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пятница, 18 января 2013 г.

How to Draw an Aston Martin, Aston Martin Virage




STEP 1.

 The first step is rather easy. All you have to do is draw out the outline guide of the body shape for the Aston Martin. This sort of looks like a oblong box.
how to draw an aston martin, aston martin virage step 1                                                                                                                                                           

 
how to draw an aston martin, aston martin virage step 2

STEP 2.

 Using the guide shape that you just drew, begin slowly sketching out the actual body of the car. The best place to start is at the roof, and then move your way down and around. You really can't use a ruler here because there is no sharp points or lines, is a rounded vehicle. If you want, you can draw out a box outline of the Aston Martin and then round off the edges as you go along.
 
how to draw an aston martin, aston martin virage step 3

STEP 3.

 As you can see you will start drawing out the windshield, and passenger side window. When that is one draw out the oblong shaped headlights and move to step four.
 
how to draw an aston martin, aston martin virage step 4

STEP 4.

 Draw the passenger door, and then begin sketching out the running boards under the door. Next, draw in the framing for the window, and then draw in passenger seat and the detailing on the fender which crosses onto the door. Don't forget to draw in the handle, as well as the keyhole.
 
how to draw an aston martin, aston martin virage step 5

STEP 5.

 I always draw in the wheels last so what we will do here first is draw out the detailing to the front of the Aston Martin. Start by sketching in the raised hood lines, and then draw in the front grill. Next, continue to sketch out the lining for the spoiler and bumper like so and then add some detailing to the grill plate.
 
how to draw an aston martin, aston martin virage step 6

STEP 6.

 Almost done guys. What you will do now is draw out the tires and rims lining inside of the wheels. Once that is done move to step eight which is also the last drawing step. When drawing out the tires, make sure to have the bottom of each wheel appear to be a little flat. This is done for realism. We all know that tires are not perfectly round when bolted to a car, the weight of the vehicle presses on each tire.
 
how to draw an aston martin, aston martin virage step 7

STEP 7.

 And finally, lets carefully sketch out the rims. These are spoked style rims and the easiest way to draw them out is to draw pie slice shapes all the way around. Start at a mid point and draw a star in the center of the rim. Work around the center so that each space gets drawn in evenly and accurately. Erase the lines and shapes that you drew in step one to clean up your new Aston Martin.
 
how to draw an aston martin, aston martin virage step 8

STEP 8.

 Here is what the new drawing looks like when you are all done. Now you can choose a shade to color in your brand new car with. It wasn't that hard to draw an Aston Martin, but from the image it sure does look hard.
 

How to Draw a Lamborghini Murcielago, Lamborghini Murcielago





STEP 1.

 Start off with a basic guide-work for the vehicle. The shape shown is similarly shaped to match the car, so it will be easier to draw the entire frame. Take your time drawing these guides since the accuracy totally depends on it. Make sure you draw the guides LIGHTLY!
                                                                                                                how to draw a lamborghini murcielago, lamborghini murcielago step 1


 
how to draw a lamborghini murcielago, lamborghini murcielago step 2

STEP 2.

 Next, work on the frame of the car, working your from from the front to the rear. It's always better drawing from the front since there's leading focus supporting it. Take your time to draw this, you don't want to flunk up!
 
how to draw a lamborghini murcielago, lamborghini murcielago step 3

STEP 3.

 Then, it's time to work on the front details, like the windshield and the spiffy design on the hood. I love how the Lamborghini has an epic design, everything looks so smooth, like a power horse! Keep these lines straight and slightly curved as possible!
 
how to draw a lamborghini murcielago, lamborghini murcielago step 4

STEP 4.

 It's time to shape up the siding of the car by adding the windows and the door paneling. The windows contain alot of detailing so it's best to finish them off before working on the mirror and doors.
 
how to draw a lamborghini murcielago, lamborghini murcielago step 5

STEP 5.

 Next, work on the front of the car, which requires little detailing. The shapes should be even with each other, regardless of the perspective.
 
how to draw a lamborghini murcielago, lamborghini murcielago step 6

STEP 6.

 It's time to draw the wheels! You don't want to make them look flat, so draw a slight edge to the bottoms to give it a feel of depth and presence. You don't want COMPLETELY ROUND wheels, which would look ridiculous and bike-like.
 
how to draw a lamborghini murcielago, lamborghini murcielago step 7

STEP 7.

 Lastly, add the rims, starting with the outer-shape and then the inner detailing. Sketch from the first wheel to the last.
 
how to draw a lamborghini murcielago, lamborghini murcielago step 8

STEP 8.

 Clean up your lines and you should be finished with something similar to this! I hope ya'll enjoyed this tut as much as I had making it!
 

