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	There are several different variants of the VR6 engine. The original VR6 engine displaced 2.8 ]s and featured a 12 valve design (two valves per cylinder). These engines produced a ]-rated power output of {{convert\|128\|kW\|PS bhp\|0\|abbr=on}}, and {{convert\|240\|Nm\|0\|abbr=on}} of ].		There are several different variants of the VR6 engine. The original VR6 engine displaced 2.8 ]s and featured a 12 valve design (two valves per cylinder). These engines produced a ]-rated power output of {{convert\|128\|kW\|PS bhp\|0\|abbr=on}}, and {{convert\|240\|Nm\|0\|abbr=on}} of ].

	==Detailed specifications==
	]' (DOHC) design.]]
	The original VR6 engine features a one-piece ] ] ] and ], and one lightweight ] ] ], with two ] per ], operated by ]-driven ]s. All fuel and ] requirements of the VR6 engine are controlled by ] ] ] (ECU). This engine management system features a ], dual ] sensors for cylinder-selective ignition knock regulation, and Lambda regulation for the air/fuel mixture. Exhaust gases are channeled through a three-way ].

	Volkswagen Group identifies the original VR6 by the chassis ] engine ID code. It operates on the ], has an ] of 2.8 ]s. The 2.8 VR6 cylinder ] diameter is {{convert\|81.0\|mm\|2}}, and the ] ] is {{convert\|90.0\|mm\|2}}, although some ]an engines had a displacement of 2.9 litres (this variant identified by the ] engine ID code). The 2.9 VR6 cylinder ] diameter is {{convert\|82.0\|mm\|2}}, and the ] ] is {{convert\|90.0\|mm\|2}}. The "Vee" angle is 15°, and the ] (CR) is 10:1.

	The drop-]d ], six-throw ] runs in seven ]s; as opposite of wider angle V6 engines which have only four ]s. The ] ] journals are offset 22° to one another. Two ]s (OHCs) operate the automatic ] ] which, in turn, open and close the {{convert\|39.0\|mm\|2}} intake valves and {{convert\|34.3\|mm\|2}} exhaust valves. Since the two 'rows' of ]s and cylinders share a single cylinder head and ], the piston crown (or top surface) is tilted. Intake and exhaust valves need different ]s to vary valve overlap (they may be coaxial like in some 90° V8). To minimize the number of camshafts, both rows share their camshafts (similar some 90° V8s). The intake and exhaust ports pass closely within the cylinder head; this then heats the intake air/fuel mixture ''before'' it is ignited by the ], which limits the amount of timing advance that can be used due to an increased possibility of pre-detonation of the air/fuel mixture and has the effect of reducing power. This also cools the exhaust gasses, which hampers the operation of the catalytic converter.

	]
	]

	Because of the cylinder arrangement in the VR6 - with two rows of ]s within the same cylinder head, the intake and exhaust ports between the two rows of cylinders are of varying lengths. Without compensation, these varying port lengths would result in the two rows of cylinders producing different amounts of power at a particular engine RPM. Depending on the specific generation of VR6, the difference in port lengths are compensated for by specific tuning of the ], the camshaft overlap and lift profile, or a combination thereof. {{Citation needed\|date=March 2011}} In the original VR6, exhaust gases are channeled from two 3-branch ] ]s (one dedicated to three cylinders) into a sheathed Y-pipe. From there, they are channeled into a single flow pipe, before passing over the heated ], and then to the ].

	The ], operated by the ] ] ] (ECU) system, are mounted behind the bend of the intake manifolds. The water pump housing is cast integral with the cylinder block. VR6 engines also use an additional auxiliary electric pump to circulate the engine coolant whilst the engine is running, and also during the cooling fan 'after-run' cycle, in addition to the belt-driven main water pump.

	A replaceable oil filter cartridge element is used on the VR6 engine. The sump-mounted ] is driven via an intermediate shaft. An oil pressure control valve is integrated in the pump.

	The one-piece ] and ] is made from ] ] ] with ] (microalloy). The two rows of three cylinders are arranged at a 15° axial angle from the ]. The cylinder ] are {{convert\|81.0\|mm\|2}} in ], with a spacing of {{convert\|65\|mm\|1}} between cylinders. Due the narrow angle design, they overlap along the length of the engine block - to allow the engine to be shorter and more compact than wider angle V6 engines.

	The centerline of the cylinders are also offset from the centerline of the crankshaft by {{convert\|12.5\|mm\|2}}. To accommodate the ] and narrow "Vee" design, the ] bearing journals are offset 22° to each other. This also allows the use of a 120° firing interval between cylinders. The ] is: 1, 5, 3, 6, 2, 4.

	==History and evolution==		==History and evolution==

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Schematic 'top view' of a 15° VR6 engine

The VR6 engine is an internal combustion engine configuration, consisting of six cylinders. It was developed by the Volkswagen Group in the late 1980s, and evolutions of the original variant are still produced by them.

It's a narrow-angle (10.5º or 15º) V engine. Its cylinder block is composed by two cylinder banks (left: 1-3-5; right: 2-4-6) while there is only a single cylinder head covering both the cylinder banks.

Description

The name VR6 comes from a combination of V engine (German: V-Motor), and the German word "Reihenmotor" (meaning "inline engine" or "straight engine") - and so is described as a "Vee-Inline engine" (VR-Motor). It shares a common cylinder head for the two offset banks of cylinders. It has a specific sound that is unique and different than either inline or "V" engines. The engine is currently in use in a variety of VW models, one such example is the Volkswagen Passat NMS.

This engine configuration was also adopted for the Horex VR6 Motorbike.

The Volkswagen VR6 was specifically designed for transverse engine installations in front-wheel drive vehicles. The narrow angle of 15° between the two 'rows' in the VR6 engine is a more compact size than a wider angle V6 design. This made it possible for Volkswagen to install six-cylinder engines in existing four-cylinder cars. The wider configuration of a wider angle V6 engine would have required an extensive redesign of the vehicles to enlarge the engine compartment. The VR6 is also able to use the firing order of a straight-six engine.

The narrow angle between cylinders allows the use of just one cylinder head - whereas wider angle Vee engines require two separate cylinder heads. This arrangement also allows for two overhead camshafts to drive all the valves. This simplifies engine construction and reduces costs. In early 12 valve VR6 engines, there were two overhead camshafts with six cam lobes on each. The forward camshaft has three intake valve lobes and three exhaust valve lobes to control the frontmost three cylinders. The rear camshaft is designed the same way, but controls the rearmost three cylinders. The operating principle of this design is most similar to a single overhead camshaft (SOHC) design. Later 24 valve VR6 engines still had two overhead camshafts, but with 12 cam lobes each. However, the operation of the camshafts in the 24 valve engine is different from that of the earlier 12 valve engine, in that the front camshaft only operates the intake valves, and the rear camshaft only operates the exhaust valves. The operating principle of this design is most similar to a double overhead camshaft (DOHC) design.

There are several different variants of the VR6 engine. The original VR6 engine displaced 2.8 litres and featured a 12 valve design (two valves per cylinder). These engines produced a DIN-rated power output of 128 kW (174 PS; 172 bhp), and 240 N⋅m (177 lbf⋅ft) of torque.