SOCATA TBM explained

The SOCATA TBM (now Daher TBM) is a family of high-performance single-engine turboprop business and utility light aircraft manufactured by Daher. It was originally collaboratively developed between the American Mooney Airplane Company and French light aircraft manufacturer SOCATA.

The design of the TBM family originates from the Mooney 301, a comparatively low-powered and smaller prototype Mooney developed in the early 1980s. Following Mooney's acquisition by French owners, Mooney and SOCATA started a joint venture for the purpose of developing and manufacturing a new, enlarged turboprop design, which was designated as the TBM 700. Emphasis was placed upon the design's speed, altitude, and reliability. Upon its entry onto the market in 1990, it was the first high-performance single-engine passenger/cargo aircraft to enter production.

Shortly after launch, the TBM 700 was a market success, which led to the production of multiple variants and improved models, often incorporating more powerful engines and new avionics. The TBM 850 is the production name assigned to the TBM 700N, an improved version of the aircraft powered by a single Pratt & Whitney PT6A-66D. In March 2014, an aerodynamically refined version of the TBM 700N, marketed as the TBM 900, was made available.[1]

Development

Origins

In the early 1980s, the Mooney Airplane Company of Kerrville, Texas designed a six-seat pressurized light aircraft, powered by a single 3600NaN0 piston engine, which they designated the Mooney 301. On 7 April 1983, the prototype 301 conducted its maiden flight.[2]

During 1985, the Mooney Aircraft Company was acquired by new French owners, who promptly took an interest in the further development of the fledgling 301.[3] Coinciding with the company's acquisition, French light aircraft manufacturer SOCATA, who had identified a vacant market position for a purpose-built optimised single-engine aircraft capable of fast personal transport and light cargo duties, identified the piston-powered 301 as a potential starting point to satisfy this niche.[4]

Accordingly, talks soon commenced between Mooney and SOCATA on the subject of producing a turboprop-powered derivative of the 301.[2] The product that emerged from these discussions was a new design, referred to as the TBM 700, which was considerably heavier than the original 301 while provisioned with more than twice the available power. The prefix of the designation, TBM, originated from the initials "TB", which stands for Tarbes, the French city in which SOCATA is located, while the "M" stands for Mooney.[2] At the time of its conception, while several aviation companies had studied or were otherwise considering the development of such an aircraft, the envisioned TBM 700 was the first high-performance single-engine passenger/cargo aircraft to enter production. From the onset, key performance criteria were established for the design, demanding a high level of reliability while also being capable of an unequalled speed/altitude combination amongst the TBM 700 other single-engined peers.[4]

Consequently, during June 1987, a joint venture, named TBM International, was established with the aim of completing development of the TBM 700 design and to perform the manufacture of the new aircraft; the ownership of the joint venture was divided between Mooney and SOCATA's parent company Aérospatiale.[2] [3] A pair of separate production lines for the TBM 700 were planned: one located at Mooney's facility in Kerrville, Texas, which was intended to cater to the American market, and the other based at SOCATA's factory in Tarbes, which was set to produce aircraft for customers throughout the rest of the world.[4] However, during the late 1980s and early 1990s, Mooney was afflicted by persistent fiscal shortfalls; consequently, in May 1991, Mooney chose to withdraw from participation in the joint venture, leaving SOCATA as the primary company involved in the program.[2]

On 14 July 1988, the first TBM 700 prototype conducted its maiden flight.[3] [4] Flight testing proved that virtually all of the established goals of the design had been achieved, leading to quick progress towards production. On 31 January 1990, type certification was received from French authorities; it was followed by the awarding of US Federal Aviation Administration (FAA) certification on 28 August 1990.[2] During early 1990, the first delivery of a TBM 700 occurred; the first production batch of 50 aircraft were sold out almost instantly. Early feedback received from operators and pilots was typically positive regarding the capabilities of the new aircraft, with the speed and generous power margins, amongst other attributes, specially noted.[4]