четверг, 17 января 2013 г.

Skyline Generation 12

Skyline Generation 11

Skyline Generation 10


Non GT-R models were now equipped with the NEO series (more fuel-efficient and environmentally-friendly) of RB engines.
The R34 GT-R would become the posterchild of Japanese performance cars and it held legendary status even in places like the United States
where it was never even sold.
 
R34 Models:
GT– Powered by 2.0L RB20DE NEO
GT-X, GT-V – Powered by 2.5L RB25DE NEO
GT-T – Powered by 2.5L RB25DET NEO Turbo
GT-R Projects:
GT-R – Powered by 2.6L RB26DETT Twin Turbo
GT-R V-Spec - Additional aero parts, brake ventilation ducts
GT-R V-Spec II - As above with carbon fiber.
GT-R N1 - Blue printed N1 motor, no A/C, no stereo, no rear wiper, basic interior trim. (only 45 made)
GT-R M-Spec - Leather interior, softer suspension with "Ripple Control" damper,heated seats.
GT-R V-Spec II Nür - As above V-Spec II + N1 motor, 300 km/h speedo. (only 750 made)
GT-R M-Spec Nür - As above M-Spec + N1 motor, 300 km/h speedo. (only 250 made)
GT-R NISMO R-tune
GT-R NISMO Z-tune – Powered by 2.8L (bored and stroked) RB26DETT Twin Turbo (Only 20 made)

       


       
 

Skyline Generation 9


in the market: 1993– 1998
 
Nissan Skyline R33
 

The R33 Skyline was launched in August 1993. Almost similar to its predecessor R32 but slightly heavier. Coupe and Sedan body form are available on R33.
All models now used a 6-cylinder engine.
Nissan later release a R33 Wagon (September 1996), called the Stagea 
R33 models:
R33 GTS – Powered by 2.0L RB20E SOHC, RWD
R33 GTS25 – Powered by 2.5L RB25DE DOHC , RWD
R33 GTS-4 – Powered by 2.5L RB25DE DOHC, AWD
R33 GTS25T – Powered by 2.5L RB25DET DOHC Turbo


       


     

Skyline Generation 8


in the market: 1989– 1994
 
Nissan Skyline R32
 
The R32 Skyline was launced May 1989. Avaliable either a 2-door coupe or 4-door hardtop sedan.
 
R32 Models:
GXi Type-X – Powered by 1.8L CA18i 91HP, RWD
GTE Type-X – Powered by 2.0L RB20E,125HP, RWD
GTS Type-X, S, J – Powered by 2.0L RB20DE Engine 155HP, RWD
GTS-25 Type-X, S, XG – Powered by 2.5L RB25DE, 180HP, RWD
GTS-t Type-M – Powered by 2.0L RB20DET Turbo, 212HP, RWD
GTS-4 – Powered by 2.0L RB20DET Turbo, 212HP, RWD
Autech Skyline – Powered by 2.6L RB26DE, 217HP, RWD
GT-R – Powered by 2.6L RB20DETT Twin Turbo, 276HP, RWD


     

Skyline Generation 7


in the market: 1985– 1989
 
Nissan Skyline R31
 
From this generation, it started the RB20 series engine.
It came out with a quite a few trims.
 
1800I – Powered by 1.8L CA18 DOHC Engine, 4cylinder, 100HP
GT – Powered by RB20E Engine, 4cylinder, 130HP, RWD
GTS-R – Powered by RB20DET, a 2.0l DOHC inline-6 turbo with 180hp at 6400rpm, RWD.
It was the first in a great family of engines that the later GT-R's RB26DETT and other Skyline engines up to the R34 series also belonged to.
RB31 engine which commonly referred as “Red Top” Engine because of its red cam covers.
 

    

Skyline Generation 6


in the market: 1981– 1985
 
Nissan Skyline R30 
 
Starting from this generation, Nissan Skyline model prefix change to R3X onwards….
R30 was available in the following form:  2door hardtop coupe, 4door sedan and a five door hatchback.
 
