R34 skyline. 5th generation (1999–2002)

5th generation (1999–2002)

Fifth generation

Production	1999-2002
Assembly	Tochigi, Tochigi, Japan
Body style(s)	2-door coupe
Layout	Front engine, rear-wheel drive / all-wheel drive
Engine(s)	2.6 L I6
Transmission(s)	6-speed manual

The GT-BNR34 (R34) Skyline GT-R and GT-R V-spec models were released in January 1999. The R34 GT-R was also made to be shorter (from front to rear), and the front wheels were made closer to the front. The valve covers were also painted glossy red, rather than dull black.

A new feature on the R34 GT-R is a 5.8" LCD multifunction display on the center of the dashboard, which shows seven different live readings of engine and vehicle statistics such as turbocharger pressure (1.2 bar max), oil and water temperature, among others. The GT-R V-spec model added two extra features to the display: intake and exhaust gas temperatures. Nismo Multi-function Displays (MFD)can be bought at an extra cost, they include a lap timer and an increase in boost pressure measurement to 2 bar. The R34 GT-R was made shorter to increase handling and stability.

Like the R33, the new R34 GT-R V-spec models come equipped with the ATTESA E-TS Pro system and an Active LSD at the rear, while standard GT-R models come with the non-Pro system and a conventional mechanical differential. The V-spec model also had firmer suspension, and lower ground clearance. The V-spec model also included a plastic front air diffuser (covering the underside of the engine), and also a rear carbon fiber air diffuser, designed to keep air flowing smoothly under the car.

Another special model of the R34 GT-R is the M-spec. It was similar to the V-spec, but had special "Ripple control" dampers and a leather interior with heated front seats.

At the time of the R34's release, like the R32 and R33, Nissan released an R34 N1 model. The R34 GT-R N1 was equipped similar to the R32 and R33 N1 models - a homologation special. It was sold without ABS, air conditioning, audio equipment, rear wiper, or carpet in the trunk. The new R34 N1 was also given the new R34 N1 engine. Only 45 R34 N1 models were produced from the factory, 12 of which were used by Nismo for Super Taikyu racing. The rest were sold to various customers, mostly racing teams, and tuning garages.

In August 2000, Nissan released a newer V-Spec II GT-R model. The V-Spec II has increased stiffness in the suspension (even stiffer than the original V-spec) and had larger brake rotors on the rear. It also comes equipped with a carbon fiber hood, which is lighter than the aluminum that all other GT-R hoods are made from. Also different on the V-Spec II was an iridium center console and aluminium pedals. The seats were also made with black cloth rather than the gray cloth used on previous R34 GT-R models, and the amber turn lenses were replaced with white versions. From this point on the standard trim level GT-Rs and V-Specs also received these updates, with the exception of the carbon fiber bonnet.

In February 2002 Nissan released a final production model of the R34 GT-R called the Nür. Nissan also released a limited Manufacturer Special model designated the M-Spec. This came in two forms, the base M-Spec, and the Nür. The Nür was sold in 2 different models: the Skyline GT-R V-spec II Nür and the previously mentioned Skyline GT-R M-spec Nür. The Nür was named after the famous German Nürburgring racetrack, where the Skyline was developed. The Nür model featured an improved RB26DETT based on the N1 racing engine, used by Nismo in Motorsports. The V-spec II Nür is based on the regular V-spec II model, and the M-spec Nür was based on the regular M-spec model. Other than the addition of the Nür engine, the Nür models also included a different color of stitching on the interior trim, as well as a speedometer reading up to 300 km/h (186 mph).

Production figures

• Standard Cars = 3,964
• V-Spec = 7,301
• N1 Race Version = 45^[12]
• Total = 11,310

Z-Tune

Nismo originally designed the concept of the Z-tune in 2002 when Nissan was putting an end to the R34 Skyline production. The first Z-tune was built in 2003, using a used 2002 Skyline GT-R V-Spec II. It was built with a concept RB26DETT 'Z1' engine. The cylinder diameter was bored out, and the crankshaft was designed with a longer stroke. The engine was now a 2.8L, and produced about 500 hp (370 kW).

Nismo was then given the approval from Nissan to build Z-tune models for the nismo anniversary. Nismo then purchased 20 used R34 GT-R V-Specs, each with less than 18,000 miles (29,000 km) on the clock, they were then completely stripped and were resprayed to a "Z-tune Silver" (A special color exclusively for the Z-tune).^[13] For each of the 20 production models, the 2.8L engine was revised to allow it to reach 9000 rpm. The turbochargers were supplied by IHI in Japan. The engine is advertised as making as much as 500 hp (for warranty reasons). This second revision of the Z-tune engine is called the 'Z2'. The bodywork is designed with the same functional components used in Nismo's GT500 racing cars, such as engine bay vents on the hood and fenders, as well as wider fenders for wider wheels. The Z-tune is also improved with an aggressive suspension setup from öhlins/sachs, and a specially designed Brembo brake setup.

