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BMW M43
BMW M43
BMW M43
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BMW M43 engine
Overview
Production1991–2002
Layout
ConfigurationInline-4
Displacement1.6 L (1,596 cc)
1.8 L (1,796 cc)
1.9 L (1,895 cc)
Cylinder bore84 mm (3.31 in)
85 mm (3.35 in)
Piston stroke72 mm (2.83 in)
81 mm (3.19 in)
83.5 mm (3.29 in)
Cylinder block materialCast iron
Cylinder head materialAluminium
ValvetrainSOHC
Combustion
Fuel typePetrol, CNG
Chronology
PredecessorBMW M40
SuccessorBMW N42

The BMW M43 is an SOHC four-cylinder petrol engine which was produced from 1991 to 2002.[1] The M43 powered base-model cars, while higher performance models at the time were powered by the BMW M42 and BMW M44 DOHC engines. The M43 was produced at the Steyr engine plant.[2]

A version using natural gas was produced for the E36 318i and the E34 518i.

Following the introduction of the BMW N42 engine in 2001, the M43 began to be phased out.

Design

[edit]

Compared with its BMW M40 predecessor, the M43 features both a camshaft position sensor and a knock sensor[3] as well as roller rockers and a timing chain (instead of the M40's finger rockers and timing belt).[4][5] It also features a dual length intake manifold[6] ("DISA"), to provide torque across a wider rev range.[7]

In 1998 the displacement was increased to 1,895 cc (115.6 cu in), increasing torque to 180 N⋅m (133 lb⋅ft) at 3900 rpm.[1]

Versions

[edit]
Version Displacement Power Torque Year Note
M43B16 1,596 cc (97.4 cu in) 75 kW (101 hp)
at 5500 rpm		 150 N⋅m (111 lb⋅ft)
at 3900 rpm		 1991-1999
60 kW (80 hp)
at 5500 rpm		 127 N⋅m (94 lb⋅ft)
at 3900 rpm		 1995-2000 CNG
M43B18 1,796 cc (109.6 cu in) 85 kW (114 hp)
at 5500 rpm		 168 N⋅m (124 lb⋅ft)
at 3900 rpm		 1993
74 kW (99 hp)
at 5500 rpm		 142 N⋅m (105 lb⋅ft)
at 3900 rpm		 1995-1996 CNG
M43B19 1,895 cc (115.6 cu in) 87 kW (117 hp)
at 5500 rpm		 180 N⋅m (133 lb⋅ft)
at 3900 rpm		 1998
77 kW (103 hp)
at 5300 rpm		 165 N⋅m (122 lb⋅ft)
at 2500 rpm		 1999

M43B16

[edit]

The 1,596 cc (97.4 cu in) M43B16 produces 75 kW (101 hp) and 150 N⋅m (111 lb⋅ft) of torque. It uses the Bosch Motronic 1.7.x and Bosch BMS43 engine management system.[8] There was also a natural gas-powered version of this car (also able to run on petrol) for the 1995 BMW 316g Compact.

Applications:

  • 1994-1998 E36 316i
  • 1995-2000 E36/5 316g Compact
  • 1998-1999 E46 316i

Engine Management Systems:

M43B18

[edit]

The M43B18 has a 1,796 cc (109.6 cu in) displacement. It produces 85 kW (114 hp) and 124 lb⋅ft (168 N⋅m) and uses the Bosch Motronic 1.7.1 fuel injection system.[8] There was also a less powerful natural gas-powered version of this car (also able to run on petrol) for the BMW 518g Touring (E34). This model was only available for two years.

Applications:

  • 1992-1998 E36 318i
  • 1994-1996 E34 518i
  • 1995-1996 E34 518g Touring
  • 1995-2001 Z3 1.8

M43B19

[edit]

The M43B19 (also known as the "M43TÜ") is the largest M43 engine, with a displacement of 1,895 cc (115.6 cu in). It produces up to 87 kW (117 hp) and 180 N⋅m (133 lb⋅ft), and uses BMW's BMS 46 engine management system.[8] The 77 kW (105 PS) versions do not have the DISA intake manifold and also have a smaller camshaft compared to the 118 PS versions. Note the M43B16, M43B18 and the M43B19 (118 PS version) all have the same camshaft.