1800TI – Powered by 1.8L Z18S SOHC Engine, 105HP
2000TI – Powered by 2.0L CA20E SOHC Engine
2000TI - Powered by 2.0L  Z20E SOHC Engine
2000GT - Powered by 2.0L L20E SOHC Engine
2000GT Turbo – Powered by 2.0L L20ET Turbo Engine, 140 hp
RS – Powered by 2.0L FJ20E DOHC Engine, 150 hp
RS-X and RS-X Turbo C – Powered by 2.0L FJ20ET DOHC Turbo Engine, 190 to 205 hp

Skyline Generation 5


in the market: 1977– 1981
 
Skyline C211 Series 
 
1600TI - Powered by L16T 1.6L Engine, 95HP, Twin Carburetors
 
1800GT - Powered by L18T 1.8L Engine, 115HP, Twin Carburetors
 
2000GT-EL – Powered by L20E 2.0L Engine, 130HP
 
2000GT-EX – Powered by L20ET Turbo 2.0L Engine, 145HP
- The GT-EX replaced GT-R with a turbocharged engine, the L20ET

        

Skyline Generation 4


in the market: 1972– 1977
 
Skyline C110 Series
 
1600GT - Powered by G16 1.6L Engine, RWD
 
1800GT - Powered by G18 1.8L Engine, 100HP, RWD
 
2000GT-X – a successor of C10 2000GT. It was powered by an improved version of the L20 engine with an output of 130hp.
 
2000GT-R - Powered by S20 2.0 Engine, 160HP, RWD, 1998 cc
 
In the 1970s, the C110 and GC110 Skyline was sold as the Datsun K-series, with models such as the Datsun 160K, 180K and Datsun 240K
The C110 was the first version to feature the round rear lights, typical of later Skyline designs.
The Nissan Skyline GT-R hardtop arrived in September 1972 but only lasted until March 1973, when Nissan ceased its production.
The oil crisis saw many people preferring economy cars and high-performance sports cars were looked down upon.
Nissan pulled out of Motor Racing, so there was no purpose to the GT-R. It was not officially exported anywhere, although Nissan contemplated exporting to Australia.
Only 197 KPGC110 GT-Rs were ever sold in Japan, through specialist Nissan Performance shops (before it was called NISMO).
This was the last GT-R for 16 years until the BNR32 in 1989
.
 
 
           


Skyline Generation 3


in the market: 1968 – 1972
 
Skyline C10 Series 1500 Series - Powered by G15 1.5L Engine, 88HP, RWD
- a successor of S50 series.
- with 4 door sedan and 5 door wagon form
- This were the last model that carry Prince Badge, later renamed as Nissan Skyline

  
 
1800 Series - Powered by G18 1.8L Engine, 100HP, RWD
 
Skyline KGC10 2000GT-X - Powered by L20 2.0L Engine, 120HP, RWD, 1998 cc
- this is a derivative of C10 originals, (G means GT).         
- GC10 2000GT – 4 door sedan
- KGC10 2000GT – 2 door coupe

             

Skyline 2000GT-R - Powered by S20 2.0 Engine, 160HP, RWD, 1998 cc
- Also called the PGC-10
- the first GT-R Skyline appear February 1969.

Skyline Generation 2


n the market: 1963 – 1968
 
Prince Skyline S50 (1961)
 
S50 - Powered by G1 Engine, 70HP, RWD, 4cylinder, 1484cc
- with 4 door sedan and 5 door wagon form - W50
 
S57 - Powered by G15 Engine, 88HP, RWD, 4 cylinder, 1483cc
- it was known to be the most powerful 1500cc engine in its class in Japan.





In 1966, Prince Motor Company and Nissan Motors merged.
 
 2000GT (S54 Series – GTA/GTB) - Powered by G7 Engine, 105HP, RWD
- the birth of the legend.
- It started here when the entered into the GT-II race at the second Grand Prix.

Skyline Generation 1


in the market: 1957 - 1963
 
Prince Skyline ALSI Series 
 
ALSI Series I – Powered by GA30 Engine, 60HP, RWD
ALSI Series II – Powered by GA4 Engine, 70HP, RWD
- marketed as a luxury car, 4 door for sedan and 5 door for wagon.






BLRA-3 – Powered by GB30 Engine, 83HP, RWD
- an ALSI sport series with coupe and convertible models


Nissan Skyline History


                                                                                  

The Skyline name originated from Japanese car manufacturer Prince Automobile. Prince Automotive company
started to build Skylines as a line of sedans. In 1966, Prince Automobile company merge with Nissan - Datsun.
The GT-R abbreviation stands for Gran Turismo Racer while the GT-B stands for Gran Turismo Berlinetta.
The Japanese chose to use English when naming the car as most cars made in Japan at that time used
American abbreviation to further enhance sales.
The earliest predecessor of the GT-R, the S54 2000 GT-B, came second in its first race in 1964 to the purpose-built
Porsche 904 GTS. The next development of the GT-R, the four-door PGC10 2000 GT-R, scored 33 victories
in the one and a half years it raced. The car took 1000 victories by the time it was discontinued in 1972.
The last of the original GT-Rs, the KPGC110 2000GT-R, used an unchanged S20 160HP Inline -6 engine from
the earlier 2000 GT-R and only sold 197 units due to the worldwide energy crisis. This model was the only GT-R
to never participate in a major race despite the sole purpose-built racecar which now resides in Nissan's storage
unit for historical cars in Zama.
 