Further development

According to the aerospace publication Flying, while the TBM 700 had rapidly proved popular on the market and a good aircraft on its own merits, the services and support facilities SOCATA provided for the aircraft were an initial point of weakness.[4] Early on, customers were often faced with lengthy delays in acquiring spare parts and other services; negative feedback on the after sales support for the TBM 700 has been attributed as the cause of a downturn in sales during the 1990s. SOCATA, recognising the critical importance of an effective support infrastructure, decided to invest heavily in improving worldwide support for the type; instead of being solely reliant upon third parties and partnership arrangements with other companies, the firm developed its own facilities.[4] SOCATA opened its own service center in Florida, as well as establishing a network of distributors capable of both sales and services for the TBM 700. Consequently, during the late 1990s, sales of the type within the North American market rose dramatically.[4]

Early on, the TBM 700 was available in several different configurations and models. The introduction of the TBM 700C2, which increased the maximum takeoff weight from, enabled operators to fly with both fully laden fuel tanks and maximum cabin occupancy instead of compromising between the two due to weight restrictions. The modifications made upon this model included the addition of a baggage compartment aft of the rear pressure bulkhead, the strengthening of the wing and landing gear, and seat crashworthiness certification for up to 20 G to accommodate for an elevated stall speed at higher weights. Around the same time, SOCATA decided to re-design the interior of the aircraft, including the fittings and finish, along with the adoption of a new integrated environmental control system, to improve passenger comfort levels.[4]

The TBM 850 is the production name for the TBM 700N, an improved version of the aircraft powered by a single Pratt & Whitney PT6A-66D engine, which is flat rated at 8500NaN0. The TBM 850 is limited to 7000NaN0 for takeoff and landing; however, during cruise flight, the engine power can be increased to 8500NaN0; this extra power provides the aircraft with a higher cruising speed than the TBM 700 models, especially at high altitudes (due to the flat-rating). The outside appearance of the TBM 850 has remained similar to that of the standard TBM 700. The TBM 850 has a typical range of 1520nmi. Beginning with the 2008 model, the TBM 850 has been equipped with the Garmin G1000 integrated flight deck as standard equipment.[5]

In 2014, an improved version of the aircraft, marketed as the TBM 900 was introduced, featuring 26 individual modifications, including the adoption of in-house-designed winglets, a redesigned air intake and the fitting of a five-blade Hartzell-built propeller, with the aim of delivering improved aerodynamics and performance.[6] The adoption of a sharp strake, located forward and beneath the leading edge of the left wing, also provides for improved stall characteristics over the earlier TBM variants. According to aircraft publication Aviation Week, various subtle exterior changes were made for drag reduction purposes, including the addition of inner main landing gear doors, the re-contouring of the tail cone and of the engine nacelle.[7]

In comparison with the TBM 850, the TBM 900 is around faster in cruise flight, uses less fuel, requires less runway length, climbs faster, and produces noticeably less interior and exterior noise.[7] This is partially due to the elimination of the 7000NaN0 limitation for takeoff present on previous TBM models; all 8500NaN0 of the PT6A-66D engine is normally available. In combination with a more efficient air inlet, which boosted the available torque and ram recovery, and reshaped exhaust stacks, which increased thrust output, makes the plane faster. According to Aviation Week, due to its greater speed, the TBM 900 can more effectively compete against light jets. Aviation Week observed that it is faster on a mission, and burns 26% less fuel than the Cessna Citation Mustang.[7]

At the June 2018 Eurosatory, an ISR configuration with underwing hardpoints and electrical connections for sensors and aerial photography was offered for defense, security, medical evacuation and transport missions.Competing with heavier aircraft and MALE UAVs, it benefits from its short field performance and speed, offers six hours of surveillance and can be reconfigured for other duties.It was validated with a 110-pound (50-kg) camera and a multi-sensor optronics retractable turret, SAR/ground MTI radar, communication interception system, and secure transmission with a quick-change console for tactical situation monitoring.[8]

