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Austro Engine E4
Austro Engine E4
Austro Engine E4
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Austro Engine E4 (AE 300)
TypeFour-cylinder four-stroke aircraft engine
National originAustria
ManufacturerAustro Engine
First run2008
Major applicationsDiamond DA42
Number built> 1,500[1]

The Austro Engine E4 (marketed as the AE 300) is a liquid-cooled, inline, four-cylinder, four-stroke, aircraft diesel engine.[2][3] The engine is manufactured by Austro Engine, an Austrian-based company and subsidiary of Diamond Aircraft Industries.

Development

[edit]

The engine is based on the Mercedes-Benz OM640 road Diesel engine.[4]

Following Diamond's "General Aviation Single Point of Contact" strategy, Austro Engine started to design a new engine for use on Diamond products in 2005. It received its type certificate in January 2009.[2]

Applications

[edit]

Specifications (E4)

[edit]

Data from Austro Engine and type certificate[1][2][3]

General characteristics

Components

Performance

  • Power output: 168 hp (125 kW) (maximum takeoff and continuous power) at up to 2,300 propeller RPM
  • Specific power: 1.38 hp/cu in (62.80 kW/L)
  • Fuel consumption: 35 L/h (9.25 US gal/h) at 100% power, and
19 L/h (5.02 US gal/h) at 60% power

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Austro Engine E4

View on Grokipedia
from Grokipedia
The Austro Engine E4 is a family of liquid-cooled, turbocharged, inline four-cylinder, four-stroke diesel piston engines designed for aircraft, featuring direct and electronic engine control for efficient operation on Jet A-1 or . Developed by , a of founded in 2007 in , , the E4 series includes the AE300 model delivering 168 horsepower (123.5 kW) at takeoff and continuous power, and the higher-output AE330 variant providing 180 horsepower (132 kW) at takeoff with 171 horsepower (126 kW) continuous. These engines, with a displacement of 1,991 cm³ and dry weight of 185-186 kg, incorporate a 1:1.69 reduction gearbox and redundant electronic control units for enhanced reliability and low vibration. The E4 series received European Union Aviation Safety Agency (EASA) type certification in January 2009 for the base E4 model and March 2015 for the E4P variant, based on CS-E standards with special conditions for operations like flame-out protection. Primarily powering Diamond Aircraft models such as the DA40 NG, DA42-VI, and DA62, these engines emphasize fuel efficiency—consuming around 35-39 liters per hour at full power—global fuel availability, and simplified single-lever control, eliminating traditional complexities like mixture adjustments or magneto ignition. By September 2025, over 5,500 E4-series engines had accumulated more than 4.8 million flight hours, establishing Austro Engine as a leader in jet fuel piston technology for flight training, private aviation, and special missions.

Design and Development

Origins and Background

Austro Engine GmbH was established in 2007 in Wiener Neustadt, Austria, as a subsidiary of Diamond Aircraft Industries, with the primary objective of developing advanced diesel piston engines tailored for general aviation aircraft. The company's formation was driven by Diamond's need to create reliable, aviation-certified alternatives to existing diesel powerplants, particularly following challenges with prior suppliers like Thielert Aircraft Engines. Conceptual development of the E4 engine began in mid-2005 at Diamond Aircraft, culminating in certification after approximately 42 months of intensive engineering efforts. The E4 engine's core design is derived from the OM640 inline-four-cylinder automotive , which features a cast-iron block and head for durability. Key adaptations for included the integration of a to maintain performance at altitude, a full-authority digital engine control () system for precise fuel management and reduced pilot workload, and modifications to the fuel system for compatibility with jet fuels such as Jet A-1 and JP-8. The first engine run occurred in , marking a significant milestone in transitioning the OM640 platform from automotive to applications. Central to the E4's development were design goals aimed at enhancing and in . By enabling the use of widely available and lower-cost jet fuels instead of , the engine sought to reduce direct operating costs for owners, while its diesel architecture promised lower carbon emissions and improved economy compared to traditional engines. These objectives aligned with broader industry shifts toward more propulsion options. Production of the E4 series commenced shortly after its 2009 certification, with over 1,500 units delivered by 2016, reflecting rapid adoption in the market. By September 2025, more than 5,500 engines had been produced, accumulating over 4.8 million flight hours worldwide, underscoring the design's reliability and the company's scaling manufacturing capabilities.

