Such are the array of events on offer that my diary gets very full, meaning that there are lots that I simply can’t fit in. Even though they are local to where I live, the monthly Queen Square Breakfast Club meets come in that category. It’s been several years since this event outgrew the available space in the eponymous Queen Square in central Bristol and for the last few years, it has been held at a variety of locations in the Bristol area, where more space is on offer. The organiser, Dan Grazier, puts a huge amount of effort into every event, so there’s rather more to them than just simply announcing a date and a location – though even securing the location itself requires work, especially where the Council owns the land and has all manner of forms and risk assessments and other things to fill in before giving the go-ahead. Photos from the events show that there are a lot of event regulars, but there are also plenty of cars that stage a one-off appearance. Finally, with the October 2021 event being held on a Saturday rather than a Sunday, I spotted a gap in my diary and decided to pop along. I must admit, that with a truly dire looking weather forecast, I did wonder about it, but on the day in question, although it was raining hard when I got up, the forecasters suggested that by 9am there would be unbroken sunshine. I decided to give it a go and made the short journey to the location for this particular event, Eastwood Park, which is situated just off junction 14 of the M5, and easy to get to. There were plenty of cars already parked up when I arrived and more turned up in the following minutes. Here is what I saw there:

ABARTH

I did promote the event on Abarth Owners Club and the recently formed Abarth Three Counties Group and several people signed up. We arranged a rendez-vous point a couple of miles away, which is where I first went. And waited, and waited………….. and waited. No-one turned up, so I decided that i would simply head onto the event, which proved to be a good call, as all those others who had said they would come clearly saw the early rain and decided to stay at home. So for most of the morning, mine was the only Abarth present.

Late in the morning, after a lot of the cars had gone, a second Abarth did arrive, This is the much modified Abarth Grande Punto of Gavin Jenkins, who lives relatively locally, just the other side of the Bridge. 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 13th birthdays, and some have amassed relatively big mileages, but they are still a car for the cognoscenti. Gavin’s car is heavily modified both mechanically and visually.

ALFA ROMEO

The Alfa Romeo MiTo (Type 955) is a front-wheel drive, three-door supermini designed by Centro Stile Alfa Romeo and presented in 2008 at Castello Sforzesco in Milan with an international introduction at the British Motor Show in 2008. The new car was provisionally named the “Junior”. In November 2007, Alfa Romeo launched a European public naming competition; the winner from each country to win an Alfa Romeo Spider or an Alfa Romeo mountain bike. The winning name was “Furiosa”, which scored well in Italy, France, United Kingdom and Germany, but not in Spain. In 2008, Alfa Romeo announced “MiTo” as the official name, a portmanteau of Milano (Milan) & Torino (Turin), because it was designed in the former and was assembled in the latter. The name is also a play on the Italian word “mito”, meaning “myth” or “legend”. The MiTo is front-wheel drive, with a system allowing the driver to choose three driving settings: Dynamic, Normal, and All-Weather. The system, marketed as “Alfa DNA,” tunes the behavior of the engine, brakes, steering, suspension and gearbox. The MiTo also features LED tail lights and 250-litre (8.8 cu ft) of luggage space. The MiTo also features a Q2 electronic differential on the front wheels, which is active with the DNA switch in Dynamic position, and allows for faster and tighter cornering without loss of traction. In 2010 a new transmission for the MiTo was unveiled at the 2010 Geneva Motor Show, the six-speed TCT which is produced by Fiat Powertrain Technologies in Verrone (TCT Dual Dry Clutch Transmission). Magneti Marelli delivers the control system which integrates BorgWarner’s hydraulic actuation module into its own power and transmission control units. It can handle torque inputs of up to 350 N⋅m (258 lbf⋅ft) In Geneva was also unveiled Blue&Me–TomTom, this new system integrates TomTom navigation to the Blue&Me infotelematic system. At its launch the MiTo featured low-displacement turbocharged petrol and diesel engines. Also, a power limited 78 bhp naturally aspirated engine variant is produced to meet the new Italian legislation for young people. MiTo got new electro-hydraulic valve control system Multiair engines from September 2009. MultiAir engines will increase power (up to 10%) and torque (up to 15%), as well as a considerable reduction in consumption levels (up to 10%) and CO2 emissions (up to 10%), of particulates (up to 40%) and NOx (up to 60%). This new engine is available with 104 bhp,133 bhp and 168 bhp power ratings. All multiair versions have start-stop system as standard. In October 2009 was unveiled a dual fuel MiTo version, this version can run with LPG (Liquefied petroleum gas) or petrol, with this engine MiTo has range of 1,200 km (750 miles). The LPG version is made in collaboration with Landi Renzo. In Summer 2010 Alfa introduced the Dual Dry Clutch Transmission called Alfa TCT ( i.e. Twin Clutch Transmission ). From model year 2011 the start-stop system came as standard on all versions. At the 2011 Frankfurt Motor Show, AR introduced two new engines for the MiTo – The 0.9 L I2 TwinAir and a new low emission 85 PS version of the 1.3 JTD diesel engine. The Quadrifoglio Verde (green four-leaf clover) has traditionally been the highest line of Alfa Romeo models. The car (see Alfa Romeo in motorsport article for the history of this emblem) version of Mito was presented at the 2009 Frankfurt Motor Show. The QV version has the new 1.4 litres (1,368 cc) Turbo Multiair inline-four engine 168 bhp at 5500 rpm and 250 Nm (184 lb/ft) of torque at 2500 rpm, with newly engineered suspension, steering and new six-speed C635 gearbox developed by Fiat Powertrain Technologies (FPT). Its specific output of 124 PS per litre was highest in its segment at that time. The new multiair technology allows fuel consumption of 6 l/100 km (47 mpg) in EU combined driving and CO2 emissions of 139 g/km. QV had bigger 305 mm front brake discs and exclusive 18″ alloy wheels as standard and Sabelt carbon fibre backed bucket seats as an option. From 2014 QV was now available with TCT robotised gearbox which brought down the 0–100 km/h time to 7.3 s. With the 2016 facelift, the QV was renamed as the Veloce. For model year 2014, the MiTo got a new 105 PS 0.9 L Turbo TwinAir engine, new chrome-plated grille, new Anthracite grey colour and new burnished front light clusters. The car interior was also updated with new upholsteries, three new dashboards looks, as well as the new Uconnect 5.0 infotainment systems. The engine range now consists two turbo diesel engines (the updated E5+ 85 PS 1.3 L JTDM and the 120 PS 1.6 L JTDM) and five petrol engines: the 70 PS 1.4, the 78 PS 1.4, the 135 PS 1.4 MultiAir Turbo (with manual or Alfa TCT Dual Dry Clutch Transmission) and the 170 PS 1.4 MultiAir Turbo. The range has also 120 HP 1.4 LPG Turbo option. Debuting at the 2016 2016 Geneva Motor Show, the revised Mito featured a facelifted front fascia with a new updated brand logo and new lettering. Trim line up was changed to Mito, Super and Veloce. A new body colour and new rims designs also became available. The previous MiTo QV became the Mito Veloce, available with 170 PS engine and TCT transmission. The MiTo was marketed across a single generation from 2008 to 2018, sharing the Fiat Small platform with the Fiat Grande Punto. Production reached 293,428 at FCA’s Mirafiori plant.

