376\377\000h\000t\000t\000p\000 E21 Engine Specs BMW M20

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BMW M20 - Wikipedia, the free encyclopedia

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BMW M20
From Wikipedia, the free encyclopedia

BMW M20 engine

The M20 is an inline-6 piston engine by BMW.
Initially designated M20, the 12-valve, belt
driven SOHC design was introduced in the
1977 BMW 520/6 and 320/6 as an entirely new
design. With displacements ranging from 2.0 to
2.7 liters, it was the "little brother" to the larger
BMW M30 engine. It had 91 mm (3.6 in) borespacing instead of 100 mm (3.9 in) of the M30.
It was intended to replace the larger
displacement 4-cylinder motors and was born
out of BMW's conviction that a small six had
more development potential than a large four
(i.e. 2 liters+)

Manufacturer

BMW

Production

1976–1994

Predecessor

None

Successor

BMW M50

Class

Straight-6

Engine

2.0 L (1990 cc/121 in³)
2.3 L (2316 cc/141 in³)
2.5 L (2494 cc/152 in³)
2.7 L (2693 cc/164 in³)

Powering the E21 and E30 3-Series, as well as E12, E28 and E34 5 Series cars, it was produced for
nearly two decades, with the last examples powering the E30 325i touring built until April 1993. By that
time, the newer twin-cam M50 engines with 4 valves per cylinder had already been used in the E36 and
E34 for a couple of years.
Three different head castings were used over the engine's production run. The earliest was #1264200 aka
the "200". These were used in all e21 320/6 and 323i and e12 520/6 engines and later in the e28 and e30
eta engines (eta denoting the 'efficiency' version of the engine, with a lower engine redline amongst
other focused differences aimed at increasing fuel economy). The next version was #1277731 aka the
"731". This head was the same as the 200 but featured larger intake ports. The final version was
#1705885 or "885" introduced in the 325i. Ports were further enlarged, valves were larger and the
combustion chamber was redesigned to improve flow and thermodynamic efficiency.
As the BMW M21, it became a diesel engine that was also available with a turbocharger.

Contents
■
■
■
■
■
■

1 Overview
2 M20B20
3 M20B23
4 M20B25
5 M20B27
6 M20 Tuning and Modification
■ 6.1 Aftermarket tuners
■ 6.2 Increasing displacement
■ 6.3 Eta-based 2.7
■ 6.4 Super Eta-based
■ 6.5 325i based
■ 6.6 Regular 2.7 Eta based

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BMW M20 - Wikipedia, the free encyclopedia

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6.7 2.8, 2.9, 3.0 and 3.15
6.8 2.8
6.9 2.9
6.10 3.0
6.11 3.15/3.2
6.12 Miscellaneous Performance upgrades

