Toyota GR Supra LBWK Edition - Crew Motorfest Gameplay Test Drive

The Toyota Supra (Japanese: トヨタ・スープラ, Hepburn: Toyota Sūpura) is a sports car and grand tourer manufactured by the Toyota Motor Corporation beginning in 1978. The name "supra" is derived from the Latin prefix, meaning "above", "to surpass" or "go beyond".[3]

The initial four generations of the Supra were produced from 1978 to 2002. The fifth generation has been produced since March 2019 and went on sale in May 2019.[4] The styling of the original Supra was derived from the Toyota Celica, but it was both longer and wider.[5] Starting in mid-1986, the A70 Supra became a separate model from the Celica. In turn, Toyota also stopped using the prefix Celica and named the car Supra.[6] Owing to the similarity and past of the Celica's name, it is frequently mistaken for the Supra, and vice versa. The first, second and third generations of the Supra were assembled at the Tahara plant in Tahara, Aichi, while the fourth generation was assembled at the Motomachi plant in Toyota City. The 5th generation of the Supra is assembled alongside the G29 BMW Z4 in Graz, Austria by Magna Steyr.

The Supra traces much of its roots back to the 2000GT owing to an inline-6 layout. The first three generations were offered with a direct descendant to the Crown's and 2000GT's M engine. Interior aspects were also similar, as was the chassis code "A". Along with this name, Toyota also included its own logo for the Supra. It was derived from the original Celica logo, being blue instead of orange. This logo was used until January 1986, when the A70 Supra was introduced. The new logo was similar in size, with orange writing on a red background, but without the dragon design. That logo, in turn, was on Supras until 1991 when Toyota switched to its current oval company logo. The dragon logo was a Celica logo regardless of what colour it was. It appeared on the first two generations of the Supra because they were officially Toyota Celicas. The dragon logo was used for the Celica line until it was also discontinued.[citation needed]

In 1998, Toyota ceased sales of the fourth-generation Supra in the United States.[6] Production of the fourth-generation Supra for worldwide markets ended in 2002. In January 2019, the fifth-generation Supra, which was co-developed with the G29 BMW Z4, was introduced.

The A80 program began in February 1989 under various teams for design, product planning, and engineering led by Isao Tsuzuki. By the middle of 1990, a final A80 design concept from Toyota Technical Centre Aichi was approved and frozen for production in late 1990. The first test mules were hand-built in A70 bodies during late 1990, followed by the first A80 prototypes being hand-assembled in 1991.

This redesign saw Toyota placing great emphasis on a more serious high-performance car. The A80 featured two new engines: a naturally aspirated Toyota 2JZ-GE having a power output of 164 kW (220 hp; 223 PS) at 5,800 rpm and 210 lb⋅ft (285 N⋅m) at 4,800 rpm of torque and a twin turbocharged Toyota 2JZ-GTE having a power output of 206 kW (276 hp; 280 PS) and 318 lb⋅ft (431 N⋅m) of torque for the Japanese model. For the export model (American/European markets) Toyota upgraded the Supra turbo's engine (by installing smaller, steel wheeled turbochargers and bigger fuel injectors, etc.). This increased the power output to 239 kW (321 hp; 325 PS) at 5,600 rpm and 315 lb⋅ft (427 N⋅m) of torque at 4,000 rpm (243 kW (326 hp; 330 PS) and 325 lb⋅ft (441 N⋅m) for European markets) Upon its launch in 1993, it was the first Toyota-badged vehicle to include a passenger-side airbag as standard (US-market only).[31]

The twin turbochargers operated in sequential mode instead of parallel. Initially, all of the exhaust gases are routed to the first turbine for reduced lag. This resulted in boost and enhanced torque as early as 1,800 rpm, where it already produced 300 lb⋅ft (407 N⋅m) of torque. At 3,500 rpm, some of the exhaust gases are routed to the second turbine for a "pre-boost" mode, although none of the compressor output is used by the engine at this point. At 4,000 rpm, the second turbo's output is used to augment the first turbo's output. Compared to the parallel mode, sequential mode turbochargers provide quicker low RPM response and increased high RPM boost. This high RPM boost was also aided with technology originally present in the 7M-GE in the form of the Acoustic Control Induction System (ACIS) which is a way of managing the air compression pulses within the intake piping as to increase power.