In March 2019, Daher introduced the $4.13 million TBM 940 with autothrottle and automatic deicing, to be certified for the April AERO Friedrichshafen.[9]

EcoPulse demonstrator

At the June 2019 Paris Air Show, Daher, Airbus and Safran teamed up to develop the TBM-based EcoPulse demonstrator for a hybrid electric aircraft.The project is kick-started by the French Civil Aviation Research Council (CORAC) with support from the French DGAC.Safran will provide the distributed hybrid propulsion system: turbogenerator, electric power management system and electric motors and propellers.Airbus will install the batteries and optimize the aerodynamics, and Daher will install components and systems, and will be responsible for the flight testing and overall analysis.[10]

With half of the €22 million ($25 million) demonstration funded by the DGAC, the maiden flight is scheduled for the summer of 2022 before a hypothetical 2025-30 certification.The aircraft's existing engine will be supplemented by six Safran electric motors on the wings fed by a APU or batteries.Similar to the NASA X-57 Maxwell, the distributed propulsion reduces wingtip vortices and add low speed lift by blowing the wing, enabling a smaller, lower drag wing.[11]

The high voltages required, over 500 volts, is a new challenge in aviation and special cables and protection were developed by Safran.After a year of testing, a follow-on commuter aircraft might be built by Daher.[12] Airbus Defence and Space is developing the lithium-ion battery to be mounted on the fuselage underside, weighting for a power of .[13] By May 2022, Daher was planning a maiden flight by the end of the year, beginning a 100 flights test programme over 18 to 24 months.[14] By May 2023, the demonstrator had flown 15 hours with the electric propellers feathered, while the hybrid-electric powertrain was to be flight tested after June 2023.[15] On 29 November, it made a first electric flight for 1h 40min from Tarbes, with its six electric motors powered by an Airbus 800-volt battery pack and a Safran turbogenerator.[16]

Design

The SOCATA TBM is a single-engined turboprop-powered low-wing monoplane, capable of seating a maximum of six people.[17] It is composed mainly of aluminium and steel construction, but with the tail surfaces built of Nomex honeycomb. The wing features a very effective Fowler flap, comprising 80 per cent of the trailing edge's span, for the purpose of lowering the aircraft's stall speed. The TBM 700 is outfitted with a retractable tricycle landing gear arrangement, newer models feature stronger main landing gear wheels and tougher tyres.[4] [2] [18] The TBM 900 model features automatic torque limiting for “set and forget” power management, which is particularly useful during takeoff; according to Aviation Week, while this function does reduce the high workload associated with managing the PT6A engine, it is not as capable as a full FADEC arrangement.[7]

The cockpit design of the TBM strives to be user-friendly and as uncomplicated to operate as possible. For pilot convenience, an automatic fuel selector automatically switches between fuel tanks periodically to effortlessly maintain fuel balance throughout flight; manual selection of fuel tanks is also possible, which remains overseen by a low fuel warning system.[4] The ice protection system is as automated as possible, the windshield being electrically heated, the air inlet being kept warm by engine exhaust and the de-ice boots automatically cycling once activated. The electrically actuated flaps are monitored by a sophisticated split-flap protection system to prevent asymmetric deployment.[4] An onboard air data computer calculates various values to support the pilot, such as the aircraft's true air speed, wind, and power advisory notices based upon current external temperature and altitude.[4]

The Pratt & Whitney Canada PT6A-64 engine, providing up to 700 shp (522 kW).[2] [18] According to Flying Magazine, the PT6A-64 engine is "the secret to the TBM 700's performance.[4] At sea level, the engine is capable of generating a maximum 15830NaN0, which is intentionally limited to 7000NaN0 on early TBM models; the limit allows the aircraft to maintain 7000NaN0 up to 25,000 ft (7,620 m) on a typical day. Engine reliability and expected lifespan are also enhanced by the limitation.[4] While the typical engine overhaul life is set as 3,000 flight hours between overhauls, on-condition servicing can also be performed due to various engine parameters being automatically recorded by the engine trend monitoring (ETM) system. Data from the ETM can be reviewed by the engine manufacturer to determine the level of wear and therefore the need for inspection or overhaul. The ETM, which is connected to the aircraft's air data computer, also provides information to enable easy power management by the pilot.[4]