Applications— 77 kW (103 hp) and 165 N⋅m (122 lb⋅ft):

  • 1999-2001 E36 316i Compact
  • 1999-2002 E46 316i

Applications— 87 kW (117 hp) and 180 N⋅m (133 lb⋅ft):

  • 1998-2001 E46 318i/318Ci
  • 1999 -2002 Z3 1.9

References

[edit]

See also

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

BMW M43

View on Grokipedia
from Grokipedia
The BMW M43 is a straight-four, single overhead (SOHC) produced by from 1993 to 2002, featuring displacements of 1.6 litres (M43B16), 1.8 litres (M43B18), and 1.9 litres (M43B19), with power outputs ranging from 82 to 118 PS (60 to 87 kW) and from 127 to 180 N⋅m. Designed as a cost-effective replacement for the M40 engine, it incorporated a timing chain in place of a belt for reduced , roller rockers to minimize , and a DISA for improved mid-range . The M43 utilized 1.7 electronic and was built with a cast-iron block and aluminum head, emphasizing reliability and efficiency for everyday driving. Introduced in the E36 3 Series to power base models like the 316i and 318i from 1993 onward, the M43 later appeared in the E46 3 Series (1998–2001) and the Z3 roadster, with a technical update (M43TU) in 1998 adding a larger 1.9-litre variant and twin balance shafts for smoother operation. It was also adapted for in select markets, powering models such as the E36 318ig and E34 518ig. Production occurred at BMW's plant in , and the engine was phased out in favor of the more advanced N42 by 2002, though it remains noted for its durability and low ownership costs.

Development and Production

Origins and Design Evolution

The M43 is a single overhead (SOHC) inline-four developed by as a cost-effective successor to the M40, targeting base-model vehicles where affordability and practicality were prioritized over performance. Introduced to replace the M40 in entry-level applications, the M43 retained the predecessor's iron block architecture while simplifying the to reduce production complexity and costs. Production of the M43 commenced in late 1993 at BMW's engine plant in , marking a shift toward more durable components in response to real-world feedback from the M40's timing belt issues. This facility, BMW's primary engine production site, enabled efficient scaling for the engine's deployment across models like the E36 3 Series. The design evolution drew selectively from the parallel DOHC M42 engine, adopting elements such as roller rockers and a timing chain to eliminate belt maintenance, thereby simplifying manufacturing and enhancing longevity without adopting the full dual-cam complexity. A technical update in produced the M43TU variant, adding twin balance shafts for smoother operation. Central to the M43's development were goals of improved and emissions compliance, achieved through integrations like a knock sensor for adaptive and electronic fuel management systems. Reliability for everyday use was emphasized, with low-friction components reducing wear and servicing needs, positioning the engine as a dependable option for non-performance-oriented BMWs. These motivations reflected BMW's strategy in the 1990s to balance environmental regulations with economic viability in volume production. The M43 bridged BMW's SOHC inline-four lineage, replacing the M40 by late 1993 and paving the way for the more sophisticated N42 chain-driven engine in 2001, which introduced . This transitional role solidified the M43's place in BMW's engine portfolio, focusing on refined simplicity amid advancing automotive standards.

Manufacturing Details

The BMW M43 engine was primarily manufactured at the BMW Group's engine plant in , a facility established for high-volume engine production since the early . Production commenced in late 1993 and continued until 2002, aligning with the engine's role as a successor to the M40 series. The plant's operations emphasized efficient assembly lines capable of handling inline-four petrol engines, incorporating automated machining and testing processes to ensure consistency in components like the cast iron cylinder block and aluminum . Initial rollout occurred in 1993 for integration into E36 3 Series models, with production peaking in the mid-1990s before a gradual phase-out beginning around 1999 for smaller-displacement variants like the M43B16, which ceased by that year to make way for newer designs such as the N42. The full M43 lineup was discontinued by 2002, coinciding with the broader shift toward more advanced four-cylinder engines in BMW's portfolio. Throughout its run, Steyr's manufacturing adapted to include (CNG) variants starting in 1995, targeted at environmentally conscious European markets, where unmodified M43 blocks were paired with specialized fuel systems for models like the 316g and 518g. The production process at highlighted mass-production efficiency, with the block formed through precision to achieve durability and thermal stability, followed by CNC for cylinder bores and crankshaft alignment. Aluminum heads were machined in dedicated lines unique to the facility, involving high-speed milling for seats and ports to optimize , particularly for the integration of the DISA system introduced with the M43. These processes contributed to the engine's reputation for reliable output, with quality controls including testing for each unit to verify performance parameters before shipment.