Certification and Production

The (EASA) issued E.200 for the Austro Engine E4 on January 28, 2009, marking the regulatory approval for its entry into service as a certified . The U.S. (FAA) validated this shortly afterward through bilateral agreement, enabling installations in U.S.-registered . Subsequent supplemental type certificates have been granted for variants, incorporating refinements to meet evolving standards. Manufacturing occurs at Austro Engine's facility in , , a operation closely integrated with ' assembly lines to streamline production and supply chain for equipped . The E4 employs a liquid-cooled, inline four-cylinder design, leveraging automotive-derived components from the OM640 base for cost efficiency while adapting them to requirements such as enhanced and certification compliance. Initial production commenced at low rates in following , scaling to high-volume output by the to support global deliveries, with over 5,500 units manufactured as of September 2025. includes rigorous measures like inspections outlined in mandatory service bulletins, addressing potential issues proactively. By 2025, enhancements to the Engine Electronic Control Unit (EECU) software have been implemented via updated revisions, boosting operational reliability and performance monitoring.

Variants

The Austro Engine E4 series encompasses a primary baseline model and an upgraded variant, both sharing a 1,991 cm³ displacement four-cylinder diesel configuration but differing in power output and optimizations for specific roles. The AE300, introduced in 2009 as the initial certified model, delivers 123.5 kW (168 hp) at takeoff power and is designed primarily for single-engine applications, such as the DA40 NG. The AE330, commercially designated as the E4P model, represents an enhanced version certified subsequently, offering 132 kW (180 hp) at takeoff and 126 kW (171 hp) continuous power through recalibration of the electronic engine control unit (EECU) software and minor hardware adjustments, including optimizations to timing for improved performance in twin-engine setups like the Diamond DA42-VI and DA62. This variant achieves higher maximum of 550 Nm compared to the AE300's 512 Nm, enabling superior climb rates in heavier multi-engine aircraft. Within the AE300 line, early production units are denoted as AE300-A, while post-2015 models designated AE300-B incorporate refinements such as enhanced cooling systems to address operational thermal management, though these do not alter core power ratings. No significant variants outside the core E4 series exist, with all models maintaining compatibility with jet fuels like Jet A-1 for broad operational flexibility.

Applications and Operational History

Primary Aircraft Installations

The Austro Engine E4 series, particularly its AE300 variant, powers the Diamond DA40 NG, a single-engine trainer and light utility aircraft designed for simplified pilot operations through full authority digital engine control (FADEC). Certified for installation in the DA40 NG since 2010, the AE300 integrates seamlessly with the airframe's composite structure, featuring custom engine mounts that optimize weight distribution and vibration damping, while compatible with MT-Propeller three-blade constant-speed propellers for efficient thrust generation. In twin-engine configurations, the E4 series equips the Diamond DA42 NG and DA42 VI, both advanced trainers emphasizing for fleet training operations, with dual AE300 engines certified in 2010. These installations leverage the engines' redundant electronic engine control units (EECUs) for enhanced reliability, interfacing directly with the airframe's avionics suite to provide integrated engine monitoring and single-lever power management, reducing pilot workload during multi-engine maneuvers. The , a multi-role twin-engine including and variants, utilizes two AE330 variants of the E4 series, certified since 2015 to support extended range operations on . Integration in the DA62 includes reinforced mounts to accommodate the slightly higher power output of the AE330, compatibility with MT-Propeller four-blade propellers, and linkages that enable efficient fuel management across its seven-seat cabin configuration. The E4 series has also been certified for the RG, a single-engine retractable-gear model, using the AE300 for its 170 hp output, with FAA approval in 2023 following earlier EASA certification. Beyond Aircraft, third-party certifications remain limited as of 2025, primarily to experimental category adaptations and ultralight modifications, with no widespread adoption in non-Diamond production aircraft.