ALPINA

Representing the E30 generation of 3 series was this Alpina C2 2.7. The first C2 combined the wider bore of the M20B25 with the slightly larger 76.8 mm crankshaft of an M20B23, to create a torquier engine of 2552 cc. This version put out 185 PS and 265 Nm (195 lb/ft), 74 units were built between 1985 and November 1986. After the C2 2.7 appeared in the spring of 1986, the 2.5 was slightly upgraded and gained 5 horsepower. However, to indicate its “little brother” position in the lineup, the name was changed to C1 2.5. When the September 1987 facelift model of the E30 was introduced, the 2.5 litre C1 was discontinued, although a few cars were finished into 1988. The larger yet 2.7 litre unit was introduced in February 1986 in uncatalyzed C2/1 form. This engine, sharing the dimensions of the M20B27, develops 210 PS at 5800 rpm and shows what the engine was really capable of. Originally installed in the E30-based Alpina C2 2.7, with available four-wheel drive, the catalyzed C2/2 appeared in the interim C2 2.7 Kat in March 1987. This was then renamed “B3 2.7” five months later, by which time the “C2” labelled cars were discontinued. The B3 2.7 continued to be available until June 1992, in all body variants and drivetrain configurations (excepting automatics) in which the E30 was offered. Around 1986, 67 “B6 2.7”-labelled C2-engined E30s were built for export to Japan, where the larger 3.0 L B6 3.5 had a hard time passing emissions regulations. Aside from the C2 drivetrain, the B6 2.7 is cosmetically identical to the B6 3.5. Later C2 2.5 models (C2 /3 2.5) were based on the 325i. Alpina used the M20B25 engine with very few modifications compared to earlier models. Again the cylinder head was decked to increase compression ratio, and it was ported and polished. The ECU was also remapped. Max power is 188 bhp, with 235 N⋅m (173 lb⋅ft) of torque. 0–100 km/h (62 mph) was achieved in 7.2 seconds. Top speed is 220 km/h (137 mph). Only 50 cars were built. The C2 /1 2.7 used the 325e eta model engine block, crank and rods, but with custom flat head pistons provided by Mahle. Originally Alpina modified the “200” casting number cylinder head specific to the 325e with bigger intake valves, larger air intake ports, and redesigned the valve chamber for better flow. A more aggressive camshaft was used, with higher lift and duration, and harder valve springs were installed. Compression ratio was increased to 10.2:1. The C2/1 2.7 made 210 bhp with 267 Nm (197 lbft) of torque and was the fastest E30 available at the time with a (227 km/h (141 mph) top speed. 108 cars were built. Later C2 /2 2.7 (and early 1987 B3 2.7) used the M20B25 block with ETA (325e) crank and rods. The intake manifold was also redesigned for better flow. The head was decked to improve compression ratio (10.1:1 for models with the 731 head, 9.6:1 for later “885” head models with catalytic converter) and matched with custom pistons – flat Mahle pistons for engines equipped with the 731 head, and domed KS pistons for engines equipped with the 885 head. Larger throttle bodies were installed (the C2/2 version uses the same throttle body as the M20B25 325i). The C2/2 2.7 makes 204 bhp and 266 Nm (196 lb/ft) of torque. Top speed is 224 km/h (139 mph) and 0–100 km/h (62 mph) is achieved in 7.5 seconds. A total of 309 cars were built between 1986 and 1987.

The B10 3.5 was the first Alpina based on the BMW E34, With production beginning in April 1988 at launch it was the only available B10. The 3.5-litre BMW M30 inline-six cylinder engine of the BMW 535i was reworked with Mahle pistons, a modified cylinder-head, and a new camshaft increasing power from 208 bhp to 251 bhp. In 1992 production was stopped after 572 cars were made.

ASTON MARTIN

There were a trio of Aston Martin models parked together in the courtyard, with the latest Vantage and DBS Superleggera joined by an earlier Vantage.

AUDI

Sole Audi that I spotted – slightly surprisingly, perhaps – was this one.

BMW

The BMW Z3 is a range of two-seater sports cars which was produced from 1995 to 2002. The body styles of the range are: 2-door roadster (E36/7 model code) and 2-door coupé (E36/8 model code). The Z3 was based on the E36 3 Series platform, while using the rear semi-trailing arm suspension design of the older E30 3 Series. It is the first mass-produced Z Series car. Development on the roadster began in 1991 and was led by Burkhard Göschel. The exterior was designed by Joji Nagashima, being completed in mid-1992 at 39 months before production and the design was frozen in 1993. Design patents were filed on April 2, 1994 in Germany and on September 27, 1994 in the US. The Z3 was introduced via video press release by BMW North America on June 12, 1995. Production began on September 20, 1995. Development on the coupé model was run by a group of BMW engineers outside of work in their own time. The Z3 Coupé shares the same platform and parts with the roadster, but features a chassis-stiffening hatch area and is 2.7 times stiffer in comparison. The Z3 Coupé was unveiled at the 1997 Frankfurt Motor Show. The Z3 was the first BMW model to be solely manufactured outside of Germany. It was manufactured in Greer, South Carolina. The 4-cylinder models feature a single tailpipe, while 6-cylinder models have dual tailpipes, wider rear fenders (for pre-facelift models) and a revised front bumper. M models featured the same wider fenders as the 6 cylinder models but with unique front and rear bumpers, side mirrors and the M division’s first use of a quad exhaust pipe arrangement. The 1.8, 2.0, and 2.2i models were unavailable in the United States, though the U.S. was the only market to receive the 2.3 and 2.5 models. M models were introduced in 1998 in roadster and coupé body styles and were powered by the S50, S52, or S54 straight-six engine depending on country and model year. The M models came with a 5-speed manual transmission. Production ended on June 28, 2002, with the Z3 line replaced by the E85 Z4.