The Skyline continued into the 1990s when it became popular largely because it remained rear wheel drive,
while most other manufacturers were focusing on front wheel drive cars. 
Throughout its lifetime, various special editions
containing additional performance-enhancing modifications, were released by Nissan and its performance division
Nismo (Nissan Motorsport).

Nissan Skyline ancestors was originally built and produced by the Prince Motor Company,
a japanese carmaker starting in 1957.  In 1957 the Skyline started as a ALSI series 1.

Toyota Celica Supra Mark I (1979-1981)



The first generation Toyota Supra was largely based upon the Toyota Celica hatchback. The doors and rear section stayed the same length as the Celica, but rear panels were longer by 5.1 inches (129.5 mm). The most notable change was the swap to an inline-6 engine instead of the stock Celica’s 4-cylinder engine. Toyota’s original plan for the Supra was to make it a competitor to the popular Datsun, now Nissan, Z-car.
In Japan, Toyota began production of the Mark I Supra in 1978. In 1979, the Toyota Supra entered the North American automotive market. The US Supra Mark I came equipped with a 110 hp (82 kW) 2.6 L (2563 cc) 12-valve inline-6 4M-E engine. In Japan, the Supra Mark I (chassis code MA45) had a slightly modified 110 hp (82 kW) 2.0 L 12-valve inline-6 M-EU engine. Both Toyota engines were the first ever equipped with electronic fuel injection.
Drivetrain options for the Mark I were either a 5-speed manual or an optional 4-speed automatic transmission. The drivetrain for the Supra retained the T series solid rear axle configuration of the Celica in the Japanese MA45 version and a larger F series and optional Limited Slip Differential in the MA46 and MA47. The Supra also came standard with 4-wheel disc brakes and a four-link rear suspension with coil springs, lateral track bar, and stabilizer/sway bar. The front suspension consisted of MacPherson struts and a sway bar.
On the inside, the Supra had an option of power windows and locks as part of the convenience package. This package also included cruise control and special door trim with door pull straps and an optional sunroof. Standard features, include an extendable map light and a fliptop armrest in the center console that provided storage. Some other features were tilt steering wheel, deep zippered pockets on the backs of the front seats, and tonneau cover under the liftback. The dashboard had a AM/FM/MPX 4-speaker stereo radio, analog clock, and tachometer as part of the instrument panel.
In 1980, the Japanese Mark I, also branded with the MA46 chassis code, was offered with a 145 hp (108 kW) 2.0 L (1988 cc) 12-valve turbocharged inline-6 M-TEU engine. The engine was equipped with a Garrett T03 Turbo, but was not intercooled. The M-TEU engine was the first Toyota engine to utilize a turbocharger.
Most of the changes for the 1980 US Supra were mostly cosmetic. The interior received a redesigned center console and a digital quartz clock. The exterior had redesigned side view mirrors and now standard 14×5.5 aluminum rims (optional in 1979). Body molded mudflaps with the word “Celica” painted in white lettering were also available. On the copper metallic and white Supras, the mudflaps were painted the body color while the mudflaps were left black on all other colors. There was also an optional of leather-trimmed seas and automatic climate-control.
In 1981, the Supra received an upgrade in displacement with the 2.8 L (2759 cc) 5M-E engine. The new 2.8L engine makes 116 hp (87 kW) and 145 ft·lbf (197 N·m) of torque. The cars automatic transmission was changed to the revised Toyota A43D and gained a revised final drive gearing. Because of the change in engine and transmission, a new chassis code of MA47 was made. The final year MK I Supra achieved a 0-60 MPH time of 10.24 seconds and finished the 1/4 mile in 17.5 seconds at 77.7 MPH.
Also in 1981, a new Sports Performance Package became an option, which included sport suspension, raised white letter tires, and front and rear spoilers. This also marked the last year that the 8-track cartridge was offered in any Supra.
Engine
  • 2.0 L (1988 cc) M-EU I6
  • 2.0 L (1988 cc) M-TEU I6
  • 2.6 L (2563 cc) 4M-E I6
  • 2.8 L (2759 cc) 5M-E I6
Transmission
  • 5-speed W50 manual
  • 4-speed A40D automatic
  • 4-speed A43D automatic
Chassis
  • Platform MA4x
  • Wheelbase 103.5 in (2628.9 mm)
  • Length 181.7 in (4615.2 mm)
  • Width 65.0 in (1651.0 mm)
  • Height 50.8 in (1290.3 mm)
  • Curb weight ~2800 lb (1270.1 kg)
Fuel capacity 16.1 U.S. GAL (60.4 L)
Toyota Celica Supra Mark I Toyota Celica Supra Mark I
Toyota Celica Supra Mark I Toyota Celica Supra Mark I