■ 7 See also
■ 8 External links

Overview
Engine

Displacement

2.0 L
M20B20
(1990 cc/121 in³)

2.3 L
M20B23
(2316 cc/141 in³)

M20B25

Models
Power

2.5 L
(2494 cc/152 in³)

2.7 L
M20B27
(2693 cc/164 in³)

Torque

Redline Year

92 kW (123 hp) @ 5800

165 N·m (121 ft·lbf) @
4000

1981

92 kW (123 hp) @ 5800

170 N·m (125 ft·lbf) @
4000

1981

95 kW (129 hp) @ 6000

174 N·m (128 ft·lbf) @
4000

6200

1985

95 kW (129 hp) @ 6000

164 N·m (120 ft·lbf) @
4300

6200

1986

102 kW (143 hp) @
5300

205 N·m (151 ft·lbf) @
4000

6500

1982

110 kW (139-150 hp) @ 205 N·m (151 ft·lbf) @
6000
4000

6500

1983

126 kW (169 hp) @
5800

226 N·m (166 ft·lbf) @
4000

6700

1985

120 kW (161 hp) @
5800

215 N·m (158 ft·lbf) @
4000

6700

1985

125 kW (169 hp) @
5800

222 N·m (163 ft·lbf) @
4300

6700

1987

92 kW (121 hp) @ 4250

240 N·m (177 ft·lbf) @
3250

4800

1983

95 kW (127 hp) @ 4250

240 N·m (177 ft·lbf) @
3250

4800

1986

90 kW (120 hp) @ 4250

230 N·m (169 ft·lbf) @
3250

4800

1985

95 kW (127 hp) @ 4800

230 N·m (169 ft·lbf) @
3200

5200

1987

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M20B20
The M20B20 is a 2.0 L M20 engine. Entering production in March 1977 in the E12 520 and later in the
E21 320/6, the engine had a bore of 80 mm (3.1 in) and a stroke of 66 mm (2.6 in). Fueling was handled
by a Solex four-barrel carburetor. These early versions all used the "200" head. When the E30 debuted
in 1982, the 2.0 was fitted with Bosch L-Jetronic fuel injection and the revised "731" cylinder head
featuring larger intake ports. In 1984, the 2.0 was again revised with the addition of Bosch Motronic
engine management and a catalytic converter. Later models also received larger valves. The 2.0 has the
distinction of having the longest production run in the M20 series with the last ones rolling off the line
in early 1993.
Applications:
■
■
■
■
■
■

1977–1981 E12 520/6
1979–1983 E21 320/6
1982–1984 E28 520
1982–1988 E28 520i
1983–1992 E30 320i
1988–1990 E34 520i

M20B23
This motor was only used in 3-series models. The 323i began as an E21 model in 1977 and was phased
out as the E30 models came into production. It initially used the same head and block as the carbureted
2.0 liter but used a longer 76.8 mm (3.0 in) stroke crank. It also featured Bosch K-Jetronic Injection. So
equipped the E21 323i produced 143 hp (107 kW). The E30 version featured the revised "731" head
with larger intake ports and used L-Jetronic instead of K-Jet. Early E30 323s made 139 hp (104 kW) but
later versions got updated cams and power rose to 150 hp (110 kW). The early E30 323I, had more
torque and was quicker. The 2.3 liter motor was superseded by the more powerful 2.5 in 1985.
Applications:
■ 1977–1982 E21 323i
■ 1982–1985 E30 323i

M20B25
The German version of the M20B25 produced 170 hp (130 kW) with a catalytic converter and 171 hp
(128 kW) without. It featured the newly designed "885" head featuring an open, higher-volume
combustion chamber design. The new engine had an 84 mm (3.3 in) bore, and 75 mm (3 in) stroke. The
redesigned pistons and combustion chambers made better power, resisted detonation better and had
higher thermodynamic efficiency. It was equipped with Bosch Motronic 1.1/1.3 Adaptive fuel injection.
The new 12 valve engineering gave M20B25 the name 'verschieden', meaning 'different' in German. The
engine is often referred to as 'the differing one' due to the anomalous valve system. With a minor
modification that adjusts the idle speed of a cold engine, the 325i fulfills Euro 2 emission requirements
in Germany, resulting in a lower tax compared to Euro 1 (as of 2005).

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Applications:
■ 1986–1994 E30 3 Series
■ 1989–1990 E34 5 Series
■ 1988–1991 E30 Z1

