The Subaru EA-53 was used in the 1967 Subaru 1000 Sports Sedan, sold in Japan. It used twin carburetors. This engine was used in the September 1968 Japan Alpine Rally which the car won in the 1000cc engine class.
Specifications
Displacement: 977.2 cc
Bore: 72 mm
Stroke: 60 mm
Compression Ratio: 10:1
Valvetrain: OHV Pushrod
Horsepower: at 6,600 rpm
Torque: at 4,600 rpm
EA-61
The Subaru EA-61 engine was produced from 1969 to 1972. The Japanese-spec Subaru FF-1 Sport Sedan and the FF-1 Super Touring sedan used twin carburetors, with the engine designation EA-61S. It was sold in the United States only for the 1971 model year. It was also briefly available in the first Leone, only in 1100 Van specification.
The Subaru EA-63 engine was produced from 1973 to 1979, although it stopped being used in US-market cars in 1976.
Specifications
Displacement: 1361 cc
Bore: 85 mm
Stroke: 60 mm
Compression Ratio: 8.5:1
Valvetrain: OHV Pushrod
Horsepower: at 5200 rpm
Torque: at 2,400 rpm
;Found on
1973-1979 Subaru Leone
EA-64
The Subaru EA-64 engine was produced from 1973 to 1979. The engine disappeared from the sedan catalogs in September 1975, as the new emissions regulations would simply make the car too slow. As commercial vehicles didn't have to meet the new stricter regulations, it continued to be available in the Van 1200 Standard until the end of production of the first generation Leone in 1979.
Specifications
Displacement: 1176 cc
Bore: 79 mm
Stroke: 60 mm
Compression Ratio: 9.0:1
Valvetrain: OHV
Horsepower: at 6000 rpm
Torque: at 3600 rpm
;Found on
1973-1975 Subaru Leone
1973-1977 Subaru Leone A25
1973-1979 Subaru Leone A65
EA-65
The Subaru EA-65 engine was produced from 1979 to 1994.
The Subaru EA-71 engine was produced in two different designs; from 1976 to 1994, originally the first design was a redesign of the EA-63 block, known as the "Narrow Case EA71" then Subaru completely redesigned it to make the newer version known as "Fat Case EA71" which also led to a stroked version known as the EA81. The Availability in USA for the EA71 ended in 1990 on the Hatchback models. It came with a Carburetor, and the last editions for JDM featured TBi, found on the "Maia" Editions of the third gen Subaru Leone, it came either with Solid Lifters or Hydraulic Lifters.
There was an unreleased EA-72 concept engine Subaru developed for use in the Japanese Market in 1989. It was essentially an EA-82 with an EA-71 crankshaft. This engine never came about as the Subaru EJ15 and EJ16 were already in development for this purpose.
Specifications
Displacement: 1,595 cc
Bore: 92 mm
Stroke: 60 mm
Compression Ratio: 8.7:1
Valvetrain: SOHC
Horsepower: unreleased
Torque: unreleased
EA-81
The Subaru EA-81 engine was produced from 1980 to 1994 and is a stroked version of the "Fat Case" EA-71 it came either with Solid Lifters or Hydraulic Lifters.
This engine used twin Hitachi carburetors on a single intake manifold, and the late version for the 1983 Safari Rally, featured two downdraft Weber Carburetors, each one mounted directly over each head. The Heads and Valvetrain on the EA81S engines are different from the regular counterparts, featuring different positions for the intake and exhaust valves on the Heads, feature known usually as Reverse Valves. ;Found on
1980-1982 second gen Subaru Leone
1980-1982 Second Gen Subaru Brat, Subaru Brumby.
1983 Subaru RX
EA-81T
The EA-81T is not an official engine designation from Subaru. The "T" is used informally to refer to the factory turbocharged version of EA-81 engines that are equipped with a turbocharger and multi port fuel injection. ;Additional specifications
The Subaru EA-82 engine was originally intended to be a 2.0L engine as its prototypes were, but Subaru destroked it to 1.8L for production. The EA82 was produced from 1984 to 1994. It came either with carburetor, single point fuel injection, or multi port fuel injection and hydraulic lifters. Most of the technical advancements introduced to the EA82 were utilized in the next generationSubaru EJ engine, specifically, the SOHC valvetrain, and multi-point fuel injection.
Specifications
Displacement: 1781 cc
Bore: 92 mm
Stroke: 67 mm
Compression Ratio: 8.7:1 or 9.0:1 SPFI According to Subaru Factory Service manuals: 9.0:1 "carb" 9.5:1 SPFI
Valvetrain: SOHC
Horsepower:
Carb - at 5,200 rpm SPFI - at 5,600 rpm MPFI - at 5,200 rpm
Torque:
Carb - at 3,200 rpm SPFI - at 3,200 rpm MPFI - at 3,200 rpm ;Found on
1984-1994 Third generation of Subaru Leone, Subaru Loyale, Subaru Omega
The EA-82T engine was introduced in 1984 for the Third generation of Subaru Leone in the GL-10 and RX Turbo trim models plus the XT, and later on the Subaru Leone RX Coupe models. It is a turbocharged version of the MPFI EA-82 with modified cylinder heads and lower compression pistons. A revised intake known as the "Spider" manifold was available and is seen as an early version of the EJ style intake manifold. ;Additional specifications
The ER series is a flat-6 engine with a displacement of 2.7L manufactured by Subaru, a division of Fuji Heavy Industries. The ER series has aluminium engine blocks and aluminium cylinder heads. It is found on the 1988-1991 Subaru Alcyone VX. Created as a refined luxury engine with improved power over the EA82T, Subaru introduced the ER series engine in 1988 exclusively to be featured in the Subaru Alcyone VX. Like the EA series engines, the ER series engine featured 2-valve cylinder heads with hydraulic lash adjusters and the block shared the same bore and stroke. While recognised as bearing many similarities to the Subaru EA82 engine, there are numerous differences in design between the two engines and a large portion of parts are unique to the ER27. The oil and water pumps are unique to the ER27, sharing similar bolt patterns and design to the EA82, but being of a higher flow in both cases. The intake manifold uses a two piece design with a lower section bolting to the heads containing the coolant bridge, injectors and various vacuum lines. The upper intake manifold then bolts to the lower section and is unlike the EA82 or EJ22 "spider" manifold designs in that there is no central plenum chamber. The valve timing system is belt-drive using two individual timing belts, curiously one belt uses a spring tensioner whilst the other uses a hydraulic tensioner. Both JDM and USDM versions of the ER27 used multi-point electronic fuel injection. The ER27 designation was the first time Subaru incorporated the engine's displacement into the series name and all future engines have retained this nomenclature.