Service Record and Milestones

The Austro Engine E4 entered service in 2009 following EASA type certification for its integration into the DA42 NG twin-engine trainer, marking a shift toward jet fuel-powered piston engines in . This facilitated rapid adoption among European flight training organizations, where the engine's compatibility with widely available Jet A-1 fuel simplified logistics compared to avgas-dependent alternatives. Key milestones include reaching one million flight hours in December 2016, demonstrating early reliability in operations. By September 2025, the E4 series had accumulated over 4.8 million flight hours across more than 5,500 engines installed in various . Expansion into military and police applications occurred with the introduction of the DA62 MPP special mission variant in 2017, which utilizes the uprated AE330 variant of the E4 series for surveillance roles. The engine has seen primary adoption in and , with certifications validated by authorities including EASA, the FAA, New Zealand CAA, and Australia's CASA, enabling operations in multiple countries. Training programs in these regions highlight the E4's diesel efficiency, contributing to its use in over 5,500 installations worldwide. Operators benefit from reduced fuel costs, with the E4 burning up to 50% less fuel than comparable engines at equivalent power settings, compounded by Jet A-1's typically lower price (often half that of ). This economic advantage has driven widespread preference among flight schools and private owners, while the engine's jet fuel compatibility supports sustainable aviation initiatives, including compatibility with sustainable aviation fuels (SAF). Maintenance features a standard time between overhaul (TBO) of 1,800 flight hours for E4 and E4P models, with extensions possible through condition-based monitoring as outlined in the maintenance manual.

Known Issues and Airworthiness Directives

The E4 series has encountered piston-related concerns, including cracking and wear detected through inspections, prompting Austro Engine to issue Mandatory Service Bulletin MSB-E4-043/0 on August 27, 2024, with revisions up to /2 in May 2025, mandating repetitive inspections for affected engine serial numbers to detect early cracks that could lead to power loss. Regulatory responses include FAA Airworthiness Directive 2024-19-10, effective October 9, 2024, requiring inspections every 50-100 flight hours depending on the variant (E4A/E4P or E4B/E4C) and replacement if cracks are found, alongside sample for . This was complemented by EASA Emergency AD 2024-0172-E, issued August 28, 2024, aligning with MSB-E4-043 for inspection and replacement on E4 series engines. Additionally, FAA AD 2023-20-03, superseded by AD 2025-02-12 effective April 1, 2025, addressed related wear through repetitive for aluminum content, with replacement of , rings, con-rods, and if limits are exceeded, expanding applicability to more engine serial numbers including certain E4P variants. An earlier 2024 AD (effective March 11, 2024) targeted bearing cap screw failures potentially linked to engine issues but not directly to systems. Incident history includes rare in-flight shutdowns in Diamond DA42 aircraft equipped with E4 engines during the 2010s and early 2020s, often traced to (ECU) failures or software anomalies, such as dual ECU faults reported in a 2023 DA42 event; however, no fatal accidents have been directly attributed to E4 engine failures as of 2025. Earlier concerns involved timing chain wear leading to shutdown risks, addressed by a 2020 FAA AD requiring chain and fuel injector replacements on affected E4 and E4P engines. Resolutions encompass enhanced piston designs introduced in late 2024 production runs and terminating actions announced by Diamond Aircraft in March 2025 for MSB-E4-043 compliance, including full piston replacements to mitigate cracking risks. Mandatory software updates via service bulletins like MSB-E4-003 have resolved prior ECU issues, contributing to an overall safety record exceeding 4.8 million flight hours across more than 5,500 engines by September 2025. Ongoing monitoring leverages the engine's system for real-time fault detection, with integrated diagnostics supporting early identification of anomalies like oil contamination or component wear through oil analysis protocols.

