Wednesday, November 5, 2008

Proton Wira Standard

Proton Wira

Proton Wira
Proton Wira
Manufacturer Proton
Also called Proton Persona
Proton 400 series
Production 1993–present
Predecessor Proton Saga
Successor Proton Waja (saloon)
Proton Gen-2 (hatchback)
Proton Persona(saloon)
Class Compact
Body style(s) 4-door saloon
5-door hatchback
Layout FF layout
Engine(s) 1.3 L 4G13 I4
1.5 L 4G15 I4
1.6 L 4G92 I4
1.8 L 4G93 I4
2.0 L 4D68 diesel I4
Transmission(s) 5-speed manual
3-speed automatic
4-speed automatic
Curb weight 980 kg (2,161 lb)-1,011 kg (2,229 lb)
Related 1991 Mitsubishi Lancer

The Proton Wira is a car manufactured by Malaysian carmaker Proton, released as a four-door saloon and four-door hatchback beginning 1993. The Wira was intended as a newer alternative to the Proton Saga Iswara, a facelifted version of Proton's first model, the Proton Saga, as a flagship compact model for Proton. The Saga continued to receive minor updated until 2008, when a second generation Saga was introduced as a sub-compact model instead.

The Wira was later planned to be replaced by two similar in-house designed Proton cars: The Proton Gen-2 (launched in 2004 to replace the "Aeroback" hatchback variant) and the Proton Persona (launched in 2007 to replace the saloon variant). The Proton Waja, a saloon compact, was also launched in 2001 as a earlier successor to the Wira saloon, but currently caters slightly towards more upmarket demand, below the Proton Perdana.

Wira is a Malay word (derived from Sanskrit) that translates into English as "Hero".

History

The Wira was introduced in 1993 as a 4-door saloon and was based on the 1992 Mitsubishi Lancer design, but the styling was slightly modified to distinguish it from the Lancer. Modifications include headlights from the 1992 Mitsubishi Colt, tail lights from the 1987 Mitsubishi Galant hatchback, bumpers from the Mitsubishi Mirage and a different dashboard. The frontal design continues the styling first shown on the Proton Iswara with a fluted bonnet that tapers towards the Proton badge on the grill. In 1994, a 5-door hatchback version (initially badged as the Wira Aeroback, in a similar fashion as the 5-door Saga hatchback) was introduced.

Proton was originally in the works of a little-known 5-door estate variant of the Wira during the mid-1990s, basing the car on the saloon Wira and sporting similar taillights as the first facelifted Wira.[citation needed] This revelation came into light roughly the same time following the publishing of a photograph on a local newspaper, depicting an abandoned estate Wira prototype outside Proton's assembly plant in Shah Alam.[citation needed] As little news was available on the car thereafter, however, the proposed model is presumed to have never ventured beyond conceptual stages.[citation needed]

A minor facelift for all new Wira variants was introduced in 1995 with a new grille and slimmer tail lights with clear indicators. Other minor changes were made on the interior, grille design and bumpers during the late-1990s and mid-2000s. While having undergone three minor reiterations, the general design of the Wira has, for more than a decade, remained mostly the same.

In 2004, Proton introduce the Wira Special Edition or known as WiSE, and plan to manufactured an estimated 100,000 but failed to meet sales target. The WiSE models were released in different periods of the Wira's model years as Aeroback variant, with sportier accessories such as full bodykits, redesigned interiors and an option for an aluminium spoiler. Later that year, all the Wira and Satria variants included the same front bumper as the WiSE.

Several Proton models released following the Wira's debut sported frontal stylings that were derivatives of the Wira's. Among them, the original Satria 3-door hatchback, the Putra 2-door "sports" coupé, and the Arena coupe utility.

In an attempt to find a suitable successor to the Wira, the Gen-2, a hatchback codenamed the Wira Replacement Model, was designed and developed in-house by Proton, and was launched in 2004. In August 2007, the Persona, a new sedan model directly based on the Gen-2, was introduced. Its introduction is seen as a legitimate replacement for the Proton Wira range, but the Wira is still offered in Proton's line of models.

Performance

Engine specifications


1.3GLi

  • 5-speed MT (F5M21)
  • 4G13P SOHC
    • Multi Point Injection (MPI) Fuel System
    • Max output : 74 bhp (55 kW/75 PS) @ 6,000 rpm
    • Max torque : 108 N·m (80 ft·lbf) @ 4,000 rpm
    • Max speed : 163 km/h (101 mph)

1.5GLi

  • 5-speed MT (F5M21) / 3-speed AT (F3A21)
  • 4G15P SOHC
    • Multi Point Injection (MPI) Fuel System
    • Max output : 89 bhp (66 kW/90 PS) @ 6,000 rpm
    • Max torque : 126 N·m (93 ft·lbf) @ 3,000 rpm
    • Max speed : 174 km/h (108 mph) (manual); 165 km/h (103 mph) (automatic)

1.6GLXi/1.6XLi

  • 5-speed MT (F5M21) / 4-speed AT (F4A22)
  • 4G92P SOHC
    • Multi Point Injection (MPI) Fuel System
    • Max output : 111 bhp (83 kW/113 PS) @ 6,000 rpm
    • Max torque : 138 N·m (102 ft·lbf) @ 5,000 rpm
    • Max speed : 193 km/h (120 mph) (manual); 185 km/h (115 mph) (automatic)

1.8EXi

  • 4-speed AT (F4A22)
  • 4G93P DOHC
    • Multi Point Injection (MPI) Fuel System
    • Max output : 138 bhp (103 kW/140 PS) @ 6,000 rpm
    • Max torque : 164 N·m (121 ft·lbf) @ 5,500 rpm
    • Max speed : 196 km/h (122 mph)

2.0D (diesel)

  • 5-speed MT (F5M21)
  • 4D68 SOHC
    • Normally-aspirated direct injection, non-common rail
    • Max output : 67 bhp (50 kW/68 PS) @ 4,500 rpm
    • Max torque : 123 N·m (91 ft·lbf) @ 3,000 rpm
    • Max speed : 160 km/h (99 mph)

In its first series, a 1.3-litre 12-valve engine was available on basic-specification Wiras. The Mitsubishi 4G15 1.5-litre 12-valve engine used in the Iswara and its predecessor the Saga was carried over unchanged. The Mitsubishi 4G92 112 PS (110 hp/82 kW) 1.6L 16-valve SOHC engine with multi-point fuel injection was introduced together with an optional 4-speed automatic transmission (and power windows for all 4 doors), a first in Proton's history. The multi-point injection versions were badged as MPi, although this was only used on the engine, and never on the trim levels (unlike 1.5 MPi GLS in the previous car, the Saga, the trim levels were simply 1.5 GLS etc.).