The cockpit of the TBM seats a pair of flying crew. According to Flying Magazine, even in the standard configuration, the cockpit is provided with a generous suite of avionics and equipment. It features an electronic flight instrument system (EFIS), traffic collision avoidance system (TCAS), terrain awareness and warning system (TAWS), weather radar, lightning detection, dual Garmin GNS 530 navigation/communication systems, Bose headsets, dual transponders, dual compasses, and full cockpit instrumentation for both positions. Pilots can enter the cockpit either from the main cabin or via a small pilot's door on the left hand side, forward of the wing; in a cargo configuration, the pilot's door eliminates the need to clamber over the cargo payload.[4] The pilot's door is an optional extra, and is not installed upon all aircraft. From the TBM 700B onwards, an enlarged cabin entry door was introduced, which later became standard upon subsequent models.[4]

The TBM 900 model features several ergonomic improvements within the cockpit, increasing both simplicity and automation.[7] A new single power lever integrates the power, propeller and condition lever controls. Various switches and controls, such as some formerly present upon the overhead panel, have been eliminated.[7] The electrical system is powered by a single main generator, which is supplemented by a belt-driven alternator.[4] On the TBM 900, electrical load distribution changes enable the Garmin G1000 glass cockpit to power up in sync with the switch-on of the battery with little battery drain. The G1000 also has upgraded displays, including an ISA temperature deviation indication, integrated weather radar and MFD map, and automatic landing field elevation inputs to the pressurization controller.[7]

In a passenger configuration, the pressurised cabin of the TBM is typically fitted with highly finished interiors, often featuring luxury materials such as high quality leathers and wood veneers. The seats are certified for their crashworthiness for up to 20 G. From the TBM 850 onwards, a combined air conditioner/environmental control system was integrated into the cabin, being simpler and requiring less adjustment than the prior arrangement.[4] At cruise altitudes, the cabin of the TBM 900 is noticeably quieter than its predecessors; the reduction is due to the adoption of a new five-bladed propeller and the reduction of vibration levels via greater isolation between the engine and the airframe.[7] Later built models are equipped with winglets, which were developed by SOCATA primarily to reduce drag when flown at high angles of attack, such as during takeoffs, as well as to enhance the aircraft's aesthetics.[7] The TBM 900 saw the adoption of a new five-bladed propeller, specially optimised by Hartzell based upon airflow simulations conducted of the TBM's forward section. According to SOCATA, Hartzell's selection over a similar advanced counterpart from MT-Propeller was made due to the former raising the cruise speed by around 3 to 5 kn (5.5 to 9 km/h).[7]