BUICK

This is a 1970 Electra Hardtop. All GM passenger vehicles received a major redesign in 1965 dominated by flowing “Coke bottle” lines and fastback roof profiles on its coupe models, and the 6 window-body style was eliminated. For 1965, Buick also changed its marketing strategy and offering the Electra 225 in two trim levels, base and Custom. Along with the new body came a new chassis with a full perimeter frame including side rails that replaced the previous “X” frame used since 1961. Engine offerings were unchanged from 1964 including the standard 325 bhp 401 V8, and two versions of the larger 425 V8 that were rated at 340 bhp with a four-barrel carburettor or 360 bhp with two four barrels. The three-speed Super Turbine 400 automatic transmission was standard equipment. A new body style introduced for 1965 was the thin-pillar 4-door sedan, which featured frameless window glass with a thin, chrome fixed “B” pillar. The 1966 Electra 225 saw only minor styling changes including a new grille and a revised full-width taillight and trunk lid that included an “Electra 225” script rather than the “BUICK” nameplate spelled out in 1965. Engine offerings were unchanged from 1965 with the exception that the dual-quad 360 bhp 425 was downgraded from a factory option to dealer-installed. Inside, a revised instrument panel featured a horizontal sweep speedometer, fuel gauge and warning lights. Front seat headrests became an option. A moderate facelift highlighted the 1967 Electra 225 including a Pontiac/Oldsmobile-like divided split grille. Both base and Custom models were continued with a new “Limited” option package available Electra 225 Custom 4-door hardtop reviving a nameplate that graced Buick’s ultra-luxury flagship in the late 1930s (and again in 1958), which included an ultra-luxurious interior trim. Under the hood a new 430 cubic-inch V8 rated at 360 bhp with four-barrel carburettor replaced the previous “Nailhead” 401 and 425 V8s. Power front disc brakes were available as a new option along with a stereo 8-track tape player. The 1968 Electra 225 received a revised grille and taillight trim along with concealed windshield wipers. Inside, there was a revised instrument panel with a square speedometer and other instruments, plus a new steering wheel. Shoulder seat-belts were standard for both the driver and front passenger. Base and Custom models were still offered, with the Limited trim option available on the Electra 225 Custom hardtop sedan. 1969 brought a major restyling to the Electra 225 and other GM B-body and C-body cars with somewhat crisper bodylines than 1965–68 models, but continued with the same chassis and inner body structure introduced with the 1965 model, however the wheelbase was increased one inch to 127 in (3,226 mm). The 1969s were also the first to offer headrests as standard equipment due to a federal safety mandate, and the steering column with ignition switch that also locked the steering wheel with the transmission in “Park”, a feature found on all 1969 GM cars one year before it became a federal safety mandate in 1970. Also new was a variable-ratio power steering system combined with revised front suspension tuning called “Accu-Drive.” Other changes included ventless front windows. The same assortment of base and Custom models were offered in 1969 with the “Limited” trim package available on Custom sedans and coupes. A new option available with the Limited package was a split 60/40 bench seat with center armrest. Finned aluminum drum brakes were again offered as standard equipment, while the Bendix four-piston disk brake units were also available. 12″ x 1″ vented steel rotors were coupled with the cast iron caliper assemblies. A dual exhaust was available as an option. Five different rear axles were available: a 2.56 Economy as well as 2.73, 3.08, 3.23:1 gear ratios. The special PX-Code “AC Delete” 3.91 performance gear option was also available. The standing quartermile was completed in 15.5 seconds at a terminal velocity of 90 mph (145 km/h) for the dual exhaust engine with the 2.73 gear ratio in a 4,700 lb (2,132 kg) Custom Convertible. Only a minor facelift with revised grille and taillight trim marked the 1970 Electra 225. The big news was under the hood, where a new 370 hp 455 cubic-inch V8 replaced the 430 V8 used from 1967 to 1969. This was the final year for the Electra convertible, finned aluminum brake drums and high compression engines. New this year was a concealed radio antenna, which amounted to two wires embedded in the windshield. Also new for 1970 was the Estate Wagon, which shared the Electra’s 455 V8 and four VentiPorts, but was a B-body car like the LeSabre and the Wildcat and consequently shared the smaller cars’ 124.0-inch (3,150 mm) wheelbase and interior. This was Buick’s first full-sized station wagon since 1964. The following year the Buick Estate would move up to Electra’s larger body and more voluminous interior.

FERRARI

An all new design, the 458 Italia was first officially unveiled at the 2009 Frankfurt Motor Show. Once more, Ferrari advised that the model incorporated technologies developed from the company’s experience in Formula 1. The body computer system was developed by Magneti Marelli Automotive Lighting. The 458 came with a 4,499 cc V8 engine of the “Ferrari/Maserati” F136 engine family, producing 570 PS ( 562 hp) at 9,000 rpm and 540 N·m (398 lb/ft) at 6,000 rpm with 80% torque available at 3,250 rpm. The engine featured direct fuel injection, a first for Ferrari mid-engine setups in its road cars. The only transmission available was a dual-clutch 7-speed Getrag gearbox, in a different state of tune shared with the Mercedes-Benz SLS AMG. There was no traditional manual option, making this the fourth road-car after the Enzo, Challenge Stradale and 430 Scuderia not to be offered with Ferrari’s classic gated manual. The car’s suspension featured double wishbones at the front and a multi-link setup at the rear, coupled with E-Diff and F1-Trac traction control systems, designed to improve the car’s cornering and longitudinal acceleration by 32% when compared with its predecessors.The brakes included a prefill function whereby the pistons in the calipers move the pads into contact with the discs on lift off to minimise delay in the brakes being applied. This combined with the ABS and standard Carbon Ceramic brakes caused a reduction in stopping distance from 100–0 km/h (62-0 mph) to 32.5 metres. Ferrari’s official 0–100 km/h (62 mph) acceleration time was quoted as 2.9–3.0 seconds with a top speed of 340 km/h (210 mph). In keeping with Ferrari tradition the body was designed by Pininfarina under the leadership of Donato Coco, the Ferrari design director. The interior design of Ferrari 458 Italia was designed by Bertrand Rapatel, a French automobile designer. The car’s exterior styling and features were designed for aerodynamic efficiency, producing a downforce of 140 kg (309 lb) at 200 km/h. In particular, the front grille features deformable winglets that lower at high speeds, in order to offer reduced drag. The car’s interior was designed using input from former Ferrari Formula 1 driver Michael Schumacher; in a layout common to racing cars, the new steering wheel incorporates many controls normally located on the dashboard or on stalks, such as turning signals or high beams. At launch the car was widely praised as being pretty much near perfect in every regard. It did lack a fresh air version, though, but that was addressed with the launch of the 458 Spider at the 2011 Frankfurt Motor Show. This convertible variant of the 458 Italia featured an aluminium retractable hardtop which, according to Ferrari, weighs 25 kilograms (55 lb) less than a soft roof such as the one found on the Ferrari F430 Spider, and can be opened in 14 seconds The engine cover was redesigned to accommodate the retractable roof system. It had the same 0–100 km/h time as the hard-top but a lower top speed of 199 mph. It quickly became the better seller of the two versions.

Also here was Mat Dunn’s recently acquired and rather splendid F12 Berlinetta

FORD

The Bullitt Mustang returned for the third time for the 2019-2020 model years. It was revealed on stage during the 2018 North American International Auto Show alongside the one of the original surviving vehicles from the 1968 film. Molly McQueen, Steve McQueen’s granddaughter was the presenter on stage. The s550 variant of the Bullitt was offered in either its signature Dark Highland Green or in Shadow Black paint and had unique exterior features such as: 19″ black Torq-Thrust style wheels, spoiler delete, removed badges and a chrome trim along its side windows and front grille. The faux gas cap was back as was the white cue ball style shifter knob. Performance-wise, the Bullitt came equipped with the Gen 3 Coyote V8 but with the intake manifold, throttle body and airbox from the Shelby GT350 that helped the engine to produce an additional 20 horsepower over the GT at 480. The engine was only offered with the MT-82 6-speed manual transmission. Lastly, the active-valve exhaust was tuned to produce a sound more reminiscent of the movie car. The car proved very popular.