Toyota Celica Supra Mark II (1982-1986)

In 1982, Toyota completely redesigned the Celica Supra as well as the entire Celica lineup. In Japan, they were known as Celica XX, but everywhere else the Celica Supra name stuck. Still based around the Celica platform, there were several key differences most notably in the design of the front end and fully retractable pop-up headlights,  inline-6 engine, and increased overall length and wheel base designed to match the larger engine.
P-type and L-type
In the North American market, the Celica Supra was available in two distinct models. The Performance Type (P-type) and the Luxury Type (L-type). While being mechanically identical, they had different available options like tire size, wheel size, and body trim.
The P-type had fiberglass fender flares over the wheel wells, while the L-type did not. The P-type was also standard with the more sporty 8-way adjustable seats. The P-type did not get the option of leather seats until 1983. All editions of the P-Type had the same 14×7 aluminum alloy rims and throughout the years the L-Type had 14″x5.5″ rims until 1985 when they were changed to a P-type style 15×6. The L-type also had the option of a digital dash with trip computer, whereas the P-Type was only offered with an analog dash and digital clock. The digital dash featured a digital tachometer, digital speedometer, and electronic fuel level and coolant level gauges. The trip computer could calculate and display various things such as fuel economy in miles-per-gallon, estimated time of arrival (ETA), and distance remaining to destination. Excluding the 1982 model, all P-types were available with headlight washers as an option, but the L-types were never fitted with such an option. Although gear ratios changed throughout the years all P-types came standard with a limited slip differential (LSD).
In the 1982 North American market, the Celica Supra’s engine was the 2.8 L (2759 cc) 12-valve (2 valves per cylinder) DOHC 5M-GE. Power output was 145 hp (108 kW) and 155 ft·lbf (210 N·m) of torque. The engine utilized an 8.8:1 compression ratio to achieve the power and featured a vacuum advanced distributor. When the car debuted it clocked a 0-60 time of 9.8 seconds and netted a 17.2 second 1/4 at 80 MPH.
The standard transmission for this year was the W58 5-speed manual with the A43DL 4-speed automatic transmission being an option for L-types. Both transmissions featured an overdrive gear and the automatic featured a locking torque converter. The top gear in the 5-speed was its overdrive whereas the automatic transmission featured an overdrive gear that would engage at speeds over 35 mph. The 1982 models’ rear differential featured a 3.72:1 ratio. The Celica Supra’s 4-wheel independent suspension was specially tuned and designed by Lotus and featured variable assisted power rack-and-pinion steering and MacPherson struts up front. As for the rear, it had semi-trailing arm suspension with coil springs and a stabilizer bar. Braking on the Celica Supra was handled by 4-wheel disc brakes.
On the inside this generation had standard power windows, power door locks, and power mirrors as well as a tilt steering wheel. The power door lock was located in the center console next to the power mirror control. The analog dash of this year only went to 85 mph in North America. The optional automatic climate control on the MK I was renovated and was now seen as a standard feature on the MK II. Cruise control was standard in this generation. Toyota also included the retractable maplight as standard, just like with MK I Supras. Some options included the addition of a sunroof, two-tone paint schemes, and 5-speaker AM/FM/MPX tuner with cassette. The optional cassette stereo featured a 105-watt power amplifier and a 7-channel graphic equalizer to control tone. The standard stereo was a 5-channel AM/FM/MPX tuner. Leather was an option on L-Types this year, but P-types were stuck with standard striped cloth.
As far as the outside goes there was no external antenna it was simply located in the front windshield. There was a key lock on the gas tank door and the hatch and bumpers were black no matter what color the rest of the car was. The P-types were available with an optional rear sunshade above the hatch glass. The lights in the rear featured a reverse light in the center and the door handles opened the doors by pulling sideways. The front nose badge and B-pillar only read “SUPRA”. Although it is believed mudflaps weren’t introduced on this generation until 1983, all L-types had front and rear mudflaps.
