Mitsubishi Sirius engine


The Mitsubishi Sirius or 4G6/4D6 engine is the name of one of Mitsubishi Motors' four series of inline-four automobile engines, along with Astron, Orion, and Saturn.
The 4G6 gasoline engines were the favoured performance variant for Mitsubishi. The 4G61T powered their Colt Turbo, while the 4G63T, first introduced in the 1980 Lancer EX 2000 Turbo, went on to see service in the Sapporo and Starion coupés during the so-called "turbo era" of the 1980s, before creating for itself an illustrious motorsport heritage as the powerplant under the hood of the World Rally Championship-winning Lancer Evolution. A UK-market Evo known as the FQ400 had a version of the Sirius, making it the most powerful car ever sold by Mitsubishi.
The 4D6 diesel engines supplemented the larger 4D5. Bore pitch is 93 mm.

4G61

The 4G61 displaces with bore/ full length stroke of. This engine was always DOHC 16-valve and used either Multi-point or Electronic Control fuel injection. A turbocharged version was also produced for the Mirage and Lancer. The 4G61 does not have balance shafts like the other 4G6x motors.

Performance

The larger 1.8 L 4G62 was an SOHC 8-valve unit for longitudinal rear-wheel drive and all-wheel drive use. With a bore and stroke of, it displaces. It was available either in carburetor form, multi-point fuel injection, or ECI Turbo as found in the Lancer EX 1800GSR or 1800GT, and Cordia GSR.

Applications

Turbocharged version of the 4G62.

4G63/G63B

The 4G63 was a version.
Bore x stroke is SOHC and DOHC were produced. Both versions were available in either naturally aspirated and turbocharged form. For front-wheel drive applications, the turbocharged Sirius' name was changed to "Cyclone Dash". As fitted to the fifth generation Galant JIS gross were claimed - the output claims later shrank to - for the turbocharged and intercooled "Sirius Dash 3x2 valve" engine. This version could switch between breathing through two or three valves per cylinder, to combine high top-end power with low-end drivability as well as allowing for economical operation. It was a modification of Mitsubishi MCA-Jet technology which used a secondary intake valve to inject air into the engine for more efficient emissions control. The DOHC version was introduced in 1987 in the Japanese market Galant, and came in turbocharged or naturally aspirated form. It is found in various models including the 1988-92 Mitsubishi Galant VR-4, the U.S. market 1990-1999 Mitsubishi Eclipse, and the Mitsubishi Lancer Evolution I-IX. Later versions also received Mitsubishi's variable valve timing system, MIVEC.
A SOHC carbureted eight-valve version was also available in Mitsubishi's pickup trucks from the eighties until the mid-nineties. It produces at 5500 rpm in European trim. The SOHC version was also used in Mitsubishi Galant models until 1993. It has of output and of torque at 4,750 rpm.
Turbo 4G63 in a Lancer Evo IX
Also, a SOHC version was produced until the late 90s and early 2000s and was used in Mitsubishi cars like the Montero and the 2.0 L 2-door Pajero with an output of at 4700 rpm. Also the N33 and N83 Spacewagon and Galant received the 4G63, in single-cam sixteen-valve format. A similar version, with, was also used in some light duty Mitsubishi Canters from 1997 on.
The Mitsubishi Eclipse, Eagle Talon and Plymouth Laser introduced the DOHC turbocharged intercooled version to the U.S. in 1989 through Diamond Star Motors, a joint venture between Mitsubishi Motors and the Chrysler Corporation. From 1990 to late April 1992 came thicker connecting rods and the use of six bolts to secure the flywheel to the crankshaft; May 1992 to 2006 Evolution versions have lighter rods and use seven bolts to secure the flywheel to the crankshaft. They are referred to as the "six bolt" and "seven bolt" engines, respectively.
Output for the 2003 US Mitsubishi Lancer Evolution is at 6500 rpm with of torque at 3500 rpm. It has a cast iron engine block and aluminum DOHC cylinder head. It uses multi-point fuel injection, has four valves per cylinder, is turbocharged and intercooled and features forged steel connecting rods.
The final version of the engine was found in Lancer Evolution IX. It was equipped with Mitsubishi's variable valve timing system, MIVEC. This version also had a revised turbocharger, extended reach spark plugs, two-piece rings.
A SOHC 16 valve turbocharged version called 4G63S4T is produced by Shenyang Aerospace Mitsubishi Motors Engine Manufacturing in Shenyang, China, producing a peak power of and a peak torque of . This version is equipped with a TD04 turbocharger.