HYUNDAI

Recently released, the i20N is a direct competitor to the popular Ford Fiesta ST and the early reviews suggest that Hyundai has hit the proverbial bulls eye with a car that is fun to drive and good to own. This is the first one I have seen in the metal.

JAGUAR

A number of Jaguar models were grouped together in the Courtyard area.

The XF was developed at Jaguar’s Whitley design and development HQ in Whitley, Coventry and was built at Castle Bromwich Assembly facility in Birmingham. Initially, the XF was planned to use an all aluminium platform but due to time constraints put by Jaguar’s board on the development team, the X250 makes use of a heavily modified Ford DEW98 platform. The XF was launched at the 2007 Frankfurt Motor Show, following the public showing of the C-XF concept in January 2007 at the North American International Auto Show. Customer deliveries commenced in March 2008, with a range of V6 and V8 engines. Designed by Jaguar’s design director Ian Callum, the styling incorporates an oval mesh grille recalling the original XJ of 1968. The boot lid retained the S-Type’s chromed blade to its edge and included a “leaper” hood ornament. The XF was launched with a variety of trims called, depending on country, ‘SE’, ‘Luxury’, ‘Premium Luxury’ (or ‘Premium’), ‘Portfolio’ (or ‘Premium Portfolio’), ‘SV8’ (or ‘Supercharged’) and ‘R’. For the UK market, company car-friendly ‘Executive Edition’ and ‘SE Business’ models with a lower tuned versions of the 3.0 L and 2.2 L diesel engines respectively were available. The interior included air conditioning vents which are flush-fitting in the dash, rotating open once the engine is started, and a rotating gearshift dial, marketed as JaguarDrive Selector, which automatically elevates from the centre console. Another departure from the traditional Jaguar cabin ambiance is the use of pale-blue backlighting to the instruments, switchgear, and around major control panels. Some minor systems, such as the interior lighting, are controlled by touching the light covers. The glove compartment also opens to the touch. The XF has no cloth interior option, with all trim levels featuring leathers. Wood veneers are available along with aluminium, carbon fibre and piano black lacquer trims. The XFR was announced at Detroit’s North American International Auto Show in January 2009 as a new performance derivative of the XF range, and featured the new 5.0-litre supercharged AJ-V8 Gen III engine rated at 503 bhp, a revised front bumper and spoiler and 20-inch (508 mm) alloy wheels.

Few would have guessed that the XJS would run for over 20 years, but eventually it came time for its replacement, and the car charged with so doing was the XK8. Development began in 1992, with design work having starting earlier, in late 1991. By October 1992 a design was chosen and later frozen for production in 1993. Prototypes were built from December 1993 after the X100 was given formal approval and design patents were filed in June 1994. Development concluded in 1996, at which point the car was launched. The first-generation XK series shares its platform with the Aston Martin DB7, and both cars are derived from the Jaguar XJS, though the platform has been extensively changed. One of the revisions is the use of the second generation of Jaguar’s independent rear suspension unit, taken from the XJ40. The XK8 was available in coupé or convertible body styles and with the then new 4.0-litre Jaguar AJ-V8 engine. In 1998 the XKR was introduced with a supercharged version of the engine. 2003 the engines were replaced by the 4.2-litre AJ34 engines in both the normally aspirated and supercharged versions. Equipment levels were generous and there was a high standard of fit and finish. Both models came with all-leather interior, burl walnut trim, and side airbags. Jeremy Clarkson, during a Top Gear test-drive, likened the interior of the original XK8 to sitting inside Blenheim Palace. The model ran for 10 years before being replaced by the X150 model XK.

Final Jaguar models here were a couple of examples of the latest sports car, the F Type.

LAMBORGHINI

The Aventador SVJ is the fastest Lamborghini you can buy new. With 759bhp and 531lb ft on tap, the SVJ (Superveloce Jota) matches the power output of the ultra-low-volume Centenario and is 29bhp more powerful than the Aventador S. This power figure is produced by a tuned version of Lamborghini’s naturally aspirated 6.5-litre V12 and is transmitted to the road through all four wheels. Four-wheel steering is also fitted, as per the Aventador S, but the SVJ builds upon the standard car’s agility with a second generation of its active aerodynamics system (ALA 2.0), with improvements over the first system including redesigned air inlets and aero channel designs. The system aided the SVJ in lapping the Nürburgring circuit in 6min 44.97sec – a new record for a production car. Lamborghini claims the SVJ’s downforce is 40% greater than that of the Aventador SV – its former performance flagship. Larger side air intakes, a huge rear wing, tweaked underbody with vortex generators and prominent rear diffuser and aerodynamic bodywork at the front help to achieve the improved aero figure. The chassis is tweaked for additional stiffness – a 50% stiffer anti-roll bar compared with the Aventador SV has been fitted, while the suspension’s damping force range is increased by 15% over the SV. Other tweaks to the suspension are claimed to improve the car’s on-track stability. A re-engineered exhaust system reduces back pressure and has been fettled to produce a “more emotive’ sound, as well as being lighter than the standard set-up, with higher exit points. Also among the mechanical upgrades is a tweaked seven-speed automated manual gearbox, while the four-wheel drive system now sends 3% more torque rearwards. The stability control and ABS systems are tweaked to accommodate the greater grip provided by the active aerodynamics. The car’s exclusive aluminium Nireo wheels are shod in specially made Pirelli P Zero Corsa tyres and are stiffer, with a bespoke tread design for the Aventador SVJ. Lamborghini plans to build 900 SVJs, with UK prices starting at around £356,000 when deliveries begin in early 2019. An additional 63 units will be produced in 63 Edition guise, of which the Pebble Beach reveal car is one, celebrating the brand’s 1963 inception. These feature a bespoke colour and trim and will carry a higher price tag than the regular SVJ.

Newest Lamborghini is the Huracan. Replacing Lamborghini’s sales leader and most produced car, the Gallardo, the Huracán made its auto show debut at the March 2014 Geneva Auto Show, and was released in the second quarter of 2014. The name of the Huracan LP 610-4 comes from the fact that this car has 610 metric horsepower and 4 wheel drive. Huracán (huracán being the Spanish word for hurricane) is inspired by a Spanish fighting bull. Continuing the tradition of using names from historical Spanish fighting bulls, Huracán was a bull known for its courage that fought in 1879. Also Huracan is the Mayan god of wind, storm and fire. Changes from the Gallardo included full LED illumination, a 12.3 inch full-colour TFT instrument panel, Fine Nappa 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 brake system, optional Lamborghini Dynamic Steering variable steering system and MagneRide electromagnetic damper control. In early 2015, the Huracán appeared on Top Gear. It got a neutral review from Richard Hammond who said that it was too tame to be a “proper Lamborghini.” However, it got around the Top Gear test track in 1:15.8 which is faster than any other Lamborghini to go around the track to date, including the Aventador. Now it has been available in the UK for some a couple of years, there are now quite a few on our roads, so it was no surprise to find the model here.

