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Reciprocating internal combustion engine From Wikipedia, the free encyclopedia
The VG engine is a family of V6 engines designed and produced by Nissan between 1983 and 2004.
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Nissan VG engine | |
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Overview | |
Manufacturer | Nissan (Nissan Machinery) |
Production | 1983–2004 |
Layout | |
Configuration | 60° V6 |
Displacement | 2.0 L; 121.9 cu in (1,998 cc) 3.0 L; 180.6 cu in (2,960 cc) 3.3 L; 199.9 cu in (3,275 cc) |
Cylinder bore | 78 mm (3.07 in) 87 mm (3.43 in) 91.5 mm (3.60 in) |
Piston stroke | 69.7 mm (2.74 in) 83 mm (3.27 in) |
Cylinder block material | Cast iron |
Cylinder head material | Aluminum |
Valvetrain | SOHC 2 valves x cyl. DOHC 4 valves x cyl. with NVTCS |
Valvetrain drive system | Timing belt |
Combustion | |
Supercharger | Single Eaton Roots-type M62 (2001-2004 VG33ER) |
Turbocharger | Single Garrett T3 (1983–1987 VG30ET; all VG30DET) Single Garrett T25 (1988-1989 VG30ET) Twin Garrett/Mitsubishi T22/TB02 (1989-2000 VG30DETT) |
Fuel type | Gasoline |
Oil system | Wet sump |
Cooling system | Water-cooled |
Output | |
Power output | 99–330 PS (98–325 hp; 73–243 kW) |
Torque output | 149–388 N⋅m (15–40 kg⋅m; 110–286 lb⋅ft) |
Chronology | |
Predecessor | Nissan L engine (Straight-six) |
Successor | Nissan VQ engine |
Nissan's and Japan's first mass-produced V6, the iron block/aluminum head 60° VG engine was produced in displacements between 2.0 and 3.3 liters. Early versions used SOHC cylinder heads with two valves per cylinder; later models featured DOHC cylinder heads, four valves per cylinder, a slightly different engine block and N-VCT, Nissan's own version of variable valve timing, delivering a smoother idle and more torque at low to medium engine speeds.
Both production blocks and head castings were used successfully in the Nissan GTP ZX-Turbo and NPT-90 race cars which won the IMSA GT Championship three years in a row.
Development of the VG series began in 1979 by Nissan Machinery, a former member of the Nissan Group keiretsu. The objective was to replace the inline 6 Nissan L engine, which traces its roots back to the Mercedes-Benz M180 engine introduced in 1951, with an all-new V6.
Nissan engineers wanted the VG to have improved performance, fuel economy, reliability, and refinement, while being both lighter and more compact than its predecessor. The resulting engine was designed by Nissan from scratch, and shared few mechanical components with its predecessor, or with any other automaker. It was added to a new engine family name PLASMA (Powerful & Economic, Lightweight, Accurate, Silent, Mighty, Advanced).
Extensive computer design techniques were used during development, which made the VG series one of the most advanced and high-tech engines of its day. It featured a sequential multi-port fuel injection system, and Nissan's Electronic Concentrated Control System (ECCS).
ECCS used a microprocessor and an oxygen sensor to control fuel delivery, spark timing, exhaust gas recirculation rate, and engine idle speed, depending on the current operating conditions of the engine. This system reduced carbon emissions, improved fuel economy, and improved engine performance during cold-start and warm-up conditions.
The advantages of the VG engine over its inline 6 predecessor was that its V6 configuration would have greater torsional rigidity for higher performance potential, and its shorter length would give Nissan designers and engineers more freedom for vehicle design, allowing for both more frontal crush zone space and transverse mounting for front-wheel-drive vehicles.
All VG engines use a timing belt to synchronize the camshafts with the crankshaft rather than a timing chain. The VG series engine was put into thousands of Nissan vehicles, debuting in Japan in the 1983 Nissan Gloria/Nissan Cedric, and in the US and other markets in the 1984 Nissan 300ZX.
When the Nissan VQ engine was introduced in 1994, the VG engine was slowly phased out in Nissan cars, and after 2002 it was only available in the Nissan Frontier and Nissan Xterra. The VG engine was retired in 2004, by which time all V6-powered Nissans had switched to the VQ.
The VG20E is a 1,998 cc (2.0 L) SOHC engine produced from 1984 on. It produces between 115 PS (85 kW; 113 hp) and 125 PS (92 kW; 123 hp) net. In the earlier gross rating system, early eighties' models claim 130 PS (96 kW; 128 hp).
