The first version of this engine family was a
normally aspirated unit. Developed under the leadership of Chief Engineer – Engine Design and Development
Willem Weertman and head of performance tuning Charles "Pete" Hagenbuch, who had worked on most of Chrysler's V-8 engines and the
Chrysler Slant-6 engine, it was introduced in the 1981
Dodge Aries,
Dodge Omni,
Plymouth Horizon and
Plymouth Reliant, and was produced until 2000. The 2.2 has an
undersquare bore and stroke, which gives it a displacement of . It is a
siamesed engine: there are no coolant passages between cylinders. The bore spacing is , limiting the potential for increased bore diameter. All 2.2 engines have cast iron blocks, use a timing belt, and are non-
interference engines. The earliest version used a two-barrel
carburetor, but
fuel injection was introduced in 1984 on both turbocharged and normally aspirated models (it is used on all 2.5 liter engines). The 2.2 was made at Chrysler's
Trenton Engine plant in
Trenton, Michigan. In 1995 Chrysler sold much of the machining equipment as well as the license to the design, to
First Auto Works of
China, after negotiations which had begun in the mid-eighties. The Trenton plant largely switched to the new
Chrysler 3.3 engine production, while FAW continues to build the 2.2, which they used in their version of the Audi 100. Design work on the six had started in 1975, with the 2.2 added to the program in 1980, but due to labor unrest in Canadian automobile manufacture and the collapse of the diesel market in North America,
Lee Iacocca suddenly and unilaterally cancelled these plans in 1983. • 1983–1984
Chrysler E-Class • 1983–1986
Chrysler Executive • 1984–1986
Chrysler Laser • 1982–1990
Chrysler LeBaron (fuel-injected after 1985) • 1985–1988
Chrysler LeBaron GTS • 1981–1982
Dodge 024 • 1982–1983
Dodge 400 • 1983–1988
Dodge 600 (fuel-injected after 1984) • 1981–1989
Dodge Aries (fuel-injected after 1985) • 1984–1987
Dodge Caravan • 1983–1987
Dodge Charger • 1987–1988
Dodge Dakota • 1984–1990
Dodge Daytona • 1981–1990
Dodge Omni (fuel-injected after 1987) • 1985–1989
Dodge Lancer • 1982–1984
Dodge Rampage • 1987–1994
Dodge Shadow •
Hongqi CA 1021U3, CA5020XJB police car, CA7202, CA7220A9E, CA7220A9E parade car, CA7220A9EL1/L2 cabrio-coach/L2 parade car, CA7220A9EL2A2 parade car, CA7220EL1, CA7226L • 1985–1988
Plymouth Caravelle • 1981–1990
Plymouth Horizon (fuel-injected after 1987) • 1981–1989
Plymouth Reliant (fuel-injected after 1985) • 1983
Plymouth Scamp (Dodge Rampage twin) • 1987–1994
Plymouth Sundance • 1981–1982
Plymouth TC3 • 1983–1987
Plymouth Turismo • 1984–1987
Plymouth Voyager High Output The 1983 and 1984
Dodge Shelby Charger was more of a handling package, but the regular 2.2 L engine was modified somewhat. This
High Output 2.2 used a revised
camshaft to boost output to and , and the block was decked to increase the compression ratio. These modifications allowed the Shelby Charger to hit in 5.5 seconds and cover the quarter mile (402 m) in under 16 seconds. The 1985
Dodge Charger Shelby used the
2.2 Turbo I engine instead, so this high output 2.2 was made an option on regular Dodge Chargers that year. Applications of the High Output 2.2L included the 1983–1984
Dodge Shelby Charger, the 1985 Plymouth Turismo (L-body), the 1984-1985 Dodge Omni GLH and the 1985–1987
Dodge Charger. This High Output version of the 2.2L could be easily recognized by its chrome valve cover and tighter timing cover.