In 1995, the Mitsubishi 4G13 1.3-litre 12-valve engine also used in the Saga was introduced for the Wira. This was followed in 1996 by the 133 bhp (99 kW) 1.8L 16-valve DOHC engine with multi-point fuel injection, marking a first in which a Proton car was powered by a DOHC engine. At the same time, a 2.0-litre diesel-powered variant (badged as the 2.0D, or the SDi in some markets) was also offered but was later phased out in later years due to lack of interest from consumers. The diesel-powered Wira is to date the first and only diesel vehicle produced by Proton. From 1999, all engine options for the Wira in Malaysian market were fuel-injected and carbureted models were phased out.

In 2001 the Wira received suspension tuning from Lotus.

Safety

Like most other Proton cars of its time, the Proton Wira did not offer any safety features other than the standard three-point safety belts with pretensioners and laminated windshield. Export models however saw a much better build quality with safety features such as driver airbag, door intrusion bars and ABS, which were also available as options in the later Malaysian models.

Exports

In 1994, exports to the United Kingdom began where it was marketed as the Proton Persona (not to be confused with the latest 2007 sedan model by Proton). As with the Saga, all export models used multi-point fuel injection to comply with the Euro I emissions standards. In 2001, the Wira name was finally used in the United Kingdom, replacing the Persona name. The Wira was subsequently replaced by the Proton Impian (known in Malaysia as the Waja) in 2002.

In 2005, Zagross Khodro began assembly of Wira complete knock down units for the Iranian market as part of a deal with Proton.

Proton Wira as a tuner's car

The Wira is popular among street racers in Malaysia as a tuner's car because of the interchangeability of parts with many Mitsubishi cars, including the Mitsubishi Lancer Evolution, particularly the engines. Its popularity there is only rivaled by the EG and EK generations of the Honda Civic. Tuned Wiras with Mitsubishi Lancer Evolution parts are fondly called by many names, namely "WiraEVO" and "Wiralution".

Gallery

Mitsubishi Lancer Evolution

Mitsubishi Lancer Evolution

Mitsubishi Lancer Evolution
Mitsubishi Lancer Evolution IX
Manufacturer Mitsubishi Motors
Also called "Evo" (colloquial)
Production 1992–present
Assembly Mizushima Plant, Kurashiki, Okayama
Class Sport compact
World Rally Car
Sports car
Layout Front engine, 4WD
Engine(s) 2.0 L I4 turbo
4G63T (1992–2007)
4B11T (2007–present)
Related Mitsubishi Lancer

The Mitsubishi Lancer Evolution, colloquially known as the Lancer Evo, or Evo, is a car manufactured by Mitsubishi Motors. There have been ten official versions to date, and the designation of each model is most commonly a roman numeral. All of them share a two litre, turbocharged engine and four-wheel drive system. Evolution models prior to version VII were the homologation models for Mitsubishi's efforts in the World Rally Championship. In order to follow these rules, the Evolution was based on the same unibody as the Lancer.

The Evolution was originally intended only for Japanese markets but demand on the 'grey import' market led the Evolution series to be offered through RalliArt dealer networks in the United Kingdom and in various European markets from around 1998. Mitsubishi decided to export the eighth generation Evolution to the United States in 2003 after witnessing the success Subaru had in that market with their Impreza WRX, a direct competitor in other global regions.[1]

Japanese-spec cars were limited by a gentleman's agreement to advertise no more than 276 hp (205 kW), a self imposed limit, 280 hp (210 kW) by the state, a mark already reached by Evolution IV. Therefore, each subsequent version has unoffically evolved above the advertised power figures, with the Japanese-spec Evolution IX reaching a real power output of around 321 PS (317 hp/236 kW).

Various versions available in other markets, particularly the UK, have official power outputs up to 405 bhp (302 kW). Even standard components are considered 'tuned' compared to other vehicles. For instance, the flywheel on normal cars weigh about 12-15 kilograms (26-33 pounds), but Evolution flywheels weigh a mere 6 kilograms (13 pounds) for very quick engine response.

In 2008, the latest generation Lancer Evolution X was launched worldwide, and featured an all-new 291 hp (217 kW) inline four-cylinder turbocharged engine and a full-time all wheel drive powertrain.


World Rally Championship

The Lancer Evolution was unique among its competitors in the World Rally Championship in that it was a homologated Group A car slightly modified to be able to race competitively against, from the 1997 season onwards until the San Remo Rally in 2001, World Rally Car class cars. They were successful in the WRC Rallies from 1996-1999, thanks to the Finn Tommi Mäkinen, for clinching the driver's titles from 1996-1999, and the help of teammate Richard Burns for clinching the constructors's championship for the first, and thus far only time in 1998. The Evolution however was replaced in late 2001 by the firm's first World Rally Car, named simply the Lancer Evolution WRC, which lasted in works hands, driven by Makinen, Freddy Loix, Alister McRae and Francois Delecour until Mitsubishi took a sabbatical from the championship at the end of 2002. It was succeeded for the 2004 Monte Carlo Rally by the Lancer WRC04. Mitsubishi pulled out of the World Rally Championship after the 2005 season with the Lancer WRC05 still being driven by privateers including Italian former works driver Gigi Galli and the Swede, Daniel Carlsson, in the years following. The Lancer Evolution however still competes in the Group N category.

In some European markets, the Evolution was sold as the Mitsubishi Carisma Evolution, and indeed to this effect the works WRC team's second car in the late 1990s, usually driven by Burns and subsequently Loix, was customarily entered as a Carisma GT. Proton Motors of Malaysia raced Evolution III's and an Evolution VII as the Proton Pert in various Asia-Pacific Rally Championship and APAC rally series.