Applications:
The VG20ET was based on the VG20E, but with an added an Variable-geometry turbocharger. The VG20ET produces 170 hp (127 kW). This SOHC motor debuted at the same time as the VG20E. Also coming with the Y30, this motor was known as the "Jet Turbo", and came with the Nissan Leopard models XS, and XS-II Grand Selection. Contrary to the VG30ET that came out in the US, the VG20ET came with an intercooler in certain models to push the horsepower output to 155 PS (114 kW; 153 hp), a great jump from the normally aspirated VG20E. The turbo included with the VG20ET had two different settings. At low speeds, the turbo's wastegate would stay closed improving the response at low rpm. At high speeds, the flap would stay open, decreasing resistance and increasing exhaust flow. At its maximum flow, the flap would open at an angle of 27 degrees, while the A/R ranged from 0.21–0.77. Being that the VG20ET had a short stroke 78 mm × 69.7 mm (3.07 in × 2.74 in), it was thought to have insufficient low end torque. Nevertheless, the VG20ET was a great improvement over the VG20E.
Applications:
The VG20DET is an DOHC 1,998 cc (2.0 L) engine with a ceramic turbocharger and intercooler. It has a bore and a stroke of 78 mm × 69.7 mm (3.07 in × 2.74 in) and produces 210 PS (154 kW; 207 hp). This engine features NVTCS (Nissan's Valve Timing Control System).
Applications:
The VG20P is the Autogas (Liquified petroleum gas) version of the VG20. It produces 99 PS (73 kW; 98 hp) at 5,600 rpm and 149 N⋅m (110 lb⋅ft) at 2,400 rpm. Later versions (2004–2005) produce 105 PS (77 kW; 104 hp) at 6,000 rpm and 152 N⋅m (112 lb⋅ft) at 2,400 rpm. It is an overhead cam, twelve-valve engine.
Applications:
The VG30S is a 2,960 cc (3.0 L) SOHC twelve-valve engine with an electronic carburettor which produces 148 PS (109 kW; 146 hp) at 4,800 rpm and 234 N⋅m (173 lb⋅ft) at 3,600 rpm. This engine was mainly offered in export markets with more lenient environmental regulations, such as the Middle East and Africa.
Applications:
The VG30i is a 2,960 cc (3.0 L) engine produced from 1986 through 1989. It features a throttle body fuel injection system. It has a long crank snout, a cylinder head temperature sensor positioned behind the timing belt cover, and a knock sensor in the cylinder valley (on California models only). It produces 140 PS (103 kW; 138 hp) at 4,800 rpm and 226 N⋅m (167 lb⋅ft) at 2,800 rpm.
Applications:
The 2,960 cc (3.0 L) VG30E produced 153 hp (114 kW) and 182 lb⋅ft (247 N⋅m). Bore and stroke is 87 mm × 83 mm (3.43 in × 3.27 in). In the 300ZX, it produced 160 hp (119 kW) and 173 lb⋅ft (235 N⋅m) of torque. In April 1987 the "W" series VG30 was released, adding 5 horsepower but leaving torque unchanged. In 1989, the Maxima received the 160 hp (119 kW) rating, but also used a variable intake plenum improving torque to 182 lb⋅ft (247 N⋅m) at 3200 rpm.
Applications:
The 2,960 cc (3.0 L) VG30ET was available in early production with a single Garrett T3 turbocharger at 6.8 psi (0.47 bar) and a 7.8:1 compression ratio. The USDM and JDM version produced 200 PS (147 kW; 197 hp) and 227 lb⋅ft (308 N⋅m). European versions produced 230 hp (233 PS; 172 kW) and 252 lb⋅ft (342 N⋅m). When "W"-Series VG30 was released in April 1987, horsepower was increased to 205 PS (151 kW; 202 hp). All 1987 models featured a T3 turbocharger at 6.8 psi (0.47 bar). In 1988 the compression ratio was changed to 8.3:1 and turbocharged with a single Garrett T25 turbocharger at 4.5 psi (0.31 bar) to reduce turbo lag.
The engine specified as the VG30ET engine in the Nissan GTP ZX-Turbo Racecar, was a heavily modified VG30ET producing over 551 kW (749 PS; 739 hp) at 8,000 rpm, and over 686 N⋅m (506 lb⋅ft) at 5,500 rpm.[1]
Applications:
The first DOHC 24 valve VG30DE engine was developed for the 1985 MID4 concept. The 2,960 cc (3.0 L) VG30DE produces 190 to 222 hp (142 to 166 kW) and 198 lb⋅ft (268 N⋅m). Bore and stroke is 87 mm × 83 mm (3.43 in × 3.27 in). Original Japanese market units claimed 185 PS (136 kW).[2] There are two versions of the VG30DE. The first was introduced in 1986 on the Japanese 300ZR (Z31) and Nissan Leopard F31, and were never sold in North America. The VG30DE has two throttle bodies facing the front of the vehicle (Nissan 300ZX and Fairlady Z) or two throttle bodies to the left (sedans and 300ZR). It was also installed with N-VTC, an early form of variable valve timing.