Racing

Its turbocharged variant, G63T, has powered Mitsubishi vehicles in World Rally Championships for years in the Mitsubishi Lancer EX 2000 Turbo, Mitsubishi Galant VR-4, Lancer Evolution, Carisma GT, and Lancer WRC04. It was the powerplant of the Lancer Evolution when Tommi Mäkinen won his four consecutive WRC championships in his Lancer. MHI and T-4 turbos were both used as power for these engines. A 1.7L variant of the 4G63 was also used in a custom made hill-climb McLaren F1 made by Komvet Racing.

Applications

The 4G64 is the second largest variant, at. Early models were 8-valve SOHC, but a later 16-valve SOHC and DOHC version was also produced. All used MPFI and had an bore and stroke of. The 4G64 was later also available with gasoline direct injection.
Output varies between at 5,250 rpm with of torque at 4,000 rpm in the Mitsubishi L200 and at 5,500 rpm with of torque at 4,000 rpm in the Chrysler Sebring/Stratus. The Chrysler version features fracture-split forged powder metal connecting rods. The DOHC and SOHC 16V 4G64 are interference engines, while the SOHC 8V 4G64 is a non interference engine. From March 1996 an LPG version with at 5,000 rpm was available in the Mitsubishi Canter.

Applications

Turbocharged version of the 4G64.

4D65

Known as the "Sirius Diesel", the 4D65 had the same dimensions as the 4G62. It was available either naturally aspirated or turbocharged, and was used in most Mitsubishi diesel passenger cars in the eighties and beginning of the nineties. It was developed specifically to be transversally installed in front-wheel-drive cars, unlike the preceding 4D5-series which remained in production for commercial vehicles. The 1.8 TD power figures were comparable to those of the 22% larger 2.3 TD 4D55, with more low-down torque and while being much smoother. The cast-iron block was typical for Mitsubishi, but unusual for diesel engines, in being equipped with balance shafts. A number of installations combined this engine with four-wheel-drive. Some period critics were doubtful of the durability of the turbocharged engine, as the charger would spool up immediately and a very short pre-heating period, leading to much noise and smoke in cold weather starts.

Applications

The 16-valve DOHC 4G67 displaced.
Bore x Stroke:

Applications

Known as the "Sirius Diesel", the 4D68 version displaced. It was fitted with a stroke crankshaft and the cylinder bore diameter was. This engine used pistons with a static compression ratio of 22.4:1 and piston pins were OD. It was available either naturally aspirated or turbocharged, and replaced the 4D65 as Mitsubishi's "go-to" diesel.
The 4G69 is a version built in Shiga, Japan and Shenyang, China. Bore and stroke is. Output is at 5750 rpm with of torque at 3500 rpm. It has a cast iron engine block and an aluminum SOHC cylinder head. It uses multi-point fuel injection, has 4 valves per cylinder with roller followers and features forged steel connecting rods, a one-piece cast camshaft, and a cast aluminum intake manifold. The 4G69 incorporates Mitsubishi's MIVEC Variable Valve Timing technology.
Mitsubishi ceased any further development and production of Sirius engine after 2012 model year, and its joint-venture, Shenyang Aerospace Mitsubishi Motors Engine Manufacturing Co., in China is now the only one producing 4A9 engines for the Chinese market.

Applications

NB: From 2005 a slightly detuned version developing and is used across the entire Lancer range in Australia.
A SOHC 16 valve turbocharged engine similiar to 4G63S4T, produced by SAME in Shenyang, China, utilizing a 4G63 shortblock destroked to a displacement of.
The 4K1 New MIVEC series is based on 4G6 shortblock but mated to a redesigned SOHC 16 valve head with VVL and MIVEC technology. Combustion chambers and piston surfaces were re-engineered to improve fuel economy by lowering friction.
All 4K1 models are naturally aspirated and are currently produced by SAME in Shenyang, China.

4K10

Destroked 4G63 shortblock, same as 4G6A but with the new SOHC MIVEC head.
Utilized 4G63 shortblock.
Utilized 4G69 shortblock.
All 4K1 models are available for both longitudinal and transverse applications.

4K2 series

In 2017, Mitsubishi launched a new series of gasoline inline-4 engines called the 4K2 series, consisting of three models: 4K20, 4K21 and 4K22, available in naturally aspirated and turbocharged versions. This new design is based on 4G6 shortblock but mated to a newly designed DOHC 16 valve head with MIVEC technology.
The 4K2 series is currently produced by SAME in Shenyang, China.

4K20

Destroked 4G63 shortblock, same as 4G6A but with the new DOHC head. Only available as a turbocharged model.
4G63 shortblock, available as a turbocharged model or two naturally aspirated models
2,019 cc
85 × 89
10.5:1
at 6,000 rpm
at 6,000 rpm
at 4,000 rpm
at 4,000 rpm
242 g/kw·h
244 g/kw·h
4G69 shortblock, available as a turbocharged model or a naturally aspirated model
10.5:1
at 6,000 rpm
at 4,000 rpm