LOTUS

Introduced in 1967, the Elan +2 had a longer wheelbase and two rear seats and so was intended for those Lotus customers who needed space to carry (small) people in the back, without sacrificing the same basic principles which made the Elan so appealing. A fast and agile sport coupe, a number of different engines were fitted over the years, with the later models having 130 bhp and a 5 speed gearbox at their disposal, which gave a top speed of 120 mph and 0–60 acceleration of 7.9 seconds and 0-100 mph 21.8 seconds. 5,200 Elans +2 were made, with production ceasing in 1975. Fewer than 1,200 of these cars remain on the roads today. Their relative rarity, beautiful lines, impressive performance and practicality are the main factors for the rising interest on these cars among collectors.

At the Frankfurt 2011 Show, the 2012 version of the Exige S was announced. It features a supercharged 3.5 litre V6 engine (from the Evora S) rated at 345 hp. In 2013, a roadster version was introduced with only minor changes to the design for the removable top. The engine and performance were virtually unchanged from the coupe. To accommodate the V6 engine, the new model is approximately 25 cm (9.8 inches) longer and 5 cm (2.0 in) wider (exterior bodywise) than the model with the inline-four engine, being 4,052 mm (159.5 inches) long, 1,802 mm (70.9 in) wide (not counting the mirrors) and 1,153 mm (45.4 in) tall. The drag coefficient is 0.433. Since that time there have been a bewildering array of different versions and you need to be a real marque expert to tell them all apart. The policy has worked, though, as sales have remained steady whilst Lotus try to amass the finances to develop any all new models. The Exige V6 Cup is a track oriented version of the Exige S while the Exige CupR is the track-only version of Exige V6 Cup. The Exige V6 Cup is offered for sale in the United States as a track only car. If purchased, US Lotus Dealers will only provide a bill of sale instead of a title. The vehicles were unveiled at the 2013 Autosport International motor show. Limited to 50 examples, the Lotus Exige 360 Cup was revealed on 14 August 2015. The car is powered by a 3.5-liter supercharged Toyota V6 delivering 355 hp. The Lotus Exige Sport 380 is a track focused and more powerful version of the Lotus Exige lineup. It was unveiled on 23 November 2016. Lotus’ CEO, Jean-Marc Gales describes it as, “The Exige Sport 380 is so good, that it is no longer the best in class, it’s now in a class of its own”, and it fulfills this statement by taking on some of the powerful and expensive super cars both on the track and the streets. The 3.5-litre, super-charged V6 engine is now uprated and produces 375 hp and 410 Nm (302 lb/ft) of torque with a 6500 rpm red line achieved by revised supercharger and ECU. It can accelerate from 0 to 60 mph in 3.5 seconds and has a top speed of 178 mph (286 km/h). The interior is also stripped out and features necessary driver aids. The Exige Sport 380 weighs 1,076 kg (2,372 lb), thanks to the extensive use of carbon fibre on the exterior as well as the interior, the application of polycarbonate windows instead of traditional glass windows and a newly designed rear transom panel which features two rear lights instead of four.The Lotus Exige Cup 380 is a more hardcore variant of the Exige Sport 380. Performance of the car remains the same as the Sport 380 but it features more aero components and a larger rear wing to produce more downforce at high speeds. The Exige Cup 380 generates 200 kg (441 lb) of downforce at its maximum speed of 175 mph (282 km/h); the top speed is reduced due to excess downforce and more drag. It features a more stripped out interior in order to save weight and other light weight carbon fiber components, Lotus states a lowest possible dry weight of only 1,057 kg (2,330 lb). On 9 November 2017, Lotus unveiled the most powerful version of the Exige to date called the Exige Cup 430, producing 430 PS (424 hp) and using the Evora GT430’s powertrain, modified to fit in the smaller Exige. The car body can produce 220 kg (485 lb) of downforce. The Cup 430 is 19 kg (42 lb) lighter than the Sport 380 due to the use of carbon fibre in body panels and interior and a titanium exhaust. The gearbox allows quicker gearshifts than the previous model. The Cup 430 is not offered with an automatic gearbox. The Lotus Exige Cup 430 is capable of covering the Hethel circuit in 1 minute 24.8 seconds – the fastest production car to lap the circuit – 1.2 seconds faster than the road going Lotus 3-Eleven.

MERCEDES-BENZ

With prices of the classic Pagoda model having risen to unaffordable for most people attention has started to switch to it successor, the R107 SL range, which had a long production life, being the second longest single series ever produced by the automaker, after the G-Class. The R107 and C107 took the chassis components of the mid-size Mercedes-Benz W114 model and mated them initially to the M116 and M117 V8 engines used in the W108, W109 and W111 series. The SL variant was a 2-seat convertible/roadster with standard soft top and optional hardtop and optional folding seats for the rear bench. The SLC (C107) derivative was a 2-door hardtop coupe with normal rear seats. The SLC is commonly referred to as an ‘SL coupe’, and this was the first time that Mercedes-Benz had based a coupe on an SL roadster platform rather than on a saloon, replacing the former saloon-based 280/300 SE coupé in Mercedes lineup. The SLC was replaced earlier than the SL, with the model run ending in 1981, with a much larger model, the 380 SEC and 500SEC based on the new S class. Volume production of the first R107 car, the 350 SL, started in April 1971 alongside the last of the W113 cars; the 350 SLC followed in October. The early 1971 350SL are very rare and were available with an optional 4 speed fluid coupling automatic gearbox. In addition, the rare 1971 cars were fitted with Bosch electronic fuel injection. Sales in North America began in 1972, and cars wore the name 350 SL, but had a larger 4.5L V8 with 3 speed auto (and were renamed 450 SL for model year 1973); the big V8 became available on other markets with the official introduction of the 450 SL/SLC on non-North American markets in March 1973. US cars sold from 1972 through 1975 used the Bosch D Jetronic fuel injection system, an early electronic engine management system. From July 1974 both SL and SLC could also be ordered with a fuel-injected 2.8L straight-6 as 280 SL and SLC. US models sold from 1976 through 1979 used the Bosch K Jetronic system, an entirely mechanical fuel injection system. All US models used the 4.5 litre engine, and were called 450 SL/SLC. In September 1977 the 450 SLC 5.0 joined the line. This was a homologation version of the big coupé, featuring a new all-aluminium five-litre V8, aluminium alloy bonnet and boot-lid, and a black rubber rear spoiler, along with a small front-lip spoiler. The 450SLC 5.0 was produced in order to homologate the SLC for the 1978 World Rally Championship. Starting in 1980, the 350, 450 and 450 SLC 5.0 models (like the 350 and 450 SL) were discontinued in 1980 with the introduction of the 380 and 500 SLC in March 1980. At the same time, the cars received a very mild makeover; the 3-speed automatic was replaced by a four-speed unit, returning to where the R107 started in 1971 with the optional 4 speed automatic 350SL. The 280, 380 and 500 SLC were discontinued in 1981 with the introduction of the W126 series 380 and 500 SEC coupes. A total of 62,888 SLCs had been manufactured over a ten-year period of which just 1,636 were the 450 SLC-5.0 and 1,133 were the 500 SLC. Both these models are sought by collectors today. With the exception of the SL65 AMG Black Series, the SLC remains the only fixed roof Mercedes-Benz coupe based on a roadster rather than a sedan. Following the discontinuation of the SLC in September 1981, the 107 series continued initially as the 280, 380 and 500 SL. At this time, the V8 engines were re-tuned for greater efficiency, lost a few hp and consumed less fuel- this largely due to substantially higher (numerically lower) axle ratios that went from 3.27:1 to 2.47:1 for the 380 SL and from 2.72:1 to 2.27:1 for the 500 SL. From September 1985 the 280 SL was replaced by a new 300 SL, and the 380 SL by a 420 SL; the 500 SL continued and a 560 SL was introduced for certain extra-European markets, notably the USA, Australia and Japan. Also in 1985, the Bosch KE Jetronic was fitted. The KE Jetronic system varied from the earlier, all mechanical system by the introduction of a more modern engine management “computer”, which controlled idle speed, fuel rate, and air/fuel mixture. The final car of the 18 years running 107 series was a 500 SL painted Signal red, built on August 4, 1989; it currently resides in the Mercedes-Benz museum in Stuttgart.