Early VG30DEs used large oval intake ports, and round exhaust ports, though the flange was similar to the SOHC VG engine, bolt spacing was slightly different. Late VG30DE's used slightly smaller oval intake ports, and oval exhaust ports. The bolt spacing was shared with the round-port variant from earlier years.
Applications:
Years | Model | Power output |
---|---|---|
1985 | Nissan MID4 | Concept (Not-Production) |
1986–1989 | Nissan 300ZX Z31 (300ZR only) | 190 hp (142 kW; 193 PS) |
1990–1997 | Nissan 300ZX Z32 | 222 hp (166 kW; 225 PS) |
1989–2000 | Nissan Fairlady Z Z32 | 222 hp (166 kW; 225 PS) |
1986–1992 | Nissan Leopard F31 | 190 hp (142 kW; 193 PS) |
1992–1998 | Infiniti J30/Nissan Leopard J Ferie | 210 hp (157 kW; 213 PS) |
1992–1995 | Nissan Gloria and Cedric | 190 hp (142 kW; 193 PS) |
1989–1991 | Nissan Cima | 190 hp (142 kW; 193 PS) |
The VG30DET is a 3.0 L (2,960 cc), 24-valve, DOHC, VTC-equipped engine equipped with a T3 (Nissan N1 Type) 4-bolt Garrett Turbo running between 7.5 and 11.5 psi (0.52 and 0.79 bar). Generating up to 255 PS (188 kW; 252 hp) and measuring 236 lb⋅ft (320 N⋅m) depending on the production year and application.
While this engine is similar to the VG30DE, it used different heads and inlet manifold. Contrary to popular belief, it was not available in the Nissan 300ZR model - the 300ZR had an early version of the VG30ET. The engine was available in the Cedric, Gloria, Cima and Leopard chassis.[3] It is a single-turbo engine that was used from 1987 through 1995 in the Japanese market, and the predecessor for the VG30DETT engine.
Applications:
The VG30DETT is an iron block/aluminum head twin-turbo, twin intercooler 2,960 cc (3.0 L; 180.6 cu in) version first seen in the 1987 MID4-II concept. Producing 330 PS (325 bhp; 243 kW) in the MID-4 and coming in at a weight of 237 kg (523 lb), it was the last of Nissan's DOHC belt driven 4 valve per cylinder turbocharged engines put into production, following the CA18DET and RB20DET.
The engine's hybrid T22/TB02 twin-turbos were developed exclusively for Nissan,[4] and it came with Nissan's NVTCS valve timing control system).
The production engine develops 300 hp (304 PS; 224 kW) at 6400 rpm and 283 lb⋅ft (384 N⋅m) at 3600 rpm with a five-speed manual transmission, and 280 hp (284 PS; 209 kW) and 283 lb⋅ft (384 N⋅m) of torque with a four-speed automatic transmission.
JDM cars claimed 280 PS (276 bhp; 206 kW), as the Japanese automobile manufacturers were limited to that number.
Applications:
The VG33E is a 3,275 cc (3.3 L) cast iron block, aluminum head, SOHC version produced between 1996 and 2004. It has sequential fuel injection, two valves per cylinder with self-adjusting hydraulic followers, forged steel connecting rods, one-piece cast camshafts, and a cast aluminum lower intake manifold, with either a cast aluminum or plastic/composite upper intake manifold plenum.
Bore and stroke are 91.5 mm × 83 mm (3.60 in × 3.27 in). Compression ratio is 8.9:1. Output is 170 or 180 hp (127 or 134 kW) at 4,800 rpm, depending on year/vehicle, with 202 lb⋅ft (274 N⋅m) of torque at 2,800 rpm.
The VG33E was built in Smyrna, Tennessee, and used in SUVs, pickups, and minivans.
Applications:
The VG33E reportedly remained in production in the Nissan Paladin (rebadged as Dongfeng Oting) as an optional engine for the Chinese market until 2015.
The 3,275 cc (3.3 L) VG33ER is a supercharged version of the VG33 only sold in North America. It produces 210 hp (157 kW) at 4,800 rpm with 246 lb⋅ft (334 N⋅m) of torque at 2,800 rpm.
Applications:
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