Variants

TBM 700A
  • Initial production version with one Pratt & Whitney Canada PT6A-64 turboprop engine.
    TBM 700B
  • Variant with wide entrance door, increased maximum zero fuel weight and other improvements.
    TBM 700C1
  • Improved version with rear unpressurised cargo compartment, reinforced structure, new air conditioning system and other improvements.
    TBM 700C2
  • C1 with increased maximum takeoff weight.
    TBM 700N
  • Initial production name of the TBM 850.
    TBM 850
  • Higher-performance version fitted with a Pratt & Whitney Canada PT6A-66D engine, rated at 850 hp in flight (700 hp at take-off).
    TBM 850 G1000
  • TBM 850 with a G1000 Integrated Flight Deck and a fuel tank extension modification.
    TBM 850 Elite
  • Updated version of the TBM 850, including four cabin seats in a forward-facing configuration, allowing for an increased cargo area aft of the cabin.[19]
    TBM 900
  • Improved version of the TBM 850 with various aerodynamic refinements, including winglets and a redesigned induction system.[20] Maximum cruise speed increased to 330 kn (611 km/h) at FL310. Range of 1,730 nmi (3,204 km)—with 45-minute standard IFR reserves—at 252 kn (467 km/h) and 37 gph (140 L/h), or 1,585 nmi (2,935.42 km) at 290 kn (537 km/h).[6] The 40% larger intake frees up airflow, giving an boost for the same fuel flow and shortening the take-off roll by 20%. The previously optional Hartzell five-blade carbon fiber propeller is now standard, increasing performance and decreasing cabin noise.
    TBM 910
  • New version introduced in April 2017, with the upgraded avionics suite Garmin G1000 NXi.[21] The 910 replaced the 900 in the TBM lineup and as of June 2022 is offered alongside the new 960.[22] In 2023, its equipped price was $4.546M.
    TBM 930
  • introduced in April 2016, with upgraded interior and avionics,[23] including the Garmin G3000 touchscreen avionics suite. The TBM 930 did not replace but augmented the 900 in the TBM lineup.[24] [25]
    TBM 940
  • introduced in March 2019, with autothrottle and automatic deicing.[9] It was certified by EBACE show in May.[26] On a standard day, the TBM 940 climbs to FL280 in 17min ½, within 64nmi (119km), for a 7,600ft cabin altitude with the pressurisation, fuel flow is 59 US gallons (223 litres) per hour at maximum cruise power, reaching at ISA +13°C instead of on a standard day. In 2021, its equipped price was $4.575M.[27] The TBM 940 replaced the 930 in the lineup.
    TBM 960
  • introduced on 5 April 2022 at Sun 'n Fun in Florida, powered by a PT6E-66XT controlled by a dual-channel full authority digital engine control (FADEC) that Daher calls an EPECS (Engine and Propeller Electronic Control System)—a first for the TBM line,[28] five-Blade Hartzell Propeller Raptor, autoland function, a MTOW increase to, priced at US$ 4.57 million, 4.8 million with an optional prestige cabin.[29] The TBM 960 replaced the 940 in the TBM lineup and as of June 2022 is offered alongside the baseline TBM 910 model.[22] In 2023, its price was $4.998M.[30]

    Production

    By June 2018, the TBM fleet had logged a combined 1.6 million flight hours.[8] By July 2018, 900 aircraft had been delivered.[31] By October 2019, 954 TBMs had been built and flew 1.76 million hours, with 734 delivered in North America and 158 in Europe.[32] By July 2023, 1,155 TBM series aircraft had been produced.[33]

    Production:

    Operators

    Since its introduction, around 30 have served in commercial aviation and in October 2018, 17 were still used for the role in 10 companies, mostly in the US, among a global fleet of 900.In 2017, 57 units were shipped.Daher claims direct operating costs are $2.48 per nautical mile.[35] Owner-operators fly 90% of all TBMs, while they account for 20% to 30% of the larger Pilatus PC-12 sales.[36] The aircraft is used by both private individuals, corporations and charter and hire companies.

    Military operators

    Accidents and incidents

    The Aviation Safety Network wikibase (added by its users) reports 93 accidents and incidents between 15 November 1991 and 30 March 2024, and a total of 79 fatalities

    TBM 700 series - 60 occurrences, 64 fatalities[38]

    TBM 800 series - 20 occurrences, 9 fatalities[39]

    TBM 900 series - 13 occurrences, 6 fatalities[40]