There were an awful lot of AMG models here, mostly C63 cars of the current and previous generations, and joined by larger E63 and smaller A45 models as well.

MINI

The Mini Coupé and Mini Roadster are two-seater sports cars that were engineered and manufactured by Mini between 2011 and 2015. The hardtop Coupé was unveiled in June 2011 and formally launched at the Frankfurt Motor Show in September 2011. Production was shown in the 2011 documentary Megafactories. It is the first two-seater Mini. It was joined by a convertible version called Mini Roadster in 2012, following its showing as a concept car in 2009. The Coupé is known by the internal code R58 and the Roadster by code R59. The Mini Roadster is the convertible version of the Coupé and was first shown at the Frankfurt Motor Show in September 2009 as a concept, and formally launched at the Detroit North American International Auto Show in January 2012. The range of models and engines mirrors the Mini Coupé with a range of 1.6 L petrol engines in various levels of power and a 2.0 L diesel engine offered in some markets. Depending on the market, the soft top is either manually or electrically operated. The electrically operated top required the driver to unlock it and then could be opened using a toggle switch above the rear view mirror. Once fully open the top would sit flat behind the driver, a significant change from the R57 Convertible, which stowed the convertible top within view above the “boot.” The convertible top included a rear window but did not include a window behind the driver’s door. The soft top was only available in black. In February 2015 Mini announced the end of production for both models.

NISSAN

The GF-BNR34 (R34) Skyline GT-R, GT-R V·Spec and GT-R V·Spec N1 models were introduced in January 1999. The R34 GT-R was shorter (from front to rear), and the front overhang was reduced as compared to its predecessor. The valve covers were painted glossy red (colour code Cherry Red Effect Z24 or X1020), as opposed to black in previous models. A new feature on the R34 GT-R is a 5.8″ LCD multi-function display on the centre of the dashboard, which shows seven different live readings of engine and vehicle statistics such as turbocharger pressure (1.2 bar max), oil and water temperature, among others. The GT-R V·Spec model added two extra features to the display: intake and exhaust gas temperatures. Nismo Multi-function Displays (MFD) could be bought at an extra cost, they included a lap timer, G-Force meter and an increase in boost pressure measurement to 2 bar. The R34 GT-R was made shorter in response to customer concerns who thought the R33 was too bulky. Like the R33, the new R34 GT-R V·Spec (Victory Specification) models come equipped with the ATTESA E-TS Pro system and an Active LSD at the rear, while standard GT-R models come with the non-Pro system and a conventional mechanical differential. The V·Spec model also had firmer suspension and lower ground clearance, thanks to front and side splitters, as well as a rear carbon fibre air diffuser, designed to keep air flowing smoothly under the car. At the time of the R34’s introduction, like the R32 and R33, Nissan introduced an R34 V·Spec N1 model. The R34 V·Spec N1 was equipped similar to the R32 and R33 N1 models – a homologation special. It was sold without air conditioning, audio equipment, rear wiper, or boot lining, but ABS remained. The new R34 N1 was also given the new R34 N1 engine. Only 38 known R34 V·Spec N1 models were produced from the factory, 12 of which Nismo used for Super Taikyu racing. The rest were sold to various customers, mostly racing teams and tuning garages. The V·Spec version was also imported into the UK with a number of modifications carried out on these 80 cars. These included 3 additional oil coolers, revised ECU map, full Connolly leather interior, underbody diffusers, stiffer suspension, active rear limited slip differential, extra display feature on the in car display. In additional to the UK, 10 were sold to Hong Kong and Singapore, and 5 to New Zealand although with different changes for their respective markets. In October 2000, Nissan introduced the V·Spec II, replacing the V·Spec. The V·Spec II has increased stiffness in the suspension (even stiffer than the original V·Spec) and had larger rear brake rotors. It also comes equipped with a carbon fibre bonnet equipped with a NACA duct, which is lighter than the aluminium that all other GT-R bonnets are made from. Also different on the V·Spec II was an iridium center console and aluminium pedals. The seats were upholstered with black cloth rather than the gray cloth used on previous R34 GT-R models, and the amber turn lenses were replaced with white versions. With the exception of the carbon fibre bonnet, the standard trim level GT-R also received these updates. A total of 18 V·Spec II N1 were built. A total of 1855 V·Spec II were built for Japan, with an additional 2[64] being sold for the New Zealand market. The V·Spec N1 was replaced with the V·Spec II N1. The same changes applied to the V·Spec N1 were applied to the V·Spec II N1, with the exception of the V·Spec II carbon bonnet which was now unpainted. In May 2001, the M·Spec was introduced. It was based on the V-Spec II, but had special “Ripple control” dampers, revised suspension set up, stiffer rear sway bar and a leather interior with heated front seats. The ‘M’ on the M·Spec stood for Mizuno who is the chief engineer of Nissan. The only other change was the removal of the carbon fibre bonnet which was replaced with the standard aluminium bonnet. In February 2002, Nissan launched a final production model of the R34 GT-R called the Skyline GT-R V·Spec II Nür and the Skyline GT-R M·Spec Nür. The Nür was named after the famous German Nürburgring racetrack, where the Skyline was developed. In total 1,003 units R34 GT-R Nür(s) were produced, 718 were V·Spec II Nürs’ and 285 were M·Spec Nürs’. The Nür model featured an improved RB26DETT based on the N1 racing engine. The standard turbochargers were upgraded to larger versions with a slight increase in boost and the ceramic blades were replaced with steel versions. This has increased lag, but the turbo’s durability was improved while being able to handle a bigger boost increase. The V·Spec II Nür is based on the regular V·Spec II model, and the M·Spec Nür was based on the regular M·Spec model. Other than the addition of the Nür engine, the Nür models also included a different colour of stitching on the interior trim, as well as a speedometer reading up to 300 km/h (186 mph), gold valve covers instead of red and a gold VIN plate instead of silver. Due to Japanese car industry norms at the time, the car was advertised as having 276 bhp but it actually had over 330 bhp when it left the factory. In 1999, during Nissan’s testing session at the Nürburgring Nordscheleife. Unofficially the GT-R R34 ran a 7:52 minute lap around the track, driven by Nissan’s test driver Kazuo Shimizu. The car broke the GT-R R33’s record which was the fastest road-legal series production vehicle and second fastest road-legal production vehicle around the track at the time.