Technical Specifications

General Characteristics

The Austro Engine E4 is an inline four-cylinder, four-stroke, turbocharged, direct-injection diesel engine designed for aircraft. It features a fuel injection system and a with for enhanced performance and efficiency. The engine has a displacement of 1,991 cm³, achieved with a bore of 83 mm and a stroke of 92 mm. Its physical dimensions are a of 738 mm, width of 855 mm, and height of 574 mm, with a dry weight of 185 kg for the baseline AE300 variant. It operates on jet fuels such as Jet A-1 and , with approved anti-icing additives permitted for use with certain fuels and conditions, and is incompatible with aviation gasoline (). The cooling system is liquid-based, utilizing a 50/50 water-glycol mixture circulated by a water pump, while engine management is handled by a Full Authority Digital Engine Control () system via an Electronic Engine Control Unit (EECU). The baseline power rating is 123.5 kW (168 hp) at 2,300 RPM for takeoff and continuous operation in the AE300 configuration, with variant-specific adjustments such as slightly higher output in the AE330 noted elsewhere. This engine powers like those from .

Engine Components

The Austro Engine E4 features a and cylinder heads derived from the OM640 automotive , adapted for use through a single-piece squeeze-cast with integrated cylinders and no separate liners, providing reinforced bores to handle the unique vibrational and thermal stresses of operation. This construction enhances durability while maintaining the compact inline-four configuration essential for installations. The subsystem consists of a single-stage unit with air intercooling and an electronically controlled , enabling precise boost regulation and effective altitude compensation to sustain performance across varying flight conditions. Complementing this, the fuel system utilizes common-rail direct injection at a maximum of 1,600 bar, supported by dual filtration stages and full oversight from the to ensure reliable delivery of Jet A-1 or . Lubrication is provided by a dry sump system with an initial filling capacity of 7.5 liters, employing approved synthetic oils such as AUSTRO ENGINE AERO 5W-40 to maintain optimal viscosity under high-load scenarios. The electrical architecture incorporates a dual-channel Full Authority Digital Engine Control (FADEC) system with redundant sensors for parameters like crankshaft position, oil pressure, and temperature, alongside an integrated starter-generator for simplified starting and power generation. Finally, the propeller interface is designed for three-bladed constant-speed propellers, connected through a fixed-ratio reduction gear of 1.69:1 to match the engine's higher crankshaft speed to the propeller's operational range.

Performance Parameters

The Austro Engine E4 series, exemplified by the AE300 variant, produces a maximum takeoff and continuous power output of 123.5 kW (168 hp) at 2,300 propeller RPM. The engine achieves a maximum of 512 Nm. In the AE330 variant, takeoff power increases to 132 kW (180 hp), with continuous power rated at 126 kW (171 hp). Fuel consumption for the AE300 stands at 35 L/h during 100% power operation and 19 L/h at 60% cruise power, reflecting the efficiency of its diesel design. For the AE330, these figures rise to 39 L/h at full power and 21 L/h at 60% cruise. The AE300's specific fuel consumption aligns closely with 200–210 g/kWh, consistent with performance data for comparable diesel engines in this class. Equipped with turbo-normalization, the E4 maintains performance in high-altitude operations. Operational temperature limits include a maximum coolant temperature of 105°C and oil temperature of 140°C for the base E4 model. The engine's endurance is supported by a recommended time between overhaul (TBO) of 1,800 hours, with derated configurations available to extend service life beyond this interval.