Evolution I

First generation
Mitsubishi Lancer Evolution I
Production October 1992–January 1994
Body style(s) 4-door sedan
Platform CD9A
Transmission(s) 5-speed manual
Wheelbase 2500 mm (98.4 in)
Length 4310 mm (169.7 in)
Width 1695 mm (66.7 in)
Height 1395 mm (54.9 in)
Curb weight 1170 kg (2579 lb)–1240 kg (2734 lb)

The Evolution I was introduced in 1992 to compete in the World Rally Championship. It used the 2.0 L turbocharged DOHC engine and 4WD drivetrain from the original Galant VR-4 in a Lancer chassis, and was sold in GSR and RS models. The latter was a stripped-down club racing version that lacked power windows and seats, anti-lock brakes, a rear wiper, and had steel wheels to save approximately 155 lb (70 kg) less than the 2,730 lb (1,238 kg) GSR, while the former came with all of the conveniences of a typical street car. It came with Mitsubishi's 4G63 engine producing 250 PS (244 hp/182 kW) at 6000 rpm and 228 ft·lbf (309 N·m) at 3000 rpm, along with all wheel drive which would become a trademark on all Evolution models. 5,000 of the first generation Evolutions were sold between 1992 and 1993.

Evolution II

Second generation
Mitsubishi Lancer Evolution II
Production January 1994–August 1995
Body style(s) 4-door sedan
Platform CE9A
Transmission(s) 5-speed manual
Wheelbase 2510 mm (98.8 in)
Length 4310 mm (169.7 in)
Width 1695 mm (66.7 in)
Height 1420 mm (55.9 in)
Curb weight 1180 kg (2601 lb)–1250 kg (2756 lb)

The successful Evolution I was changed in December 1993, and was produced until 1995. It consisted mainly of handling improvements, including minor wheelbase adjustments, larger swaybars, bodywork tweaks including a larger spoiler, and beefier tires that were 10 mm (0.4 in) wider. Power output was increased to 256 PS (252 hp/188 kW) from the same engine and torque was unchanged for both GSR and RS models.

Evolution III

Third generation
Mitsubishi Lancer Evolution III
Production August 1995–August 1996
Body style(s) 4-door sedan
Platform CE9A
Transmission(s) 5-speed manual
Wheelbase 2510 mm (98.8 in)
Length 4310 mm (169.7 in)
Width 1695 mm (66.7 in)
Height 1420 mm (55.9 in)
Curb weight 1260 kg (RS 1190 kg)

January 1995 saw the arrival of the Evolution 3- and this time the 5,000 strong production run was bought up more quickly than the Evolution 2. The Evolution 3 looked more serious, with its new nose molding (to channel air better to the radiator, intercooler, and brakes). New side skirts and rear corners, while the rear wing had grown again to reduce lift. Under the vented aluminum bonnet a new TDO5-16G6-7 Turbo, new exhaust system and increased compression brought another 10 PS (10 hp/7 kW) power rise, Torque output was unaltered, apart from a higher final drive ratio. Both GSR and RS still used the same 5 speed quaife gearbox. Interior tweaks were limited to a new Momo steering wheel (GSR only) and new fabric on the Evolution 2 type Recaros. The specs on this vehicle were an engine 4G63T size of 1997 cc, 270 bhp (201 kW) at 6250 rpm, torque was 228 lb·ft (309 N·m) at 3000 rpm, weight is 1260 kg (RS 1190 kg).

Evolution IV

Fourth generation
Mitsubishi Lancer Evolution IV
Production August 1996–January 1998
Body style(s) 4-door sedan
Platform CN9A
Transmission(s) 5-speed manual
Wheelbase 2510 mm (98.8 in)
Length 4330 mm (170.5 in)
Width 1690 mm (66.5 in)
Height 1415 mm (55.7 in)
Curb weight 1260 kg (2778 lb)–1350 kg (2976 lb)

The Lancer platform was completely changed in 1996, and along with it the Evolution, which had become extremely popular throughout the world. The engine and transaxle was rotated 180° to better balance the weight and eliminate torque steer. There were two versions available, The RS and GSR. The RS version was produced as a competition car with a limited-slip front differential and a friction type LSD at the rear. It also came with GLX seats and 16" (41 cm) steel wheels as these were items that would be replaced by anyone entering the car into competition events. The RS also had wind up windows, no air conditioning, and a few extra brace bars to strengthen the chassis, one behind the front grill and the other across the boot floor. The RS also had a factory option of thinner body panels and thinner glass. The GSR and the RS shared a new twin scroll turbocharger which helped to increase power to 280 PS (276 hp/206 kW) at 6,500 rpm and 260 ft·lbf (352 N·m) of torque at 3,000 rpm. Mitsubishi's new Active yaw control appeared as a factory option on the GSR model, which used steering, throttle input sensors and g sensors to computer-hydraulically controlled torque split individually to the rear wheels and as a result the 10,000 Evolution IVs produced all sold quickly. The Evolution IV can be distinguished by its two large fog lights in the front bumper (option on RS version), and the newly designed tail lights on the rear, which became a standard design to Evolution VI, which would become yet another trademark of the Evolution series. This new generation was slightly heavier than previous Evos—the GSR in particular due to the added technology systems—but to counter this the car produced even more power—the weight of the RS being 1260 kg (2778 lb) and the GSR being 1345 kg (2965 lb).

Evolution V

Fifth Generation
Mitsubishi Lancer Evolution V
Production January 1998–January 1999
Body style(s) 4-door sedan
Platform CP9A
Transmission(s) 5-speed manual
Wheelbase 2510 mm (98.8 in)
Length 4350 mm (171.3 in)
Width 1770 mm (69.7 in)
Height 1405 mm (55.3 in)–1415 mm (55.7 in)
Curb weight 1260 kg (2778 lb)–1360 kg (2998 lb)

In 1997, the WRC created a new "World Rally Car" class, and while these cars still had to abide by Group A standards, they did not have to meet homologation rules. Mitsubishi redesigned the Evolution IV with this in mind and introduced the Evolution V in January 1998.

Many aspects of the car were changed such as:

  • The interior was upgraded in the GSR version with a better class of Recaro seat.
  • The body kit had flared arches at the front and rear and a new aluminium rear spoiler replaced the IV FRP version and gave an adjustable angle of attack to alter rear down force.
  • The track was widened by 10 mm (0.4 in), the wheel offset changed from ET45 to ET38 along with the wheel diameter which rose from 16" to 17" to accommodate Brembo brakes which were added to enhance braking.
  • In addition the brake master cylinder bore increased by 0.3 millimetres (0.01 in).
  • The engine was strengthened in a few areas and the cam duration was increased. The pistons were lighter with a smaller skirt area. 510 cc injectors were replaced with 560 cc injectors for better engine reliability due to more electrical "headroom" and the ecu was changed to include a flash ROM.