Also here were a couple of examples from the current range, the R35 generation GT-R and the 2-seater sports car, the 370Z.

PORSCHE

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.

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).

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 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/ft) 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.

Much rumoured for some time, the Cayman GT4 was officially launched at the 2015 Geneva Show, positioned to sit between the Cayman GTS and the 911 GT3. By the time of the official unveiling, the car was supposedly sold out many times over, though more recently it has become apparent that at least some Porsche dealers have been holding onto cars claiming that the first purchaser changed their mind, and then offering them to those who did not get one of the allocation a year ago, at vastly inflated prices. If true, this is very sharp practice indeed, but seems to be the sort to tricks that are becoming increasingly common as enthusiasts are being fleeced in the name of extra profit. For a starting price of around £65,000 in the UK, the lucky customer would get a car which used used a stiffened and strengthened Cayman bodyshell as a starting point, but lowered by 30mm . Porsche say that in fitting as many GT parts as possible, they did not make it out of a Cayman GTS, but rather they produced an entry-level mid-engined GT3 car. That sounds like PR spin to me, as of course the car does use an awful lot of parts from the regular Cayman. However, plenty is changed, too. There is a reworked version of the Carrera S’s 3.8-litre flat six engine, producing 380bhp at 7400rpm and 310lb ft at 4750-6000rpm, hooked up to a modified version of the Cayman GTS’s six-speed manual gearbox. A PDK dual-clutch automatic was considered but rejected, meaning the Cayman GT4 is manual only. This is enough to mean that the 0-62mph sprint takes 4.4sec and the top speed is 183mph, with combined fuel economy of 27.4mpg and CO2 emissions rated at 238g/km. The front axle and suspension are borrowed from the 911 GT3 and the rear axle and forged aluminium double wishbone suspension are completely new. Dampers are taken from the 911 GT3. The electric steering system from the 911 GT3 does make it onto the Cayman GT4 but is given new software. Stopping power is provided by standard steel brakes, or optional carbon-ceramics from the 911 GT3. The forged 20in alloy wheels were new and are shod with Michelin Pilot Sport Cup 2 tyres. The rear 295/30 ZR20 tyres are bespoke, but the front 245/35 ZR20s were borrowed from the 911 GT3 as they were “a perfect match”. design-wise, the goal was to create a “zero lift car”, but thanks to the extensive aerodynamic and cooling package on the car – which includes a front splitter, a larger front grille and increased frontal air intakes, side air intakes, not one but two rear spoilers and a fully functional diffuser – the Cayman GT4 produces as much downforce at speed (100kg) as the 911 GT3. Every single part on the Cayman GT4 has a functional use. Other design features include “cool” black glass on the front and rear lights, blackened twin central exhausts and quality stitching on the twin lightweight bucket seats, taken from the 918 Spyder, as small details adding to that ‘want factor’.Despite all the extra equipment, the Cayman GT4 weighs no more than a Cayman GTS, tipping the scales at 1340kg dry. You could delete items such as the sat-nav and air-con to save weight, but few customers did, just as with the 911 GT3 RS were just 2% of buyers deleted the air-con. Inside, the steering wheel was new. The sports seats were trimmed in both leather and Alcantara. Standard equipment included bi-xenon headlights, a sports exhaust system, a Sport Chrono Package with dynamic engine mounts, the Porsche Torque Vectoring system, a mechanical limited-slip differential at the rear and the Porsche Stability Management system. On the options list were items such as carbonfibre-reinforced, plastic-backed seats for the two-seat interior. These weigh just 15kg each and were inspired by the 918 Spyder. A customised version of the Sport Chrono Package was offered, as is a Club Sport Package. Initially it was declared that production would be very limited, but Porsche soon relented and far more were built than had originally been declared.

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 MR2 derived from a 1976 Toyota design project with the goal of a car which would be enjoyable to drive, yet still provide good fuel economy – not necessarily a sports car. Design work began in 1979 when Akio Yoshida from Toyota’s testing department started to evaluate alternatives for engine placement and drive method, finalising a mid-transverse engine placement. Toyota called the 1981 prototype SA-X. From its original design, the car evolved into a sports car, and further prototypes were tested both in Japan and in the US. Significant testing was performed on race circuits including Willow Springs, where former Formula One driver Dan Gurney tested the car. All three generations were in compliance with Japanese government regulations concerning exterior dimensions and engine displacement. The MR2 appeared around the same time as the Honda CR-X, the Nissan EXA, the VW Scirocco from Europe, and the Pontiac Fiero and Ford EXP from North America. Toyota debuted its SV-3 concept car in October 1983 at the Tokyo Motor Show, gathering press and audience publicity. The car was scheduled for a Japanese launch in the second quarter of 1984 under the name MR2. Toyota introduced the first-generation MR2 in 1984, designating it the model code “W10”. When fitted with the 1.5-litre 3A engine, it was known as the “AW10”. Likewise, the 1.6-litre 4A version is identified by the “AW11” code. The MR2’s suspension and handling were designed by Toyota with the help of Lotus engineer Roger Becker. Toyota’s cooperation with Lotus during the prototype phase can be seen in the AW11, and it owes much to Lotus’s sports cars of the 1960s and 1970s. Toyota’s active suspension technology, called TEMS, was not installed. With five structural bulkheads, the MR2 was quite heavy for a two-seater of its size. Toyota employed the naturally aspirated 4A-GE 1,587 cc inline-four engine, a DOHC four-valve-per-cylinder motor, borrowed from the E80 series Corolla. This engine was also equipped with Denso electronic port fuel injection and T-VIS variable intake geometry, giving the engine a maximum power output of 112 hp in the US, 128 hp in the UK, 116 or 124 PS (114 or 122 hp) in Europe (with or without catalytic converter), 118 hp in Australia and 130 PS (128 hp) in Japan. Japanese models were later detuned to 120 PS (118 hp). A five-speed manual transmission was standard, with a four-speed automatic available as an option. In 1986 (1988 for the US market), Toyota introduced a supercharged engine for the MR2. Based on the same block and head, the 4A-GZE was equipped with a small Roots-type supercharger and a Denso intercooler. T-VIS was eliminated and the compression ratio was lowered to 8:1. It produced 145 hp at 6,400 rpm and 186 N⋅m; 137 lb⋅ft (19 kg⋅m) of torque at 4,400 rpm and accelerated the car from 0 to 100 km/h (62 mph) in 6.5 to 7.0 seconds. The supercharger was belt-driven but actuated by an electromagnetic clutch, so that it would not be driven except when needed, increasing fuel economy. Curb weight increased to as much as 2,494 lb (1,131 kg) for supercharged models, due to the weight of the supercharger equipment and a new, stronger transmission. A fuel selector switch was also added in some markets, to allow the car to run on regular unleaded fuel if required to. In addition to the new engine, the MR2 SC was also equipped with stiffer springs, and received special “tear-drop” aluminium wheels. The engine cover had two raised vents (only one of which was functional) that visually distinguished it from the naturally aspirated models. It was also labelled “SUPER CHARGER” on the rear trunk and body mouldings behind both doors. This model was never offered outside of the Japanese and North American markets, although some cars were privately imported to other countries. Toyota made detailed changes to the car every year until replacing it with a second generation model in 1989.