Turbo I Chrysler's first
turbocharged engine was the 1984
Turbo I. It used a
Garrett T03 turbocharger with a mechanical
wastegate to limit boost to , and was rated at and , a substantial increase in power over the standard 2.2 engines. Changes included a lower compression ratio, special pistons, high-strength valves, higher-pressure springs (to avoid float), better-sealing rings, a special cam, select-fit bearings, a special exhaust manifold, and a diecast aluminum cylinder head cover. For 1985, a computer-controlled wastegate was substituted which, with the use of a knock sensor, allowed of temporary overboost. Output was rated at and . A
Mitsubishi TE04H turbo and new
intake manifold were used for 1988. • 1984
Chrysler E-Class • 1984–1986
Chrysler Executive • 1984–1986
Chrysler Laser • 1984–1988
Chrysler LeBaron • 1985–1988
Chrysler LeBaron GTS • 1984–1987
Chrysler New Yorker • 1988
Chrysler New Yorker Turbo • 1984–1988
Dodge 600 • 1985–1988
Dodge Lancer • 1984–1986
Dodge Omni GLH • 1985–1988
Plymouth Caravelle • 1985–1987
Dodge Charger Shelby • 1988
Shelby CSX-T • 1984–1986
Dodge Daytona Turbo • 1987
Dodge Daytona Shelby Z with Automatics Turbo II The
Turbo II designation was applied to a turbocharged, intercooled version of the 2.2. This Turbo II designation was first used in the 1986
Shelby GLH-S and the 1987 Shelby Charger GLH-S. Shelby Automobiles modified a stock
Turbo I engine by swapping several pre-production pieces from the
Turbo II inline-four engine. These changes included an
intercooler and other changes to produce 175 hp (130 kW) and a flat 175 ft·lbf (237 N·m)
torque curve. Not included were any of the durability changes to the short block (forged crank, full floating pin, stouter connecting rods, etc.) of the 1987 Chrysler
Turbo II engine that was produced by the factory the following year. Shelby installed the factory produced Turbo II in his
Shelby Lancer and
Shelby CSX. Chrysler's strengthened version of this engine, with a forged crankshaft and connecting rods, was used in the
Shelby Z package of the 1987–1989 Dodge Daytona and other cars. Output of the production Turbo II was and with of boost when mated to the stronger A520 5-speed manual transaxle. A similar, one-piece version of the special two-piece
intake manifold used on the Turbo II, minus the air charge temperature sensor, was added to the Turbo I for 1988. The next year, the new
common block was introduced; it was used for all subsequent versions of the 2.2
and 2.5, including the 2.2 L Turbo II, which then continued unchanged through 1990. • 1986
Shelby GLH-S (
Omni) • 1987
Shelby Charger Turbo • 1987
Shelby GLHS (
Charger) • 1985–1993
Consulier GTP • 1987–1989
Dodge Daytona Shelby Z • 1987–1988
Shelby CSX • 1987
Shelby Lancer • 1988–1989
Dodge Lancer Shelby • 1988–1989
Chrysler LeBaron GTS hatchback • 1987–1989
Chrysler LeBaron coupe / convertible GTC • 1989
Dodge Daytona C/S
Turbo III The
Turbo III used a
Lotus-made
DOHC 16-valve head. Output was and . This engine was used in 1,399
Dodge Spirit R/T and several hundred
Dodge and Chrysler Daytona IROC R/T models in the US, Canada, and Europe, plus models including the Chrysler Spirit R/T and
Phantom R/T in Mexico. Cars using the 2.2T3 engine include: • 1991–1992
Dodge Spirit R/T (North America) • 1991–1994
Chrysler Spirit R/T (Mexico) • 1992–1993
Dodge Daytona IROC R/T (North America, Europe) • 1992–1993
Chrysler Phantom R/T (Mexico) • 1991–1993
Consulier GTP (USA)
Turbo IV The
Turbo IV was a
turbocharged SOHC intercooled version with
variable nozzle turbo (VNT) technology. This system reduced turbo lag. Used in the 1989 Shelby CSX, then regular production 1990 Dodge Shadows, Daytonas, and Chrysler LeBarons. Production on this engine was limited to around 1250 units.. • 1989
Shelby CSX (500 built-498 to the public) • 1990
Dodge Shadow ES (141 built) • 1990
Dodge Shadow Competition (27 built) • 1990
Dodge Daytona Shelby (536 built) • 1990
Dodge Daytona C/S Competition (21 built) • 1990
Chrysler LeBaron GTC (255 built, 123 coupes 132 convertibles)
TC The
Chrysler TC, developed with
Maserati, used a special turbocharged 2.2 engine. This version was related to the
Turbo II but used a special 16-valve head — not the same as that used in the Turbo III — pistons, connecting rods, intake manifold, crankshaft and other components. No parts are interchangeable with other versions of the engine. The 2.2 TC engine was an international effort: The cylinder head was cast in
England by
Cosworth and finished in
Italy by Maserati using a cam over bucket design. The pistons are forged and came from
Mahle in
Germany, and a
Japanese
turbocharger was sourced from
IHI. The camshafts were designed by
Florida-based Crane but were constructed by Maserati in
Modena. The rods are forged Casar units and use a unique rod bearing size. The crankshaft is also forged and weighs 53 pounds. Only 501 Chrysler TCs were produced with the
DOHC 16-valve head. This engine shares essentially only the front and rear main seals, oil pan seal, intermediate shaft and bearings, main bearings (only, rod bearings are unique), and distributor with any other Chrysler 2.2/2.5. This head was also used in IMSA racing, but not in turbocharged form. ==2.5==