M20B27
The 2.7 L M20B27 was designed for efficiency (thus the e for the Greek letter eta in 325e). It had an
84 mm (3.3 in) bore and a longer 81 mm (3.2 in) stroke for a total displacement of 2693 cc. The eta
engine used the same "200" head casting as the carbureted 2.0 liter and K-jetronic 2.3 as featured in the
E21 but only utilizes four camshaft bearings for reduced internal friction. The heads still have seven
journals cast into them though and can be drilled to oil a seven bearing cam.
Output was 122 hp (91 kW) at 4250 rpm for all models produced through model year 1987 and 127 hp
(95 kW) at 4800 rpm for the final year of production in 1988. Peak torque is 170 ft·lbf (230 N·m) at
about 3250 rpm for all years of the eta. BMW built this engine with fuel economy and low-rev
drivability as the top priority. In production it was coupled to a 2.93:1 differential for the E28 5 series
and E30 3 series models starting model year 1986. The earlier 325e used a 2.79:1 ratio. The tall final
drive gearing was required to keep the engine in its best operating range at various road speeds. These
features did achieve exceptional efficiency, but at the expense of the sparkling performance typically
associated with the marque.
All eta engines used Bosch Motronic engine management systems that were calibrated for maximum
fuel economy. The result were very conservative spark advance and fuel delivery curves. In addition, the
Motronic had a built-in rev limiter that engaged at about 4750 rpm. While this was hardly sporting, due
to the very low overlap and short duration of the cam and the long, narrow intake tubing, the motor
would not have made much power over 5,000 rpm anyway. The low redline was an added safety margin
to compensate for the four bearing cam and soft valve springs.
In cars produced from September 1987, the eta engine got a substantial refresh from the factory. This
included the more recent Bosch Motronic version 1.1/1.3 with adaptive idle control and revised
circuitry, the "885" head casting with the larger valves, ports and revised combustion chambers; new
pistons to fit the 2.7 L stroke with the 2.5 L head; a special one year only intake manifold with even
narrower runners that opened up at the flanges to match the larger ports of the new head; a dual exhaust
system; a special eta-tuned 7-bearing cam; and a 5300 rpm rev limit. A new 6000 rpm tachometer was
also used.
Applications:
■ 1982–1987 E30 325/325e/325es
■ 1982–1987 E28 525e (or 528e in the US)

M20 Tuning and Modification
Options vary according to which version of the engine is used as a base. The primary limiting factor in
these engines is the 2-valve head design which is good for what it is but is easily bested by later 4-valve
designs as found in the M50-series in terms of air-flow potential. All versions of the cylinder head can
benefit from flow porting and larger valves and even the "200" can have its ports and chambers opened

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up to the same dimensions as the "885". All versions can benefit from more aggressive cams such as
those from Alpina, Schrick or any other reputable manufacturer. For street use, the practical upper limit
of cam duration is 284 intake and 284 exhaust. Any more duration and idle quality and driveability start
to deteriorate noticeably, particularly with the stock induction, fueling and ignition systems. In all cases,
the fuel/ignition system should be revised accordingly to deal with the extra airflow.
Exhaust upgrades also produce good results from the use of tubular exhaust manifolds (headers) and
freer flowing exhausts in general. It must be noted that with the possible exception of the muffler, the
original BMW exhaust system from the 325i already flows quite well. Eta exhausts and 320 exhausts
(except for late production examples) are more restrictive.
Motronic cars can benefit from high performance chips that remap fuel and spark maps to run on higheroctane fuel. Manufacturers include E.A.T, Conforti as well as many others. Chip selection should be
based on the maker's reputation and feedback from current users. K-Jet cars can accommodate flow
upgrades and displacement boosts with relative ease and usually require only basic mixture and fuel
pressure adjustments for street cars. K-jet does not tolerate radical cams though since it needs a
continuous vacuum to actuate the air-flow plate correctly. L-jet cars are more limited since they cannot
be chipped and adjustments to fuel pressure and to the air-flow sensor need to be done with extreme care
to ensure good results. Simply boosting fuel pressure or adjusting the AFM spring tension without
checking the resultant change in mixture can lead to more problems than it solves.
Various intake manifolds were used on injected cars. K-jet cars can only use the original intake since the
others do not accommodate mechanical injectors. The intakes on all other models are interchangeable
with the best one being from the 325i owing to the larger throttle body, wider tube diameter and shorter
overall length for better flow and more power at higher revs. Eta cars up to September 1987 using the
"200" head should get the ports opened up to match the wider tubes of the 325i manifold while cars
using the 731 head (E30 320i and 323i) require no such modification.
Carbureted 320s have a proprietary manifold and the only induction option on an otherwise stock engine
would be porting and/or a carb upgrade. The manifold can also be deleted outright in favor of a custom
triple side-draft setup but this would only yield satisfactory results when combined with a cam and some
porting.

Aftermarket tuners
Alpina and Hartge build higher powered M20s based on stock engines. Their usual approach was to gasflow the heads, install larger valves, higher compression pistons, more aggressive cams, headers, custom
exhaust systems and then tune everything accordingly. Using this approach, Alpina got 170 hp (127 kW)
from the 2.3, 190 hp (142 kW) from the 2.5 and 210 from their 2.7 (based on the 325i engine but with
the longer stroke modified M21 Turbo-diesel crank). Hartge's results were similar while using similar
approaches.