Furthermore, the turbocharger was again improved. Torque was increased to 275 ft·lbf (373 N·m) at 3000 rpm. Power officially stayed the same, at 280 PS (276 hp/206 kW) as agreed by Japan's automotive gentlemen's agreement that all cars would have 276 or less hp, but some claim horsepower was actually somewhat higher.

Evolution VI

Sixth generation
Evolution VI T.M.E
Production January 1999–March 2001
Body style(s) 4-door sedan
Platform CP9A
Transmission(s) 5-speed manual
Wheelbase 2510 mm (98.8 in)
Length 4350 mm (171.3 in)
Width 1770 mm (69.7 in)
Height 1405 mm (55.3 in)–1415 mm (55.7 in)
Curb weight 1250 kg (2756 lb)–1360 kg (2998 lb)

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. Also, the Evolution VI received new bodywork yet again, with the most easily spotted change in 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 (246 kW).

Yet another special edition Evolution VI was also released in 1999: the Tommi Makinen Edition, named after Finnish rally driver Tommi Makinen that had won Mitsubishi four WRC drivers championships. It featured a different front bumper, Red/Black Recaro seats (with embossed T. Makinen logo), 17" ENKEI white wheels, a leather MOMO steering wheel and shift knob, a titanium turbine that spooled up quicker, 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 an exclusive shade of red with special decals, replicating Tommi Makinen's rally car's colour scheme. This car is also sometimes referred to as an Evolution 6½, Evolution 6.5, or TME for short.

Evolution VII

Seventh generation
Evolution VII
Production March 2001–January 2003
Body style(s) 4-door sedan
Platform CT9A
Transmission(s) 5-speed manual
5-speed automatic
Wheelbase 2625 mm (103.3 in)
Length 4455 mm (175.4 in)
Width 1770 mm (69.7 in)
Height 1450 mm (57.1 in)
Curb weight 1320 kg (2910 lb)–1400 kg (3086 lb)

In 2001, Mitsubishi was forced by the FIA to race in the WRC using WRC rules for building a car instead of the Group A class rules, and thus did not need to follow homologation rules. The Evolution VII was based on the larger Lancer Cedia platform and as a result gained more weight over the Evolution VI, but Mitsubishi made up for this with multiple important chassis tweaks. The biggest change was the addition of an active center differential and a more effective limited-slip differential, while a front helical limited-slip differential was added. Torque was increased again to 284 ft·lbf (385 N·m) with engine tweaks that allowed greater airflow, and horsepower officially remained at 280 PS (276 hp/206 kW).

The introduction of the Evolution VII also marked the first time an automatic drivetrain was included within the model lineup—the GT-A. Seen as the 'gentleman's express' version of the visually similar VII GSR, the GT-A model was only produced in 2002 and had the following distinguishing interior and exterior specification: GT-A-only diamond cut finish 17-inch (430 mm) alloy wheels, clear rear light lenses and all-in-one style front headlights (later used on the Evolution VIII). The GT-A had the option of either no spoiler, the short spoiler (as later used on the Evolution VIII 260) or the thunderspoiler as used on the standard Evolution VII models. The most distinguishing feature was a smooth bonnet with no air-grills on it at all. Although offering inferior cooling capabilities, the bonnet was designed to give a cleaner line through the air with less air resistance at motorway speeds.

Interior could be specified with factory options of a deluxe velour interior, full leather or the Recaro sports seats. The GT-A interior was different in that it had chromed door handles, a different instrument panel (to show the gear selection) and chrome edged bezels around the speedo and tach. The GT-A also had additional sound deadening installed from the factory and the engine manifold and downpipe had been engineered to be quieter.

The 5-speed automatic gearbox had what Mitsubishi called "fuzzy logic", which meant that the car would learn what the driver's driving characteristics were like and would adapt the gear change timings and kick down reactions accordingly. The gears could be manually selected as with most tiptronics via steering wheel + and - buttons (a pair both sides) or via selecting the tiptronic gate with the gear lever. Power was down a little from the standard manual cars with a very usable 272 bhp (203 kW). The GT-A gearbox did not appear again in the Evolution VIII but has been installed in the estate version of the Evolution IX Wagon.

Evolution VIII

Eighth generation
2005 Mitsubishi Lancer Evolution VIII MR (US Spec) at Deal's Gap, North Carolina
Production January 2003–March 2005
Body style(s) 4-door sedan
Platform CT9A
Transmission(s) 5-speed manual
6-speed manual
Wheelbase 2625 mm (103.3 in)
Length 4490–4535 mm (176.8–178.5 in)
Width 1770 mm (69.7 in)
Height 1450 mm (57.1 in)
Curb weight 1320 kg (2910 lb)–1410 kg (3109 lb)

The Evolution was changed again in 2003, this time sporting Super Active Yaw Control to handle traction and a 6-speed manual gearbox. It was available with 280 PS (276 hp/206 kW) in three trims: standard (GSR in Japan), RS (devoid of all excess components, such as interior map lights, power windows/doors, and radio) and MR. RS Editions came with a revised limited-slip front differential. The new Evolution also sported Altezza taillights.

The Lancer Evolution VIII is unique among its successors and predecessors, since it is so far the only Evo that used the same central semi-triangle core that was used by Lancer, Adventure, Strada, Grandis, Montero and Outlander.

The Lancer Evolution VIII MR uses slick-response Bilstein shocks for improved handling. The aluminium roof panel and other reductions in body weight have lowered the centre of gravity to realize more natural roll characteristics. Detail improvements have also been made to Mitsubishi’s own electronic all-wheel drive, to the ACD 5 + Super AYC 6 traction control and to the Sports ABS systems. The Lancer Evolution VIII displayed at the 2003 Tokyo Motor Show took the MR designation traditionally reserved for Mitsubishi Motors high-performance models and used first on the Galant GTO. Other parts on the MR include BBS alloy wheels, Bilstein shocks, and an aluminium roof. In the United Kingdom, many special Evolutions were introduced, which included FQ300, FQ320, FQ340, and FQ400 variants. They each came with 305, 320, 340, and 400 hp (227, 239, 254 and 298 kW), respectively. It is rumoured that the 'FQ' stands for 'Fucking Quick'.[2][3]

