show on 28 February, with sales beginning in June 2006. It was offered with newly-designed 3.2-litre straight-six or 4.4-litre V8 engine options, in combination with available four-wheel drive. The second-generation S80 is the first Volvo saloon model to become available with Volvo’s compact, transversely fitted B8444S V8 with a power output of 315 PS and 440 Nm (325 lb/ft) of torque developed jointly by Volvo Cars engine unit Skövde and Yamaha, but built by Yamaha of Japan. The engine features four catalytic converters and advanced electronics. Designed primarily for markets outside Europe, the V8 engine was not particular popular and was only offered for a couple of years, making it very rare.
This event saw a bumper turn-out. For the organisers and marshalls challenged with trying to pack everyone into the site, it was probably with some relief that some of the early arrivals decided to leave after a couple of hours, as this created the much needed space for cars that were still turning up. By all accounts, this is the busiest QS meet there has ever been at Easter Compton, and it really does show that in the minds of the car enthusiast there is no such thing as a “closed season”, as, especially, if the weather is good, they will simply find an event that is taking place and go to it. Let’s see what December brings!