Increasing displacement
Owners of 2.0 and 2.3 liter cars would do well to replace their engine blocks outright in favor of a
325i/Eta block with its larger bore. These blocks can easily be adapted to accommodate the ancillaries
from the smaller engines with little or no modification depending on the model they are to be installed
in. E21 owners not wishing to upgrade their injection systems for their strokers may still follow the
guidelines below but must re-use and re-tune their existing carb or K-Jet systems and their necessary

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hardware. Furthermore, cars originally using a distributor that base an engine upgrade on a Motronic
block will have to re-use all the parts relative to the distributor drive since these are absent on the
Motronic block. HOWEVER, note that the block in the AWD 325iX is a DESIGN unique to the iX with
a completely different lubrication system and is not interchangeable with the others without a much
more complex adaptation.

Eta-based 2.7
Generally, where strokers are concerned the smallest and easiest to build are 2.7 Eta-based. The cast Eta
crank, contrary to popular myth, is strong and is proven to over 7500 rpm. Engine builders like Jim
Rowe of Metric Mechanic routinely use the Eta crank in their stroker builds. The forged crank from an
M21 turbo-diesel with the same stroke as the Eta can also be used but it is heavier and unnecessary for
moderate-rpm street applications.

Super Eta-based
The easiest is to start with a September 1987 onward Super Eta and installing a 325i cam and springs, a
complete 325i intake manifold with injectors (because 2.5 run on 12 volts,2.7 run on 5 volts) and throttle
and plugging in the 325i engine control unit. Depending on which cam, chip and intake is used, this
combination can make 180-200 hp with the stock 8.5:1 compression ratio and will rev to 6800 rpm.

325i based
Starting with a regular M20B25, acquire an Eta crank and use Super Eta pistons and rods or custom
pistons with the 325i rods. A crankshaft from the M21 diesel engine may also be used as it is
dimensionally equivalent to the ETA crankshaft; it is also forged, where the ETA crankshaft is cast. Eta,
320 and 323 rods are all 130 mm (5.1 in) long while 325i rods are 135 mm (5.3 in). Regular Eta pistons
WILL NOT WORK OPTIMALLY because they are not matched to the "885" head. Results are the
same as for the Super Eta and will be better if custom-made higher compression pistons are used.

Regular 2.7 Eta based
This is one option that many have discredited over the years but has been proven to work quite well.
Simply find a 2.7L ETA engine and swap on the complete head off of a 325i. This is all that is needed
for the engine. The result is 8.3:1 compression which is on the low end for a NA motor but is perfect for
a turbo car. In fact, cars with this setup have made over 400 rwhp with the stock ETA bottom end.
If you are starting with a eta equipped car, this will require an upgrade to Motronic 1.1/1.3 from a 325i
in order to get the desired revs and fuel/spark mapping. This will require the use of the entire engine
harness, ECM, front crank pulley with crank sensor and bracket, all the sensors (including AFM),
injectors (Etas built before September 1987 with the older Motronic system use low-impedance
injectors, wereas the 325i computer must use high-impedance injectors) , also 325i plug wires and
the EVAP purge solenoid. An instrument cluster with the 7000 rpm tachometer and a small wiring
modification to make the tach work will also be necessary. Owners of Etas made before December 1986
will need to widen the hole where the engine wiring harness goes into the car. Owners of older Etas that
have a rectangular plug joining the engine harness to the fuse box instead of a round one will have to
change to the later model fuse box or splice all the wires and make a custom connection.