The FQ400, sold through Ralliart UK, produces 302.13 kW (405.2 hp), from its 2.0 L 4G63 engine as the result of being specially modified by United Kingdom tuning firms Rampage Tuning, Owen Developments, and Flow Race Engines. At 202.9 hp (151.3 kW) per litre, it has one of the highest specific output per litre of any roadcar engine. With a curb weight of 3200 lb (1450 kg), it achieves 0-60 mph in 3.5 seconds, 0-100 mph in 9.1 seconds, 1/4 mile in 12.1 seconds at 120 mph (190 km/h), and top speed is 176 mph (283km/h), whilst costing £47,000. BBC's television series Top Gear demonstrated that the FQ-400 could surprisingly keep up with a Lamborghini Murcielago around a test track. The Stig recorded a Top Gear Power Lap Times of 1 minute 24.8 seconds, 4.2 seconds quicker than the Murcielago's time of 1 minute 29 seconds.[4] In a similar test conducted by UK supercar magazine evo, the Evolution was able to lap the Bedford Autodrome faster than an Audi RS4 and a Porsche Carrera 4S.[citation needed]

The Lancer Evolution VIII was also the first Evolution to be sold in the United States,[5] spurred by the success of the Subaru Impreza WRX which had been released there just three years prior.[citation needed] The Evolution VIII found its true competition in the Subaru Impreza WRX STI model the same year as the Evolution VIII's US introduction. However, the internal components for the American versions were largely stripped-down versions of the specifications for the Japanese Lancer Evolution VIII. No US-spec Evolution model prior to the Evo X has active yaw control, including the 2006 Evolution IX. The American 2003 and 2004 GSRs are without the helical limited-slip front differential and 6-speed manual transmission. The 2004 US spec RS models, however, do have a front helical limited-slip differential. All 2003, 2004 and 2005 RS and GSR models have the Japanese Evolution VII's 5-speed transmission. The MR edition was introduced to the US in 2005, with ACD and the only model with a 6-speed transmission. The 2005 US spec RS and GSR have the ACD standard, and the front helical limited-slip differential is now standard on all models. The timing and tuning are also slightly lower than its Japanese counterpart, allowing it to adhere to the strict emissions regulations of the United States. However, the US version has a quarter mile time of a respectable 13.1 seconds.

Most Evolution VIIIs have a carbon fiber rear spoiler with matching body-color endplates. Furthermore, the US version of the Lancer Evolution VIII 2003-2005 were given bulkier rear bumpers than their Japanese counterparts to accommodate US safety laws in the form of the metal rear crash bar. All Evos have lightweight aluminum front fenders and hood. MR and RS editions have an aluminum roof. Additionally, MR Editions come equipped with 6-speed transmission, bilstein shocks, and factory optional BBS wheels.

The basic RS Edition does not come with power windows, locks or mirrors, an audio system, map lamps or an Anti-lock braking system. All Evo VIII RS models sold in the US have air conditioning system. [6]

Evolution IX

Ninth generation
Mitsubishi Lancer Evolution IX
Production March 2005–October 2007
Body style(s) 4-door sedan
Platform CT9A
Transmission(s) 5-speed manual
6-speed manual
Wheelbase 2625 mm (103.3 in)
Length 4490 mm (176.8 in)
Width 1770 mm (69.7 in)
Height 1450 mm (57.1 in)
Curb weight 1310 kg (2888 lb)–1490 kg (3285 lb)

Mitsubishi introduced the Lancer Evolution IX in Japan on March 3, 2005,[7] and exhibited the car at the Geneva Motor Show for the European market the same day.[8] The North American markets saw the model exhibited at the New York International Auto Show the following month.[9] The 2.0 L 4G63 engine has MIVEC technology (variable valve timing), boosting official power output at the crankshaft to 286 hp (213 kW) and torque to 289 ft·lbf (392 N·m). The Evolution VIII first offered in 2003 would produce dynamometer readings of approximately 225 WHP and 225 lb·ft (305 N·m). WTQ with a flywheel power rating of 271/273 respectively. The Evolution IX typically pulls 255 WHP and 250 WTQ on a wheel dynamometer, a difference of 30 hp (22 kW).

The USDM Lancer Evolution IX models (standard; "GSR" in some markets), RS, SE, and MR) varied slightly in their performance capabilities. Subtleties unique to each model accounted for variations in acceleration, handling and top speed. The RS excluded features standard on the standard, SE and MR models (stereo system, power windows and locks, rear wiper, rear wing, trunk lining and sound insulation). The resulting weight savings of over 60 lb (27 kg) gave the RS a subtly sharper handling responsiveness that helped it shave fractions of a second off the lap times of other models on an identical course.[citation needed] However, the top-end MR had a high top speed, since its 6th forward gear allowed it to reach 165 mph (266 km/h) at 7,000 rpm compared to 157 mph (253 km/h) at 7,000 rpm in 5th for the RS and middle-positioned IX models.[citation needed] (Note: Data relevant to U.S. model specifications)

The IX MR retained the features of the Evolution VIII MR, like Bilstein shocks, a 6-speed manual transmission, a rooftop vortex generator, BBS forged wheels, HID xenon headlights, foglights, accessory gauge package, "zero lift" kit, special badging and an aluminum roof. All models continued to sport Recaro bucket seats, Brembo brakes and MOMO steering wheels. Additional revisions from 2005 included a closer gear ratio for the 5-speed manual transmission, new lighter Enkei wheels on non-MR models, a redesigned front end with a more efficient air dam (the most noticeable feature are the two small oval ducts to cool the intercooler pipes), and a new rear bumper with a diffuser undersurface to smooth out the airflow coming out of the car for non-US models. In an effort to reduce the price increase on the Evolution IX model,[citation needed] HID headlights were no longer standard equipment on the base IX (nor were they standard on the 2005 VIII), and were available only in the SSL package (Sun, Sound, and Leather), SE (Special Edition) and MR trims.

Three trims were available for Japan, Asia and Europe. Although all models used the same 286 hp (213 kW) engine, the torque differed from one model to another. In Europe, however, the Evolution IX was advertised to have 280 hp (206 kW). The GSR produced 295 ft·lbf (400 N·m) of torque, while the RS and GT produced 300 ft·lbf (407 N·m).

  • RS - "ralli sport", revised 5-speed, aluminium roof, gauge pack, minimal interior, LSD and a titanium-magnesium turbine, left-hand drive option available.
  • GT - revised 5-speed, this is basically the RS mechanically, but with some of the GSR's features (mainly interior pieces).
  • GSR - 6-speed, Bilstein monotube shocks, aluminium roof, gauge pack, SAYC (Super Active Yaw Control), and double-din radio (this is roughly equivalent to the USDM MR).