    External links

    Notes and References

    1. News: DAHER-SOCATA Reveals New TBM 900 . 15 March 2014 . Durden . Rick . 12 March 2014 . AVweb . https://web.archive.org/web/20140316003609/http://www.avweb.com/avwebflash/news/DAHER-SOCATA-Reveals-New-TBM-900221588-1.html . 16 March 2014 . live .
    2. Simpson, Rob. "TBM 850: EADS Socata challenges the Very Light Jets". Air International, February 2006, Vol 70 No 2, pp. 28–31. /, p. 28-29.
    3. [John W. R. Taylor|Taylor, John W. R.]
    4. J. Mac . McClellan . TBM 700C2 . . April 2003 . 130 . 4 . 0015-4806 . 64–70 . 2017-02-15 . https://web.archive.org/web/20170217113620/https://books.google.com/books?id=zXLZEaGftB4C&pg=PA64 . 2017-02-17 . live .
    5. . EADS SOCATA Unveils the 2008 TBM 850 . Tarbes . . 17 January 2008 . 9 March 2008 . dead . https://web.archive.org/web/20160402112048/http://www.airbusgroup.com/int/en/news-media/press-releases/Airbus-Group/Financial_Communication/2008/01/20080117_eads_socata_unveils_2008_TBM850.html . 2 April 2016 .
    6. . DAHER-SOCATA reveals the TBM 900 very fast turboprop aircraft . https://web.archive.org/web/20140316080603/http://www.daher.com/uploads/assets/Communiques_de_presse/en/News_Release__DAHER-SOCATA_reveals_the_TBM_900.pdf . dead . 16 March 2014 . Tarbes . . 12 March 2014 .
    7. George, Fred. "Pilot Report: Daher Socata TBM 900." Aviation Week, 22 May 2014.
    8. Daher announces the development of a new TBM configuration for intelligence, surveillance and reconnaissance (ISR) missions . Daher . June 11, 2018 . June 13, 2018 . https://web.archive.org/web/20180613134051/http://www.tbm.aero/daher-announces-the-development-of-a-new-tbm-configuration-for-intelligence-surveillance-and-reconnaissance-isr-missions/ . June 13, 2018 . live .
    9. News: Daher Unveils New TBM 940 at Owners Seminar . Jerry Siebenmark . March 7, 2019 . AIN online . March 8, 2019 . https://web.archive.org/web/20190307205211/https://www.ainonline.com/aviation-news/business-aviation/2019-03-07/daher-unveils-new-tbm-940-owners-seminar . March 7, 2019 . live .
    10. Daher, Airbus and Safran team up to develop EcoPulse, a distributed hybrid propulsion aircraft demonstrator . June 17, 2019 . Daher, Airbus and Safran.
    11. News: Sustainable Aviation And Electrics Top Paris Air Show Agenda . Jun 24, 2019 . Guy Norris and Thierry Dubois . Aviation Week & Space Technology.
    12. News: Ambitious EcoPulse project must overcome significant hurdles . 26 July 2019 . Dan Thisdell . Flight international.
    13. News: Airbus explores high-voltage battery potential for non-propulsive roles . David Kaminski-Morrow . 11 March 2022 . FlightGlobal.
    14. News: Daher on track for 2022 first flight of EcoPulse demonstrator . Mark Pilling . 24 May 2022 . FlightGlobal.
    15. News: Daher Ponders Next Step Hybrid Options As Electrified Flight Tests Loom . Guy Norris . May 22, 2023 . Aviation Week & Space Technology.
    16. News: Ecopulse Distributed Propulsion Demonstrator Flies On Electric Power . Graham Warwick . December 5, 2023 . Aviation Week & Space Technology.
    17. Web site: TBM 910 . Turboprop Aircraft-DAHER TBM 960 . Daher, turboprop aircraft manufacturer - TBM 960, TBM 910, Kodiak 100 series III and support all previous models. . 2023-09-22 . www.tbm.aero . en.
    18. Jackson, Paul. Jane's All The World's Aircraft 2003–2004. Coulsdon, UK: Jane's Information Group, 2003., p. 150
    19. News: Sarsfield . Kate . Daher-Socata makes TBM 850 an Elite . 23 April 2012 . Reed Business Information . . 23 April 2012 . London . https://web.archive.org/web/20120425211536/http://www.flightglobal.com/news/articles/aero-2012-daher-socata-makes-tbm-850-an-elite-370982/ . 25 April 2012 . live .