Technical Specifications

Core Architecture

The BMW M43 engine family features a robust cylinder block designed for enhanced durability and resistance to , paired with an aluminum cylinder head to reduce overall weight and improve heat dissipation. This combination of materials balances structural integrity with efficiency, allowing the to withstand operational demands while minimizing mass in vehicle applications. The core layout is an inline-four configuration, with bore dimensions consistently at 84 mm for the smaller variants and slightly increased to 85 mm in the larger one, paired with stroke lengths varying from 72 mm to 83.5 mm across the family to achieve different displacements. This near-square or oversquare design contributes to balanced performance suitable for everyday driving. The employs a single overhead (SOHC) driven by a durable timing , operating two s per via hydraulic valve lifters and roller rockers to minimize friction and eliminate the need for periodic adjustments. The roller rockers, an advancement over prior designs, enhance valvetrain efficiency by reducing mechanical losses. Cooling is managed through a water-cooled , with circulating through passages in the block and aluminum head to maintain optimal temperatures around the cylinders and chambers. Lubrication is handled by an integrated oil pump within the , supporting a capacity of 4.0 liters to ensure adequate flow to critical components like bearings and the .

Key Systems and Features

The BMW M43 engine incorporates a dual-length manifold system, known as DISA (Drehmomentsteuernde Ansaugkrümmer), which dynamically adjusts runner length to optimize across a broad RPM range. At low engine speeds, the system employs longer paths to enhance and low-end , while switching to shorter paths at higher RPMs for improved airflow and power delivery. This innovation, carried over from predecessor designs, contributes to balanced performance without sacrificing drivability. Key electronic components include a camshaft position sensor that monitors valve timing for precise ignition and injection synchronization, ensuring optimal combustion efficiency under varying loads. A knock sensor detects engine detonation in real-time, enabling the control unit to adjust ignition timing and fuel mapping adaptively to prevent damage and maintain smooth operation. The Bosch BMS46 engine management system serves as the central controller, processing inputs from these sensors along with air mass, temperature, and throttle data to regulate engine parameters holistically. This setup supports OBD-compliant diagnostics and enhances fuel economy by fine-tuning air-fuel ratios dynamically. Fuel delivery relies on a multi-point injection system with four solenoid-operated injectors, one per , delivering precise metered volumes based on load and speed for uniform and reduced emissions. The employs a distributorless coil pack configuration, an advancement over prior distributor-based setups, generating high-voltage sparks via individual coil rails connected to spark plugs for reliable firing across all s. This design minimizes energy losses and supports higher compression ratios without misfires. Emissions control is achieved through close-coupled catalytic converter integration, where the converter is positioned near the to quickly reach operating temperature and efficiently convert hydrocarbons, , and into less harmful gases using a three-way catalyst. For (CNG) adaptations introduced in 1995 models like the E36 316g, the system includes modified gas injectors and a parallel fuel delivery setup, allowing seamless switching between and CNG while retaining the standard M43 for compatibility and emissions compliance. These variants reduce output by around 25% compared to gasoline-only operation without compromising drivability.

Engine Variants

M43B16

The BMW M43B16 is the 1.6-liter variant of the M43 engine family, featuring a displacement of 1,596 cc achieved through a bore of 84 mm and a stroke of 72 mm. Introduced in 1993, it served as the entry-level powerplant within the series, emphasizing reliability and efficiency for base-model applications. The engine employs a cast-iron block with an aluminum head and a single overhead (SOHC) design, incorporating hydraulic tappets for reduced maintenance. In its standard configuration, the M43B16 delivers 75 kW (102 PS) at 5,500 rpm and 150 N⋅m of at 3,900 rpm, with a of 9.7:1 and a of 6,200 rpm. It utilizes Bosch M1.7 and includes a dual-length manifold (DISA) for optimized across different speeds. A detuned version producing 60 kW (82 PS) at 5,500 rpm and 127 N⋅m at 3,900 rpm was also available, primarily adapted for alternative fuels. A notable unique aspect of the M43B16 was its adaptation for (CNG) operation, introduced from 1995 to 2000 to meet eco-friendly market demands in , retaining the detuned 60 kW output while prioritizing lower emissions. This variant targeted environmentally conscious consumers without sacrificing the engine's core durability. Performance-wise, the M43B16 focused on , achieving combined consumption of approximately 7.4 L/100 km in typical compact configurations, making it suitable for daily . Production of the engine spanned 1993 to 1998 at BMW's facility in .