In the United Kingdom, the Evolution IX used a different model scheme based on the car's horsepower. There were initially three models available: the FQ-300, FQ-320 and FQ-340 each with around 300, 320 and 340 bhp (254 kW) respectively. An FQ-360 model was subsequently released as a successor to the Evolution VIII FQ-400. While the new FQ-360 produced less horsepower than its predecessor, it had more torque at 363 lb·ft (492 N·m) at 3200 rpm - 8 lb·ft (11 N·m) more than the FQ-400. All four models were designed to run on super unleaded petrol only.

  • FQ-300, 320, 340 - 6-speed, Bilstein monotube shocks, AYC (Active Yaw Control), super unleaded petrol only
  • FQ-360 - 6-speed, Bilstein monotube shocks, AYC (Active Yaw Control), Ralliart Sports Meter Kit, carbon front splitter, Speedline alloy wheels, super unleaded petrol only

Four models were available in the US. All models used the same 286 hp (213 kW) engine. All models used a front and rear Limited Slip Differential, and an Active Center Differential.

  • Standard - revised 5-speed, standard model
  • RS - ralli sport, revised 5-speed, aluminum roof, gauge pack, minimal interior
  • SE - Special Edition, aluminum roof/hood, and front fenders, split seven-spoke forged aluminum BBS wheels in "diamond black" finish, HID headlights with integrated fog lights, red-stitched Recaro seats
  • MR - 6-speed, Bilstein monotube shocks, split seven-spoke forged aluminum BBS wheels, aluminum roof, hood, and front fenders, gauge pack, HID headlights with integrated fog lights, vortex generator, and custom MR badging.

All of the American models are the same in power and performance. The only thing that sets them apart is the Evo RS, which is 80 lb (36 kg) lighter than the MR and SE models.

To the standard (or "GSR") model, the Sun, Sound and Leather package added a power sunroof, HID xenon headlamps with integrated fog lights, a slightly different stereo headunit (with no integral amplifier), slightly upgraded speakers in the front doors and parcel shelf, a 4.1-channel amplifier under the driver's seat, a powered, trunk-mounted Infinity subwoofer, black leather seating surfaces, leather-trimmed door panels, slightly revised center armrests in the front and rear, and separate rear side headrests. This model deleted the GSR's headliner-mounted sunglass holder to make room for the sunroof.

A 2,500-piece, limited edition Evolution IX station wagon was released in Japan soon after the sedan's debut. It used the back end of the Lancer Sportback wagon grafted onto the sedan. Two trim models were introduced: the GT with a six-speed manual transmission and the GT-A with a 5-speed automatic. Other than the station wagon rear end, redesigned seats and some chromed trims, the car's interior was the same as the sedan.

Mitsubishi also developed the Evolution MIEV, based on the Evolutions IX's chassis but with four electric motors connected to the wheels as a test bed for the Mitsubishi In-wheel Electric Vehicle (MIEV) next-generation electric vehicle. The in-wheel motors used a hollow doughnut construction to locate the rotor outside the stator, unlike other electric motors where the rotor turns inside the stator. The result of this was a lighter motor which translated into lower unsprung weight than a system with the motors mounted in the wheels. Each in-wheel motor produced a power output of 68 hp (51 kW), thus giving a combined output of 272 hp (203 kW), comparable to that of regular, petrol powered Lancer Evolutions. The car competed in the Shikoku EV (Electric Vehicle) Rally 2005.

The Philippines currently has the Evolution IX, which is offered in two trims, the entry-level RS offering a 5-speed manual transmission, Brembo 17-in. ventilated discs (4-Pot), Brembo 16-in ventilated drum-in-disc (2-Pot) and almost the same features as to that of the GSR trim in the international version. The MR is the top-of-the-line segment, which offers almost the same feature as to that of the MR trim in the international verision. All of them are powered by a l4 2.0 4G63 turbocharged MIVEC engine.

Evolution X

Tenth Generation
2008 Mitsubishi Lancer Evolution X
Production October 2007-present
Body style(s) 4-door sedan
Platform CZ4A
Transmission(s) 6-speed twin-clutch gearbox
5-speed manual
Wheelbase 2650 mm (104.3 in)
Length 4495 mm (177 in)
Width 1810 mm (71.3 in)
Height 1480 mm (58.3 in)
Curb weight 1420 kg (3131 lb)-1600 kg (3527 lb)

In 2005, Mitsubishi introduced a concept version of the next-gen Evolution at the 39th Tokyo Motor Show named the Concept-X.[10]
Mitsubishi unveiled a second concept car, the Prototype-X, at the 2007 North American International Auto Show (NAIAS).[11]

The Lancer Evolution X sedan features a newly designed 4B11T 2.0 L turbocharged, all-aluminum inline-4 engine. Power and torque depend on the market but all versions will have at least 280 PS (205.9 kW/276.2 hp) (JDM version), the American market version will have slightly more. The UK models will be reworked by Mitsubishi UK, in accordance with previous MR Evolutions bearing the FQ badge. Options for the UK Evolutions are expected to be between 300 hp (220 kW) and 360 hp (270 kW). Two versions of the car will be offered in the U.S. The Lancer Evolution MR, with 6-speed Twin Clutch Sportronic Shift Transmission (TC-SST). The other version is the GSR which will have a 5-speed manual transmission system. The car has also a new full-time all-wheel drive system named S-AWC (Super All Wheel Control), an advanced version of Mitsubishi's AWC system used in previous generations.[12]. The S-AWC uses torque vectoring technology to send different amount of torque to any wheel at any given time.

It also features Mitsubishi's new sequential semi-automatic six speed Twin Clutch SST twin-clutch transmission with steering-mounted magnesium alloy shift paddles. A 5-speed manual gearbox will also be available. Mitsubishi claims that the 5 speed manual transmission has always been preferred in rallying and should be very refined, resulting in a more satisfying drive.[13] New Lancer Evolution will incorporate Mitsubishi's next generation RISE safety body.

The production version of Prototype-X has begun production in Autumn 2007. The Evolution X went on sale October 1, 2007 in Japan [14] then in January 2008 in the U.S.A. [15], February in Canada (as the first version of Evolution in Canada)[16] and in March 2008 in the UK [17] at prices between £27,499 and £37,999.[18] The Twin Clutch SST version was available in Japan from November 2007.[19] Europe will follow with sales in May, GSR and MR version (= incl. Premium Package).