    20. Sport Aviation. June 2014. 76. TBM900. J. Mac McClellan.
    21. News: Bertorelli. Paul. Daher Unveils The TBM 910. 5 April 2017. AVweb. 4 April 2016. https://web.archive.org/web/20170405063655/http://www.avweb.com/avwebflash/news/Daher-Unveils-the-TBM-910-228773-1.html. 5 April 2017. live.
    22. Web site: Turboprop Business Aircraft.
    23. Web site: TBM 930 Essential Guide . Daher . Oct 2017 . 2018-06-13 . https://web.archive.org/web/20180613160440/http://www.tbm.aero/wp-content/uploads/2017/10/Daher-TBM-930-Essential-Guide_2017.pdf . 2018-06-13 . live .
    24. News: Grady. Mary. Daher Adds TBM 930 To Turboprop Line. 7 April 2016. AVweb. 6 April 2016. https://web.archive.org/web/20160410050909/http://www.avweb.com/avwebflash/news/Daher-Adds-TBM-930-To-Turboprop-Line-225990-1.html. 10 April 2016. live.
    25. News: Grady. Mary. Update: TBM 930 Now On Display At Sun 'n Fun. 8 April 2016. AVweb. 7 April 2016. https://web.archive.org/web/20160410104802/http://www.avweb.com/avwebflash/news/Update-TBM-930-Now-On-Display-At-Sun-n-Fun-226013-1.html. 10 April 2016. live.
    26. News: EASA awards certification to TBM 940 . 20 May 2019 . Kate Sarsfield . Flightglobal . 20 May 2019 . https://web.archive.org/web/20190520143807/https://www.flightglobal.com/news/articles/easa-awards-certification-to-tbm-940-458299/ . 20 May 2019 . live .
    27. News: Purchase planning handbook - turboprops table . Second Quarter 2021 . Business & Commercial Aircraft.
    28. Web site: 2022-01-06 . TBM 960 takes off . 2022-11-13 . www.aopa.org.
    29. News: Trautvetter . Chad . April 5, 2002 . Daher Launches Upgraded TBM 960 at Florida Airshow . live . https://www.ainonline.com/aviation-news/business-aviation/2022-04-05/daher-launches-upgraded-tbm-960-florida-airshow . Apr 5, 2022 . AINOnline.
    30. News: Purchase planning handbook - turboprops table . Second Quarter 2023. Business & Commercial Aviation.
    31. 900 deliveries and going strong: A new program achievement for Daher's TBM very fast turboprop aircraft family . Daher . July 23, 2018 . July 24, 2018 . https://web.archive.org/web/20180724183711/http://www.tbm.aero/900-deliveries-and-going-strong-a-new-program-achievement-for-dahers-tbm-very-fast-turboprop-aircraft-family/ . July 24, 2018 . live .
    32. News: Daher Starts Countdown to the First '1K' . Oct 23, 2019 . Aviation Week Network.
    33. Web site: Daher Delivers 80th TBM 960. 26 July 2023. O'Connor. Kate. AVweb. 26 July 2023. https://archive.today/20230726124447/https://www.avweb.com/aviation-news/daher-delivers-80th-tbm-960/. 26 July 2023. live.
    34. https://www.ainonline.com/aviation-news/business-aviation/2024-01-05/daher-delivers-milestone-100th-tbm-960-aircraft
    35. News: NBAA: Daher looks to dispel single-engine scepticism . 16 Oct 2018 . Kate Sarsfield . Flightglobal . 16 October 2018 . https://web.archive.org/web/20181017001706/https://www.flightglobal.com/news/articles/nbaa-daher-looks-to-dispel-single-engine-scepticism-452737/ . 17 October 2018 . live .
    36. News: FLIGHT TEST: Daher TBM 940 . 15 Oct 2019 . Mike Gerzanics . Flightglobal .
    37. News: World Air Forces Directory 2017 . Craig Hoyle . . 2016 . 2017-02-15 . https://web.archive.org/web/20170731231249/https://www.flightglobal.com/asset/14484 . 2017-07-31 . live .
    38. https://aviation-safety.net/asndb/type/TBM7
    39. https://aviation-safety.net/asndb/type/TBM8
    40. https://aviation-safety.net/asndb/type/TBM9