For the 1983 models not much was altered, but there was an increase in power output to: 150 hp (112 kW) and 159 ft·lbf (216 N·m) of torque from the same 5M-GE. The only real change in the engine area was the switch to an electronic advanced distributor, yet that did not increase power. Toyota switched to a 4.10:1 rear gear ratio for the P-Type and a 3.73:1 for the L-Type. As for the optional automatic transmission they switched out the A43DL 4-speed for a newly designed A43DE 4-speed. It featured an electronic controller that would adjust its shift pattern for a balance between performance and economy. It was the first in the industry to provide an “Electronically Controlled Transmission” (ECT). This allowed the driver to choose either the “Power” driving mode or “Normal” driving mode at the touch of the button. The “Power” mode provided the quickest acceleration and the “Normal” mode provided the best all-around performance.
On the inside of the car there were virtually no changes, but on the outside they decided to switch to a power antenna and it was the first year both the P-Type and L-Type had standard mudflaps. The B-pillar and nose badge were changed to say “Celica Supra” now and only L-Types were available in two-tone color schemes.
In 1984, Toyota changed quite a bit on the Supra. Power output was increased on the 5-speed models with a bump up to 160 hp (119 kW) and 163 ft·lbf (221 N·m) of torque. The increase was achieved by a mixture of a redesigned intake manifold with “D”-shaped intake runners and an increase in compression ratio to: 9.2:1
Other changes would be a redesigned, more “integrated” sunshade and spoiler on the rear hatch. The rear spoiler was changed from a one piece to a two piece spoiler. Oddly the L-types of this year were not available with a leather interior, but P-types were. Toyota added a standard factory theft deterrent system and the outside mirrors were equipped with a defogger that activated with the rear defroster. All Supras this year received automatic-off lights that also encompassed an automatic illuminated entry and fade-out system.
While 1985 was to be the last year of the second generation model, delays in production of the third generation model led to a surplus of second generation Supras. During the first half of 1986 the 1985 MK II P-type was still offered for sale, with only minor cosmetic changes as well as the addition of a now mandatory rear-mounted third brakelight on the hatch. These were all labeled officially as 1986 models. P-types were the only model available in 1986.
MK IIs around the world
The second generation Supra came in a variety of options around the world as well as only being offered during select years.
Europe - Sold from 1982-1986.
  1. 82-83: 2.8 L (2759 cc) DOHC 5M-GE 174 hp (130 kW) and 207 ft·lbf (287 N·m) of torque. Analog dash, no fender flares.
  2. 84-86: 2.8 L (2759 cc) DOHC 5M-GE 178 hp (133 kW) and 212 ft·lbf (281 N·m) of torque. Digital dash, P-Type fender flares.
Great Britain - Sold from 1982-1986.
  1. 82-83: 2.8 L (2759 cc) DOHC 5M-GE 178 hp (133 kW) and 212 ft·lbf (281 N·m) of torque. Analog dash, no fender flares.
  2. 84-86: 2.8 L (2759 cc) DOHC 5M-GE 178 hp (133 kW) and 212 ft·lbf (281 N·m) of torque. Digital dash, P-Type fender flares.
Australia, Sweden, & Switzerland - Sold from 1984-1986.
  1. 2.8 L (2759 cc) SOHC 5M-E 116 hp (87 kW) and 145 ft·lbf (197 N·m) of torque.
In Australia, the Toyota Supra manufactured between 1982-1990, was assessed in the Used Car Safety Ratings 2006 as providing “worse than average” protection for its occupants in the event of a crash.
The 1984 Supra in Australia had a digital dash, fender flares, 82-83 style lights, one single piece spoiler and no sunroof.
New Zealand - Sold from 1984-1985
  1. 2.8 L (2759 cc) DOHC 5M-GE 178 hp (133 kW) and 212 ft·lbf (281 N·m) of torque. Digital dash, P-Type fender flares.
Engine
  • 2.0 L (1988 cc) M-TEU I6
  • 2.0 L (1988 cc) M-TE I6
  • 2.0 L (1988 cc) 1G-EU I6
  • 2.0 L (1988 cc) 1G-GEU I6
  • 2.8 L (2759 cc) 5M-E I6
  • 2.8 L (2759 cc) 5M-GE I6
Transmission
  • 5-speed W58 manual
  • 4-speed A43DL automatic
  • 4-speed A43DE automatic
Chassis
  • Platform MA6x, GA6x
  • Wheelbase 102.9 in (2613.7 mm)
  • Length 183.5 in (4660.9 mm)
  • Width 67.7 in (1719.6 mm)
  • Height 52.0 in (1320.8 mm)
  • Curb weight ~3000 lb (1360.8 kg)
Fuel capacity 16.1 U.S. GAL (60.4 L)
Toyota Celica Supra Mark II Toyota Celica Supra Mark II
Toyota Celica Supra Mark II Toyota Celica Supra Mark II


Toyota Supra Mark III (1986 1/2-1992)