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2.8, 2.9, 3.0 and 3.15
All of these options will require custom pistons except for the 2.8 which uses regular 325i pistons with
eta rods. Mild build may be able to run factory fuel injection system with larger injectors, but for high
power builds some sort of computer upgrade is required. With the exception of the 2.8, all should use
135 mm (5.3 in) rods sourced from a 325i. A much better option is to use the lighter weight rods from
M52B28, S52B32 or M54B30 (these are the same part number) without any additional modification.
Aftermarket rods are also available but not necessary for naturally aspirated builds. The stock rods have
been proven over 7500 rpms and hundreds of horsepower.
Non-Eta-based strokers use the forged crankshafts from an M52, S50US, S52US, or M54 engines. These
cranks all fit neatly into the M20 block with little modification. Block clearance should be checked and
adjusted accordingly especially if using E30 325i rods. The installation of a spacer on the front of the
crankshaft is needed to accommodate the front crank seal on the M20 and a different front crank bolt
must be used. Sometimes a modified intermediate shaft is used where block clearance issues arise. All of
these extra parts should come with any stroker kit sold by a reputable vendor.
Performance will vary depending on what other mods, if any, are made (cams, porting, exhausts etc.)and
the quality of tuning.

2.8
Option 1: Eta-based (81mm stroke). Same as 2.7 options above except that the block gets bored out to
86 mm (3.4 in) and custom pistons are used
Option 2: m52 84mm crank with 325i pistons and ETA rods. This is the only stroker other than the 2.7
to use all stock parts. Using the m52 crank, 130 mm (5.1 in) ETA rods and 325i pistons results in the
same compression height as a stock 325i, plus the increased displacement results in 9.7:1 compression
ratio. Some have commented that this is a less than ideal rod stroke ratio of 1.54, but in fact the s52 is
even worse at 1.51.

2.9
Same as 2.8 Option 2 but block bored to 86 mm (3.4 in) for 2.9 liters of displacement.

3.0
Option 1: Block bored to 86mm, 85.8 mm (3.4 in) S50B30US crank used for 3.0 liters of displacement.
Option 2: Bore unchanged (84mm), Install 89.6 mm (3.5 in) crank from S52US or M54B30 for 3.0
liters.

3.15/3.2
In this option, the block is bored to 86 mm (3.4 in) and the 89.6 mm (3.5 in) crank is used for 3.15 liters.
It has been reported that engine-builders have bored out as far as 86.4 for an even 3.2 liters but this is
beyond the generally accepted design limitations of the M20 block.

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Miscellaneous Performance upgrades
-Extrude hone intake: an abrasive clay-like material is fed through the manifold to eliminate
imperfections deep inside. Costly and worthwhile only if building larger stroker.
-P-Flow/Cold air intake: Will change induction sound to something more throaty but will accomplish
little if anything at all on a stock motor since the stock intake is already well designed and located. A
badly executed system will do more harm than good while a well-executed one will only yield slight
results.
-M30 AFM: Larger flap for more intake airflow. Consists in installing the electronic section of the M20
AFM onto the larger M30 AFM. Tricky to do and difficult to tune correctly. Don't bother unless
building larger stroker. Results generally overstated.
-MAF conversion: replaces AFM with hot-wire style MAF on Motronic cars. Needs software to run
correctly. Consider only on larger engines.
-M30 injectors: Higher flow injectors generally help prevent mixture from leaning out at higher revs on
modified engines. Good easy mod just be sure to be using correct impedance injector for given injection
system. As a rule, E34 535i injectors will work with Motronic 1.1/1.3 systems on M20s. Any others
should be checked by consulting with Bosch technical help.
-ITBs: Expensive and require extensive custom fabrication and standalone injection system. Not
worthwhile unless building a race engine.
-Forced induction: By far the most effective means of increasing power output, with tremendous
potential available for far less than the cost of a NA stroker engine. A stock engine with head studs will
reliably support over 20 psi (1.4 bar) with intercooling, a good tune and a sufficiently large turbine.
Standalone injection should be considered mandatory for boost pressures over 1 bar. The bottom ends
are very robust and will be the last parts to sustain damage if detonation occurs. The head gasket will fail
first, which can crack the cylinder head if the engine is run for very long in that condition. They tolerate
a considerable amount of detonation at lower boost pressures but become more sensitive as boost
increases. The driver must listen carefully to the engine to avoid damage if detonation occurs.
Aftermarket MLS head gaskets resist detonation slightly better which can result in damage to the piston
ring lands in the event of severe, sustained detonation. Even slight detonation is audible with a full
exhaust system while moderate detonation can usually be heard over an "open dump" wastegate.

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