Japanese models

The engine is the 4B11-type 2.0 litre inline-4 turbo and produces 300 PS(221 kW/296 hp) at 6500 rpm 422 N·m (311 ft·lbf) (43.0 kg-m) at 3500 rpm. Aluminum is used in the roof panel, front fenders and the rear spoiler frame structure.[20]

  • RS - 5 speed manual transmission. 18-inch tires. Driver dual-stage airbag. Standard Engine immobilizer.
  • GSR - Standard rear spoiler. 5 speed manual or 6-speed Twin Clutch SST transmission (magnesium paddle shifters on SST model). 245/40R18 tire on Enkei 12-spoke high-rigidity cast alloy wheels or optional BBS lightweight alloy wheels. Brembo ventilated disc brakes. Standard S-AWC 4WD system. Driver and front passenger dual-stage airbag. Standard Engine immobilizer with security alarm. Optional Mitsubishi Motors Communication System (MMCS) which comprises a 30Gb hard disk drive audio/navigation system with 7-inch (180 mm) LCD screen. Optional Rockford Fosgate premium sound system. Optional keyless remote entry.

GSR can be fitted with following packages:

  • High Performance Package - Bilstein single tube shock absorbers and Eibach coil springs, brembo 2-piece disc brakes, high performance tires with stiffer walls and better grip.
  • Stylish Exterior Package - Chrome finish for the front grille lattice and beltline molding, body color-keyed fender vents, adds fog lamps.
  • Leather Combination Interior - The seats matches the color of the exterior.
  • Premium Package - All 3 above packages plus 18-inch (460 mm) BBS lightweight alloy wheels.

[edit] North American models

Engine produces 407 N·m (300 ft·lbf) (41.5 kg-m) at 4400 rpm and 217 kW (295 PS/291 hp) at 6500 rpm.

  • GSR - Same as base Japanese GSR. (available only with manual 5 speed)
  • MR - 6-speed TC-SST transmission. Suspension with Eibach springs and BILSTEIN struts. 18-inch BBS forged alloy wheels. Xenon High-Intensity Discharge (HID) headlamps. Color-keyed large rear spoiler. Leather and sueded seating. Electronic keyless entry and starting system. Steering wheel-mounted audio controls. Bluetooth hands-free cellular phone interface system with voice recognition.
  • MR Premium - MR with a 650 watt (max) Rockford Fosgate stereo with 9 speakers.[21] The North American model has been tested against Nissan Skyline R32, Nissan Skyline R33, Nissan Skyline R34, Subaru WRX STI, Acura NSX and Mazda RX-7 and failed to beat the slowest quarter mile time of 10.43 seconds.

Option packages:

  • (GSR only) Sight, Sound and Spoiler Package - Xenon HID headlamps with manual leveling; large rear spoiler; FAST-Key electronic entry and starting system; 650-watt (maximum) Rockford Fosgate audio system; in-dash 6-disc CD changer; SIRIUS Satellite Radio with six months prepaid subscription.
  • (MR only) Technology Package: Mitsubishi Multi Communication System, GPS navigation with Diamond Lane Guidance; 30GB hard disc drive with Digital Music Server, in-dash DVD/CD player, multifunction 7-inch (180 mm) color LCD touchscreen, 650-watt (maximum) Rockford Fosgate high-performance audio system, SIRIUS Satellite Radio with six months prepaid subscription.

British models

British cars kept the Evolution X name.

  • GS - Base Japanese GSR with Enkei wheels, 5-speed manual transmission, Stereo radio/CD with MP3 compatibility and 6 speakers.
  • GSR - GS with HDD navigation with radio and music server (MMCS), Rockford Fosgate premium audio, iPod/MP3 auxillary input port.
  • GSR SST (FQ-300 only) - GSR FQ-300 with 6-speed TC-SST transmission with SST mode selection (normal, sport, super sport).

Engine options:

  • FQ-300 - Engine rated 295 PS (291 hp/217 kW) at 6500 rpm and 407 N·m (300 lb·ft) at 3500 rpm.
  • FQ-330 - Engine rated 329 PS (324 hp/242 kW) at 6500 rpm and 437 N·m (322 lb·ft) at 3500 rpm.
  • FQ-360 - Engine rated 359 PS (354 hp/264 kW) at 6500 rpm and 492 N·m (363 lb·ft) at 3500 rpm. Carbon fibre front lip spoiler, rear vortex generator, gear knob, hand brake. Front leather Recaro seats.

Australian models

Engine rated 295 PS (291 hp/217 kW) at 6500 rpm and 366 N·m (270 lb·ft) at 3500 rpm.

  • GSR - 5 speed manual or 6-speed TC-SST transmission.
  • MR - 6-speed TC-SST transmission. Suspension with Eibach springs and BILSTEIN struts. 18-inch BBS forged alloy wheels. Xenon High-Intensity Discharge (HID) headlamps. Mitsubishi Multi Communication System.

Kereta Sport

A sports car is a term used to describe a class of automobile. The exact definition varies, [1] but generally it is used to refer to a low to ground, light weight vehicle with a powerful engine. Most vehicles referred to as sports cars are rear-wheel drive, have two seats, two doors, and are designed for more precise handling, acceleration, and aesthetics. A sports car's dominant considerations can be superior road handling, braking, maneuverability, low weight, and high power, rather than passenger space, comfort, and fuel economy.

Sports cars can be either luxurious[2] or spartan, but driving mechanical performance is the key attraction. Many drivers regard brand name and the subsequent racing reputation and history as important indications of sporting quality (for example, Ferrari, Porsche, Lotus), but some brands, such as Lamborghini, which do not race or build racing cars, are also highly regarded.

A car may be a sporting automobile without being a sports car. Performance modifications of regular, production cars, such as sport compacts, sports sedans, muscle cars, hot hatches and the like, generally are not considered sports cars, yet share traits common to sports cars. They are sometimes called "sports cars" for marketing purposes for increased advertising and promotional purposes.[3] Performance cars of all configurations are grouped as Sports and Grand tourer cars, or, occasionally, as performance cars.

A sports car does not require a large, powerful engine, though many do have them. Many classic British sports cars lacked powerful engines, but were known for exceptional handling due to light weight, a well-engineered, balanced chassis, and modern suspension (for example, Lotus Seven, Austin 7 Speedy). On tight, twisting roads, such a sports car may perform more effectively than a heavier, more powerful car.

Due to North American safety regulations, many sports cars are unavailable for sale or use in the United States and Canada. In the United Kingdom, Europe, and the Middle Eastern market (e.g. UAE), a flexible attitude towards small-volume specialist manufacturers has allowed companies such as TVR, Noble, and Pagani to succeed.