In the middle of 1986, Toyota was ready to release its next version of the Supra. The official model year is designated as 1986.5. The bonds between the Celica and the Supra were now severed. The Celica changed to front wheel drive, while the Supra kept its rear wheel drive platform. Though the Mark II and Mark III had similar designs, the engine was updated to a more powerful 3.0 L straight 6. Although only available in naturally aspirated trim in 1986.5, a second version of the engine was introduced in 1987 which featured a turbocharger.
The new Mark III Supra engine was now Toyota’s flagship engine. Both versions of the engine contained 4 valves per cylinder and dual overhead cams. The turbocharged 7M-GTE engine was Toyota’s first distributor-less engine offered in the U.S. and was rated at 232 hp (173 kW) at 5600 RPM while the naturally-aspirated 7M-GE engine was rated at 200 hp (149 kW) at 6000 RPM.
The naturally aspirated came standard with the W58 manual transmission. The turbo versions included the more robust R154 manual transmission. Both were available with the optional 4-speed A340E automatic transmission.
During the year of 1989, the car received new tail lights, new front bumper, badging and side trim amongst other features. Modifications to the wastegate and engine management netted another 2 hp on the turbo model. For the 1991 model year, the wheel design was changed to 5-spoke wheels. Both models wore 16×7 aluminium alloy wheels that were fitted with 225/50/16 tires and full-sized spares on steel wheels.
The A70 Supra was also available in two non-export models in Japan, the JZA70 with a 2.5 L 280 hp (209 kW) twin-turbo 1JZ-GTE, known as 2.5GT Twin Turbo (JZA70), and with a 2.0 L 210 hp (157 kW) twin-turbo 1G-GTE. A special version of the 1JZ-GTE equipped JZA70, the 2.5 Twin Turbo R, had black/grey Recaro seats.
The third-generation Supra represented a great deal of new technology. In 1986, Supras were already equipped with 4-channel ABS and TEMS (Toyota Electronically Modulated Suspension) which gave the driver 2 settings which affected the damper rates. All models were fitted with double wishbone suspensions front and rear. A targa top was offered along with a metal power sliding sunroof (added in 1991).
The 7M-GTE MA70 is capable of propelling itself 0-60 mph in 6.2 seconds with 6.8 psi of boost. It reached the 1/4 mile in 14.7 seconds at a speed of 95 mph. Its top speed is 149 mph.
Toyota Supra Turbo-A
In 1988 the Turbo-A model was introduced. It was a special design aimed at winning the Group-A touring car championships around the world. There were only 500 Turbo-As ever made. The Turbo-A was a special 7M-GTE with 267 PS (263 hp/196 kW), making it the fastest Japanese road car until the Nissan Skyline R32-GTR was introduced. The Turbo-A model was only produced in black, featured a grey leather interior, a larger intercooler, and used speed/density (MAP + IAT sensor) air metering. In addition, it was a hardtop model and featured a larger compressor wheel on the CT-26 turbocharger and throttle body.
Engine
  • 2.0 L (1988 cc) 1G-GTE I6
  • 2.5 L (2491 cc) 1JZ-GTE I6
  • 3.0 L (2954 cc) 7M-GE I6
  • 3.0 L (2954 cc) 7M-GTE I6
Transmission
  • 5-speed W58 manual
  • 5-speed R154 manual
  • 4-Speed A340E automatic
Chassis
  • Platform MA7x, GA7x, JZA7x
  • Wheelbase 102.2 in (2595.9 mm)
  • Length 182.3 in (4630.4 mm)
  • Width 68.7 in (1744.9 mm)
  • Height 51.2 in (1300.5 mm)
  • Curb weight ~3500 lb (1587.6 kg)
Fuel capacity 18.5 U.S. GAL (70.0 L)
Toyota Supra MK III Toyota Supra MK III
Toyota Supra MK III Toyota Supra MK III


Toyota Supra Mark IV (1993-2002)