References

  1. https://www.easa.europa.eu/en/downloads/7617/en
  2. https://www.diamondaircraft.com/en/austro-engine/about/
  3. https://www.diamondaircraft.com/en/austro-engine/e4-series/overview/
  4. https://aviationconsumer.com/industry-news/austros-aggressive-play-fast-track-development/
  5. https://www.diamondaircraft.com/en/about-diamond/newsroom/news/article/austro-engine-and-diamond-aircraft-industries-receive-type-certification-for-the-turbo-diesel-airpla/
  6. https://www.aviation.govt.nz/assets/aircraft/type-acceptance-reports/Austro-Engine-E4.pdf
  7. https://aviationconsumer.com/aircraftreviews/diamond-da40-ng-buyers-warm-to-diesel-singles/
  8. https://downloads.regulations.gov/FAA-2024-2313-0002/attachment_1.pdf
  9. https://www.scribd.com/document/772902944/MSB-E4-003-Rev-30-Software-and-hardware-versions-of-the-E4-engine-series
  10. https://www.diamondaircraft.com/fileadmin/diamondaircraft/products/austro-engine/AE_E4_Series_Factsheet_screen.pdf
  11. https://www.easa.europa.eu/sites/default/files/dfu/TCDS_EASA.IM_.A.022_DA40_issue_24_with_Appendix-A.pdf
  12. https://www.diamondaircraft.com/en/about-diamond/newsroom/news/article/diamonds-da42-new-generation-receives-faa-certification/
  13. https://www.diamondaircraft.com/en/about-diamond/newsroom/news/article/diamond-aircraft-celebrates-da50-rg-faa-certification-and-first-us-customer-delivery/
  14. https://www.diamondaircraft.com/en/about-diamond/newsroom/news/article/diamond-receives-easa-type-certificate-for-austro-engine-powered-da42-ng/
  15. https://www.aopa.org/news-and-media/all-news/2009/january/29/diamond-austro-engine-certified-in-europe
  16. https://aviationweek.com/austro-engine-hits-milestone-flight-hours
  17. https://www.ainonline.com/aviation-news/aerospace/2017-06-21/diamond-da62-mpp-makes-world-debut
  18. https://www.easa.europa.eu/en/document-library/type-certificates/engine-cs-e/easae200-austro-engine-gmbh-e4-series-engines
  19. https://www.federalregister.gov/documents/2023/07/14/2023-14751/airworthiness-directives-austro-engine-gmbh-engines
  20. https://services.casa.gov.au/airworth/airwd/ADfiles/piston/austro/2017-0103R1.pdf
  21. https://www.diamondaircraft.com/en/flight-school-solution/concept/
  22. https://www.diamondaircraft.com/en/about-diamond/why-diamond/innovation/
  23. https://downloads.regulations.gov/FAA-2023-1412-0004/attachment_1.pdf
  24. https://www.diamondaircraft.com/en/about-diamond/newsroom/news/article/austro-engine-ae330-receives-easa-certificate-for-1800-hour-tbo/
  25. https://www.federalregister.gov/documents/2024/09/24/2024-21804/airworthiness-directives-austro-engine-gmbh-engines
  26. http://support.diamond-air.at/fileadmin/uploads/files/after_sales_support/DA42_New_Generation/Service_Informations/SI42NG-146-1-AE-MSB-E4-043-2-Piston-borescope-inspection.pdf
  27. https://ad.easa.europa.eu/ad/2024-0172-E
  28. https://www.federalregister.gov/documents/2025/02/25/2025-03010/airworthiness-directives-austro-engine-gmbh-engines
  29. https://www.federalregister.gov/documents/2024/03/05/2024-04579/airworthiness-directives-austro-engine-gmbh-engines
  30. https://www.diamondaviators.net/forum/viewtopic.php?t=9107
  31. https://www.aopa.org/news-and-media/all-news/2020/july/23/faa-orders-ad-on-austro-diesel-engines
  32. https://diamond-pilots.org/diamond-announces-plans-for-terminating-actions-for-austro-piston-msbs/
  33. http://repo.poltekbangsby.ac.id/434/1/OM-E40101-r11.pdf
  34. https://www.manualslib.com/manual/1671458/Austro-Engine-E4p.html
  35. https://aviationconsumer.com/industry-news/austro-diesel-certified-and-building/
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  42. https://www.manualslib.com/manual/1995760/Austro-Engine-E4-Series.html?page=387
  43. https://www.diamondaircraft.com/en/about-diamond/newsroom/news/article/austro-engine-aero-engine-oil-produced-by-liqui-moly-certified/
  44. https://www.manualslib.com/manual/1995760/Austro-Engine-E4-Series.html?page=356
  45. https://www.manualslib.com/manual/1995760/Austro-Engine-E4-Series.html?page=437
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