The entire car is essentially handmade, with the car being completely stripped and re-built from the chassis up. Engineers reinforced and stiffened the chassis seam welding in key areas such as the door seams and door frames and added carbon fiber to the strut towers and transmission tunnel and the engine bay, completely redesigning the suspension, drivetrain, engine, gearbox and other components so as to work at maximum efficiency and reliability as is expected of a road-going vehicle. Although Nismo planned on building 20 cars, they ceased production on only 19 (including 2 prototypes).^[14] The Z-tune is often regarded as the most expensive (prices for some have been known to exceed $180,000 usd) street legal GT-R ever built.

Replacement

Main article: Nissan GT-R

Following the end of R34 production in 2002, Nissan announced their plans to separate the GT-R model from the Skyline name, creating an entirely new vehicle although it would remain on the same platform as the Skyline. This new car, now known simply as the Nissan GT-R, debuted in 2007 in Tokyo. It will be the first GT-R available worldwide, entering the North American market for the first time.

Although based on the FM platform used by the V36 generation Skyline, the GT-R uses an evolved Premium Midship (PM) platform. The car retains its heritage by using the chassis code CBA-R35, or simply R35.

Powertrain

The RB26DETT as used in the R32 and R33 Skyline GT-Rs. The R34 later added painted valve covers.

A modified RB26DETT in an R33 Skyline GT-R.

The GT-R of the 1990s included a 2.6 L straight six-cylinder twin-turbo engine producing 206 kW (276 hp). The turbo-chargers were of a hybrid steel/ceramic design allowing them to spool up faster due to the light nature of the ceramic exhaust wheel.

Power was delivered to all four wheels using an electronically-controlled all wheel drive system referred to by Nissan as the ATTESA-ETS system. The ATTESA-ETS system uses two G-Sensors mounted underneath the center console, which feed lateral and longitudinal inputs to the ECU. The ECU would then control the feed of power by allowing a limited amount to be delivered to the front wheels via an electronic torque split converter. In 1995, the ATTESA-ETS Pro was introduced as an option for R33 GT-R customers, and came as standard equipment in GT-R V-spec models. It was later standard equipment in all GT-R models for the R34 Skyline GT-R. The ATTESA-ETS Pro added an Active Limited Slip Differential, which was controlled by the onboard ATTESA computer. This was only for the rear differential, as the front differential remained as a normal Limited Slip Differential. The ATTESA-ETS Pro was also advertised in brochures as adding an electronically controlled 4-channel ABS brake system. Although it is not related to the all wheel drive system, it uses much of the same sensors, and the same computer. The R32 could be switched from AWD to RWD by removing the 4WD fuse, but R33 and R34 models had to have the front tailshaft removed, or the centre diff can be depressurised for 'towing mode' as specified in the owners manual.

The car also had computer-controlled all wheel steering system referred to as HICAS. The HICAS system activated when the vehicle exceeded 80 km/h (50 mph) and controlled the steering of the rear wheels in the same direction as the front to improve turn in on entry to corners. It should be noted however that this feature is often seen as more of a hindrance than help in race applications. The system tends to favor less advanced drivers, and can make the rear suspension unstable during high speed cornering. For this reason many kits are available to override this system usually by looping its hydraulic lines back on themselves. This is seen to make the car much more predictable when driving at the limit of grip.

While the published figures from Nissan were as quoted above, practical tests showed the car had a factory power output of closer to 330 PS (325 hp) at the flywheel. The lower published figure was Nissan's response to the need to abide by a gentleman's agreement between the Japanese auto manufacturers not to release a car to the public exceeding 280 PS (276 hp) of power output.

N1 engines

The RB26DETT N1 is an upgraded version of the standard RB26DETT engine. It was first developed by Nismo for Group A racing purposes. The standard RB26DETT, although known for its durability, proved to require too much maintenance for Group A racing conditions. The N1 engine is built from the standard RB26DETT block. The water cooling channels in the block are enhanced to increase flow. The block, and internal components are also strengthened. The pistons have 1.2 mm (0.047 in) top rings, but otherwise as standard. The connecting rods are the same as standard, and the crankshaft is standard but balanced. The specifications of the camshafts were also improved for power. The N1 engine uses the same parallel twin turbocharger layout but with improved turbochargers. The N1 engine also received an upgraded oil pump and water pump, to improve the cooling and lubrication of the engine. The N1 engine is identified by its 24U number stamped on the block, as opposed to the 05U stamp on standard RB26DETT engines.

The first model of the N1 engine was the R32 N1 engine. It uses a pair of larger turbochargers compared to the standard R32 GT-R. The turbine wheels on the new turbochargers are made from steel, rather than the weaker ceramic used for all standard GT-R models. The R33 N1 engine was slightly revised, with larger turbochargers than the R32 N1 engine, supporting more power if the engine were to be modified.

The R34 N1 engine saw further improvement. The camshafts were slightly improved for even more potential power, the turbochargers were about the same size as the R32 N1 turbochargers, except now they use ball bearing technology, which operates much more quickly than any other model used.

The most improved N1 engine is the R34 Nür engine. It is based on the R34 N1 engine. The camshafts were further improved for power, and the crankshaft was further balanced for higher engine speed. There were 1000 Nür engines made for use in the R34 V-spec II Nür, and R34 M-spec Nür models, however an undefined amount of extras were made and sold through Nissan dealers. They were advertised as making the same 280 PS (276 hp) as the standard model, but with the lighter engine parts, and more efficient turbochargers, the engine would make closer to 350 hp (260 kW).