With the fourth generation of the Supra, Toyota took a big leap in the direction of a more powerful sports car. The new Supra was completely redesigned, with rounded body styling partly based on the Ferrari F40 and featured two new engines: naturally aspirated 2JZ-GE 220 hp (164 kW) and 210 ft·lbf (285 N·m) of torque and a twin turbocharged 2JZ-GTE making 276 bhp (239 kW), 260 ft·lbf (427 N·m) of torque. The Turbo was actually quoted to have 320 bhp, as the cars in the Japan market can only declare up to 276. The turbocharged variant could achieve 0–60 mph in as low as 4.6 seconds and 1/4 mile (402 m) in 13.1 seconds at 109 mph. The turbo version was tested to reach over 289 kph (180 mph) all-stock, but the cars are restricted to just 180 kph in Japan and 250 elsewhere. European versions had an air intake on the bonnet.
The MKIV Supra’s twin turbos operated in sequential mode instead of the more common parallel mode. The sequential setup featured a pair of small, equally sized turbos, with ceramic blades for the domestic Japanese market and steel blades for export (USA, Europe) markets. At first, all of the exhaust is routed to the first turbine for reduced lag. This resulted in boost and enhanced torque as early as 1800 rpm. Approaching 4000 rpm, the exhaust is routed to the second turbine for a “pre-boost” mode, although none of the compressor output is used by the engine at this point. Approaching 4500 rpm, the second turbo’s output is added to the intake air, and both turbos operate in parallel. Most cars which are advertised as “twin turbo” operate by having the two equally sized turbos constantly running in parallel; the turbos spool up at the same time. The sequential mode provides greater low-end response at the expense of increased complexity and cost.
For this generation, the Supra received a new 6-speed Getrag gearbox on the Turbo models while the naturally aspirated models made do with a 5-speed manual. Both models were offered with a 4-speed automatic with a manumatic mode. However, the turbo model utilized larger 4-piston brake calipers on the front and 2-piston calipers for the rear. The base model used smaller 2-piston calipers for the front and a single piston caliper for the rear. The turbo models were fitted with 235/45/17 tires on the front and 255/40/17 tires for the rear. The base model used 225/50/16 for the front and 245/50/16 for the rears. All vehicles were equipped with 5-spoke aluminum alloy wheels and a “donut” spare tire on a steel wheel. Additionally, there are other differences in the rear axle differential, headlight assemblies, throttle body, oil cooler and a myriad of additional sensors that exist on the turbo model which doesn’t exist on the normally aspirated model.
Toyota took measures to reduce the weight of the current model compared to the previous model. Aluminum was used for the hood, targa top (if equipped), front crossmember, oil and transmission pans, and the suspension upper A-arms. Other measures included dished out head bolts, hollow carpet fibers, magnesium steering wheel, plastic gas tank and lid, gas injected rear spoiler, and a large single exhaust tip. Despite having more features such as dual airbags, traction control, larger brakes, larger wheels, larger tires, and an additional turbo, the car was at least 200 lbs lighter than its predecessor.
For the 1996 model year, the turbo model was only available with the automatic transmission due to OBD2 certification requirements. The targa roof was made standard on all turbo models. For 1997, the manual transmission is back for the optional engine along with a redesign of the tail lights, front fascia, chromed wheels, and other minor changes such as the radio and steering wheel designs. All 1997 models included badges that said, “Limited Edition 15th Anniversary.” For 1998, the radio and steering wheel were redesigned once again. The naturally aspirated engine was enhanced with VVTI which raised the output by 5 hp and 10 ft·lb of torque. The turbo model was not available in California, New Jersey, New York and Massachusetts due to increased emission regulations.
The stock MKIV Supra chassis has also proven an effective platform for roadracing, with several top 20 and top 10 One Lap Of America finishes in the SSGT1 class. The major deficiencies with this platform for road racing include heat management and weight due to the 2JZ iron block. The Supra is one of the heaviest 2-door Japanese sports cars, however still slightly lighter than the Nissan R33 and R34 Skyline GTRs to which the Supra is traditionally a rival in its home country.
Due to the strength of the stock engine the 2JZ series have remained popular import platforms for modification. Stock engine hardware have withstood power levels in excess of 3 times the original power ratings. In drag racing, the Supra and similarly powered 2JZ cars have run competitively against domestics vehicles with up to three times the engine displacement.
Sales to Canada were stopped in 1995 and US imports ceased in 1998. Production continued in Japan until August 2002.
Engine
  • 3.0 L (2997 cc) 2JZ-GE I6
  • 3.0 L (2997 cc) 2JZ-GTE I6
Transmission
  • 5-speed W58 manual
  • 6-speed V16x manual
  • 4-Speed A341E automatic
Chassis
  • Platform JZA8x
  • Wheelbase 100.4 in (2550.2 mm)
  • Length 177.7 in (4513.6 mm)
  • Width 71.3 in (1811.0 mm)
  • Height 50.2 in (1275.1 mm)
  • Curb weight
    • non-turbo: 3210 lb (1460 kg)
    • turbo: 3478 lb (1580.9 kg)
Fuel capacity 18.5 U.S. GAL (70.0 L)
Assembly Motomachi, Japan
Toyota Supra Mark IV Toyota Supra Mark IV
Toyota Supra Mark IV Toyota Supra Mark IV


Toyota Supra Mark V (2007)

Toyota will introduce the Mark V Supra in 2007.
Toyota Supra Mark V