The sports car traces its roots to early 20th century touring cars. These raced in early rallys, such as the Herkomer Cup, Prinz Heinrich Fahrt, and Monte Carlo.[4]

The first true sports cars (though the term would not be coined until after World War One) were the 3 litre 1910 Vauxhall 20 hp (15 kW) and 27/80PS Austro-Daimler (designed by Ferdinand Porsche).[4]

These would shortly be joined by the French DFP (which became sporters after tuning by H.M. and W. O. Bentley, the Rolls-Royce Silver Ghost. In the U.S. (where the type was variously called roadster, speedster, runabout, or raceabout, there was Apperson, Kissel, Marion, Midland, National, Overland, Stoddard-Dayton, and Thomas among small models (which today would be called sports cars), while Chadwick, Mercer, Stutz, and Simplex were among large ones (which might today be called sports sedans or grand tourers).[4]

In 1921, Ballot premiered its 2LS, with a remarkable 75 hp (56 kW) DOHC two liter, designed by Ernest Henry (formerly of Peugeot's Grand Prix program), capable of 150 km/h (90 mph); at most, one hundred were built in four years. This was followed by the SOHC 2LT and 2LTS. The same year, Benz built a supercharged 28/95PS four for the Coppa Florio; Max Sailer won.[4]

Simson in 1924 offered a Paul Henze-designed 60 hp (45 kW) DOHC 2 liter four, the Simson Supra Type S, in a long-wheelbase 120 km/h (60 mph) tourer and 115 km/h (71 mph) twin-carburettor sporter; only thirty were sold, against around three hundred of the SOHC model and 750 of the pushrod-six Type R. Duerkopp's Zoller-blown two liter in 1924, as well.[4]

1934 Aston Martin Ulster

There was a clear cleavage by 1925. As four-seaters were more profitable, two-seaters increasingly turned over to specialst manufacturers, led by Alvis, Aston-Martin, and Frazer-Nash, with shoestring budgets, fanatic followers, and limited sales (today exemplified by Aston and Morgan): between 1921 and 1939, 350 Astons were built; 323 Frazer-Nashes in the period 1924-39.[4]

By the end of the 1920s, AC produced a 2 liter six, the 3.5 liter Nazzaro had a three-valve OHC (only until 1922), while French makers Amilcar, Bignan, Hispano-Suiza, and Samson had the typical small four-cylinder sporters and Delage, Hotchkiss, and Chenard-Walcker the large tourers. Benz introduced the powerful SS and SSK, and Alfa Romeo, the Vittori Jano-designed 6C.[4]

Two companies would offer the first really reliable sports cars: Austin with the Seven and Morris Garages (MG) with the Midget. The Seven would quickly be "rodded" by numerous companies (as the Type 1 would be a generation later), including Bassett and Dingle (Hammersmith, London); in 1928, a Cozette blower was fitted to the Seven Super Sports, while Cecil Kimber fitted an 847 cc Minor engine, and sold more Midgets in the first year than MG's entire previous production.[4]


2005 Leopard 6 Liter Roadster, a classic sport-style front-engine, rear-wheel drive (FR) layout
Porsche Boxster, a rear mid-engine, rear-wheel (RMR) drive sports car
Alpine A110, a rear-engine, rear-wheel (RR) drive sports car
1990s Lotus Elan, a front-engine, front wheel (FF) drive sports car

The drive train and engine layout significantly influences the handling characteristics of an automobile, and is crucially important in the design of a sports car.

The front-engine, rear-wheel drive layout (FR) is common to sports cars of any era and has survived longer in sports cars than in mainstream automobiles. Examples include the Caterham 7, Mazda MX-5, and the Chevrolet Corvette.

In search of improved handling and weight distribution, other layouts are sometimes used. The RMR layout is commonly found only in sports cars — the motor is centre-mounted in the chassis (closer to and behind the driver), and powers only the rear wheels. Some high-performance sports car manufacturers, such as Ferrari and Lamborghini prefer this layout. Many modern cars, especially grand tourers, also use a FMR layout, with the motor sitting between the front axle and the firewall.

Porsche is one of the few, remaining manufacturers using the rear-engine, rear-wheel drive layout (RR). The motor's distributed weight across the wheels, in a Porsche 911, provides excellent traction, but the significant mass behind the rear wheels makes it more prone to oversteer in some situations. Porsche has continuously refined the design and in recent years added electronic driving aids (i.e. computerised traction-stability control) to counteract these inherent design shortcomings.[5]

Some sport cars have used the front-engine, front-wheel drive layout (FF), e.g. Fiat Barchetta, Saab Sonett and Berkeley cars. This layout is advantageous for small, light, lower power sports cars, as it avoids the extra weight, increased transmission power loss, and packaging problems of a long driveshaft and longitudinal engine of FR vehicles. Yet, its conservative handling effect, particularly understeer, and the fact that many drivers believe rear wheel drive is a more desirable layout for a sports car make this layout atypical to high-performance sports cars. The FF layout, however, is common in sport compacts and hot hatches, such as the Honda Civic Si/Type R and the Volkswagen Golf GTi, and cars in general (excepting sports cars).

Before the 1980s few sports cars used four-wheel drive, which had traditionally added a lot of weight. Although not a sports car, the Audi Quattro proved its worth in rallying. With its improvement in traction, particularly in adverse weather conditions, four-wheel drive is no longer uncommon in high-powered sports cars, e.g. Porsche, Lamborghini, and the Bugatti Veyron.

[edit] Seating

Some sports cars have small back seats that are really only suitable for luggage or small children. Such a configuration is often referred to as a 2+2 (two full seats + two "occasional" seats). The Mazda RX-8 includes two small backward-opening doors to better accommodate extra passengers.

Over the years, some manufacturers of sports cars have sought to increase the practicality of their vehicles by increasing the seating room. One method is to place the driver's seat in the center of the car, which allows two full-sized passenger seats on each side and slightly behind the driver. The arrangement was originally considered for the Lamborghini Miura, but abandoned as impractical because of the difficulty for the driver to enter/exit the vehicle. McLaren used the design in their F1.

Another British manufacturer, TVR, took a different approach in their Cerbera model. The interior was designed in such a way that the dashboard on the passenger side swept toward the front of the car, which allowed the passenger to sit farther forward than the driver. This gave the rear seat passenger extra room and made the arrangement suitable for three adult passengers and one child seated behind the driver. The arrangement has been referred to by the company as a 3+1.[citation needed] Some Matra sports cars even had three seats squeezed next to each other.