M43B18

The BMW M43B18 is the 1.8-liter variant of the M43 engine family, featuring a displacement of 1,796 cc achieved through a bore of 84 mm and a of 81 mm. It delivers a maximum output of 85 kW (114 hp) at 5,500 rpm and 168 N⋅m of torque at 3,900 rpm, providing a balanced power delivery suitable for entry-level performance applications. This configuration employs a single overhead (SOHC) , as detailed in the core architecture section. With a of 9.7:1, the M43B18 was produced from 1993 to 1998, marking it as a short-lived design intended to bridge the gap between the smaller 1.6-liter M43B16 and the subsequent 1.9-liter variants. Its limited production run reflected BMW's transitional strategy during the mid-1990s, focusing on refining four-cylinder efficiency before larger displacements became standard. A specialized (CNG) version of the M43B18 was offered from 1995 to 1996, primarily for the 518g Touring model, with detuned output reduced to 74 kW (100 hp) at 5,500 rpm and 142 N⋅m at 3,900 rpm to accommodate the system. This adaptation highlighted early efforts in alternative fuels while maintaining core engine architecture. In terms of performance, the M43B18 offered improved mid-range pull compared to the M43B16, emphasizing responsive for urban driving scenarios. Fuel efficiency was approximately 8 L/100 km in combined driving, supporting its role as an economical option.

M43B19

The M43B19, also known as the M43TÜ, represents the largest and final evolution within the BMW M43 engine family, with a displacement of 1,895 cc achieved through a bore of 85 mm and a of 83.5 mm. This inline-four configuration featured a of 9.7:1, enabling efficient combustion while maintaining compatibility with multi-point . Produced from 1998 to 2002 at BMW's facility, it served as the longest-running variant in the series, extending production until the overall M43 lineup concluded. In its standard tune, the M43B19 delivered 87 kW (118 PS; 117 hp) at 5,500 rpm and 180 N⋅m (133 lb⋅ft) of torque at 3,900 rpm, providing strong low-end response suitable for entry-level performance applications. A detuned version, rated at 77 kW (105 PS; 103 hp) at 5,300 rpm and 165 N⋅m (122 lb⋅ft) at 2,500 rpm, was offered for select markets to meet regional power or fiscal requirements. These outputs were managed by the Bosch BMS 46 electronic control unit, which optimized fueling and ignition for balanced performance (detailed further in Key Systems and Features). The engine's design emphasized refinement, incorporating updates for Euro 3 emissions compliance to align with the stricter standards introduced in the E46 platform, along with twin balance shafts for smoother operation. Distinct from earlier M43 variants, the M43B19 lacked a (CNG) bivalent option, focusing instead on gasoline-only operation for broader reliability and simplicity. It exhibited the family's peak delivery and smoothest operation, attributed to its larger displacement and refined system with DISA variable-length runners, resulting in reduced vibration and enhanced drivability. On the highway, it achieved of approximately 6.1 L/100 km under extra-urban conditions, underscoring its efficiency for long-distance travel while prioritizing over peak power.

Applications

3 Series Models

The BMW M43 engine was primarily integrated into entry-level models of the E36-generation 3 Series, which spanned production from 1990 to 2000, with the M43 appearing in select configurations starting in 1993. The 316i sedan, produced from 1993 to 1999, utilized the M43B16 variant, delivering 75 kW (102 PS) for efficient urban driving in rear-wheel-drive layout. Similarly, the 318i sedan and coupe, built from 1993 to 1998, employed the M43B18, offering 85 kW (115 PS) while maintaining compatibility with the E36's chassis dynamics tuned for moderate torque outputs up to 168 Nm. These models were paired with either a five-speed or a four-speed automatic, optimizing the engine's low-end responsiveness for European markets where the M43 was predominantly deployed. In the E36/5 Compact hatchback variant, introduced in 1994 and produced until 2000, the M43 powered the 316i model, emphasizing practicality with a rear-wheel-drive setup and a slightly elevated for compact versatility. The 316i Compact (1994–2000) initially used the M43B16 before transitioning to the M43B19 in later years for refined emissions compliance, achieving power figures of 75–77 kW (102–105 PS). Transmission options mirrored the sedans, with five-speed manuals standard and four-speed automatics available, and chassis tuning accounted for the engine's torque delivery to ensure balanced handling despite the hatchback's . Market-specific adaptations included detuned versions for stricter emissions zones, such as the natural gas-powered 316g Compact (1995–2000) based on the M43B16, which reduced output to 60 kW to meet environmental regulations in select European regions. The E36 318ig sedan (1995–1998) also used a natural gas-adapted M43B18, producing 85 kW (115 PS). Transitioning to the E46-generation 3 Series, launched in 1998, the M43 served as the base powerplant in early models before being phased out for newer designs. The 318i sedan and (1998–2000) incorporated the M43B19, producing 87 kW (118 PS) and paired with five-speed manuals or four-speed automatics, with the chassis reinforced for the engine's 180 Nm to support the E46's improved rigidity and safety features. The 316i (1999–2001) followed suit with the same M43B19 variant at a detuned 77 kW (105 PS) for cost-sensitive markets, focusing on fuel economy in rear-wheel-drive configuration. These applications were largely confined to , where the M43's simplicity and compliance with regional emissions standards, including occasional ECU remapping for urban zones, made it a staple for budget-conscious buyers until production ended in 2001.