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

The Yaris GR is a definite “car of the moment”, following its rave reception last autumn. Long waits are in store for those ordering the car at present, but clearly those who got in early have now received their cars and I am seeing more and more of them where enthusiasts are gathered.

VOLKSWAGEN

The first generation of the Volkswagen Type 2 with the split windshield, informally called the Microbus, Splitscreen, or Splittie among modern fans, was produced from 8 March 1950 through the end of the 1967 model year. From 1950 to 1956, the T1 (not called that at the time) was built in Wolfsburg; from 1956, it was built at the completely new Transporter factory in Hanover. Like the Beetle, the first Transporters used the 1100 Volkswagen air-cooled engine, an 1,131 cc 24 bhp, air-cooled flat-four-cylinder ‘boxer’ engine mounted in the rear. This was upgraded to the 1200 – an 1,192 cc 30 bhp in 1953. A higher compression ratio became standard in 1955; while an unusual early version of the 40 bhp engine debuted exclusively on the Type 2 in 1959. Any 1959 models that retain that early engine today are true survivors. Since the engine was totally discontinued at the outset, no parts were ever made available. The early versions of the T1 until 1955 were often called the “Barndoor” (retrospectively called T1a since the 1990s), owing to the enormous rear engine cover, while the later versions with a slightly modified body (the roofline above the windshield is extended), smaller engine bay, and 15″ roadwheels instead of the original 16″ ones are nowadays called the T1b (again, only called this since the 1990s, based on VW’s retrospective T1,2,3,4 etc. naming system.). From the 1964 model year, when the rear door was made wider (same as on the bay-window or T2), the vehicle could be referred to as the T1c. 1964 also saw the introduction of an optional sliding door for the passenger/cargo area instead of the outwardly hinged doors typical of cargo vans. In 1962, a heavy-duty Transporter was introduced as a factory option. It featured a cargo capacity of 1,000 kg (2,205 lb) instead of the previous 750 kg (1,653 lb), smaller but wider 14″ roadwheels, and a 1.5 litre 42 bhp DIN engine. This was so successful that only a year later, the 750 kg, 1.2 L Transporter was discontinued. The 1963 model year introduced the 1500 engine – 1,493 cc as standard equipment to the US market at 51 bhp DIN with an 83 mm bore, 69 mm stroke, and 7.8:1 compression ratio. When the Beetle received the 1.5 litre engine for the 1967 model year, its power was increased to 54 bhp DIN. German production stopped after the 1967 model year; however, the T1 still was made in Brazil until 1975, when it was modified with a 1968–79 T2-style front end, and big 1972-vintage taillights into the so-called “T1.5” and produced until 1996. The Brazilian T1s were not identical to the last German models (the T1.5 was locally produced in Brazil using the 1950s and 1960s-era stamping dies to cut down on retooling, alongside the Beetle/Fusca, where the pre-1965 body style was retained), though they sported some characteristic features of the T1a, such as the cargo doors and five-stud 205 mm (8.1 in) Pitch Circle Diameter rims. Wheel tracks varied between German and Brazilian production and with 14-inch, 15-inch and 16-inch wheel variants but commonly front track varied from 1290 mm to 1310 mm and rear track from 1370 mm to 1390 mm. Among American enthusiasts, it is common to refer to the different models by the number of their windows. The basic Kombi or Bus is the 11-window (a.k.a. three-window bus because of three side windows) with a split windshield, two front cabin door windows, six rear side windows, and one rear window. The DeLuxe model featured eight rear side windows and two rear corner windows, making it the 15-window (not available in Europe). Meanwhile, the sunroof DeLuxe with its additional eight small skylight windows is, accordingly, the 23-window. From the 1964 model year, with its wider rear door, the rear corner windows were discontinued, making the latter two the 13-window and 21-window respectively. The 23- and later 21-window variants each carry the nickname “Samba” or in Australia, officially “Alpine”. The Volkswagen Samba, in the United States also known as Sunroof Deluxe, was the most luxurious version of the T1. Volkswagen started producing Sambas in 1951. In the USA Volkswagen vans were informally classified according to the number of windows they had. This particular model had 23 and later 21 windows including eight panoramic windows in the roof (the 23 window version had additional curved windows in the rear corners). To distinguish it from the normal Volkswagen van the name Samba was coined. Instead of a sliding door at the side the Samba had two pivot doors. In addition the Samba had a fabric sunroof. At that time Volkswagen advertised with the idea of using the Samba to make tourist trips through the Alps. Sambas were painted standard in two colours. Usually, the upper part was coloured white. The two colored sections were separated by a decorative strip. Further the bus had a so-called “hat”: at the front of the van the roof was just a little longer than the car itself to block the sun for the driver. The windows had chrome tables and the van had a more comprehensive dashboard than the normal T1. When Volkswagen started producing the successor of the T1 (the T2) the company also stopped producing the Samba so there are no Sambas in later versions of the Transporter.

This was a very enjoyable morning. Sometimes you have to believe the weather forecasters, as it turns out they will be correct (not always true, I know!), and this was one of the occasions. It is probably the case that it was not just Abarth drivers who did no trust what was forecast, as this was, by all accounts, a much quieter meet than Queen Square usually achieves. Certainly there was space for a few more cars around the site, though the courtyard area was full, with an array of supercars and the AMG and M cars that always come to events like this in some quantity, more than filled it, from early on. The setting – a venue I’ve never been to, despite it being relatively on my door step – is amazing, so it is no surprise to learn that Queen Square have used it a number of times before and plan to repeat events here in 2022. I have to hope that my diary has fewer challenging conflicts so i can get along again.