5 Series and Other Models

The BMW M43 engine was employed in the fifth-generation 5 Series (E34) as the entry-level powertrain for the 518i sedan and touring models, introduced in 1994 and continuing through 1996. Equipped with the M43B18 variant, it generated 85 kW (115 PS) at 5,500 rpm and 168 N⋅m of torque at 3,900 rpm, integrated into a rear-wheel-drive platform with a five-speed manual transmission. This configuration suited the larger vehicle's demands, providing balanced low-end torque for urban and highway driving while adhering to updated emissions regulations through refined fuel injection and catalytic converter systems. A natural gas variant, the 518ig (1995–1996), used the same M43B18 adapted for CNG, maintaining 85 kW (115 PS). The 518i's role as a cost-effective base model helped maintain accessibility in BMW's mid-size lineup during the E34's later years. Beyond the 5 Series, the M43 expanded into niche territory with the Z3 roadster, where the M43B19 variant powered the 1.9i trim from 1999 to 2002 as an economical . Delivering 87 kW (118 PS) at 5,500 rpm and 180 N⋅m of torque at 3,900 rpm, the engine benefited from the Z3's lightweight aluminum-intensive and compact dimensions, yielding agile handling and a 0-100 km/h sprint in approximately 10.7 seconds. and a choice of five-speed manual or automatic transmissions emphasized the roadster's sporty character, with emissions optimizations ensuring compliance across European markets. This application highlighted the M43's versatility in diverse body styles, from upscale sedans to open-top enthusiasts' vehicles, as production wound down in 2002 alongside the E36 3 Series transition.

References

  1. https://www.torquecars.com/bmw/m43-tuning.php
  2. https://www.bmwblog.com/2023/07/06/bmw-m40-m42-m43-and-m44-engines-explained/
  3. https://www.diversityspares.com/the-complete-maintenance-guide-for-the-bmw-m43-engine/
  4. https://motor-car.net/bmw-engines/item/16045-m43-engine
  5. https://www.engineexplained.com/bmw-m43-engine-review-oil-and-reliability-insights/
  6. https://bimmerlife.com/2019/11/10/the-evolution-of-bmws-respected-inline-four/
  7. http://www.unixnerd.co.uk/m40.html
  8. https://www.engine-specs.net/bmw/m43b18.html
  9. https://www.engine-specs.net/bmw/m43b16.html
  10. http://mywikimotors.com/m43b18/
  11. https://www.press.bmwgroup.com/canada/article/detail/T0032223EN/bmw-natural-gas-vehicles-clean-reliable-economical?language=en
  12. https://www.bmwblog.com/2023/10/27/bmw-built-natural-gas-vehicles-ngv/
  13. https://www.australiancar.reviews/bmw-m43-engine/
  14. https://www.engine-specs.net/bmw/m43tu.html
  15. https://www.estore-central.com/bmw-parts-catalog/E46-316i_1.9-M43/Sedan/Engine/Lubrication-System-Oil-Pump-With-Drive/
  16. https://www.ultimatespecs.com/car-specs/BMW/155/BMW-E36-3-Series-Sedan-316i.html
  17. https://www.car.info/en-se/bmw/3-series/316g-6617449
  18. https://www.auto-data.net/en/bmw-3-series-sedan-e36-316i-102hp-10034
  19. https://www.ultimatespecs.com/car-specs/BMW/156/BMW-E36-3-Series-Sedan-318i.html
  20. https://www.auto-data.net/en/bmw-3-series-sedan-e36-318i-115hp-10036
  21. http://mywikimotors.com/m43tu/
  22. https://www.ultimatespecs.com/car-specs/BMW/4960/BMW-E46-3-Series-Sedan-318i.html
  23. https://mymotorlist.com/engines/bmw/m43b19-m43tu/
  24. https://zroadster.org/threads/ulez-help.59217/page-3
  25. https://www.auto-data.net/en/bmw-3-series-sedan-e46-318i-118hp-9978
  26. https://www.e46fanatics.com/threads/most-reliable-4-cyl-e46.1319784/
  27. https://www.auto-data.net/en/bmw-5-series-e34-518i-115hp-9667
  28. https://www.ultimatespecs.com/car-specs/BMW/1652/BMW-E34-5-Series-518i.html
  29. https://www.bmwblog.com/2025/07/26/bmw-z3-30th-anniversary-retrospective/
  30. https://www.ultimatespecs.com/car-specs/BMW/1629/BMW-Z3-Roadster-19i.html
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