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Type rating

A type rating is a endorsement added to a pilot's that authorizes the holder to operate a specific make and model of , particularly those with complex systems, high performance, or multi-crew operations that exceed the scope of a standard . It ensures pilots possess the necessary knowledge, skills, and proficiency for the unique handling, systems, and procedures of that type, as required by international standards under the (ICAO) Annex 1 for flight crew . Type ratings are mandatory for such as large transport category airplanes, turbojet-powered planes, powered-lift , or those specified by authorities, preventing unqualified operation of sophisticated machinery. In the United States, the (FAA) mandates type ratings under 14 CFR § 61.31 for pilots acting as of (except lighter-than-air, more than 12,500 pounds maximum certificated takeoff weight), turbojet-powered airplanes, powered-lift aircraft, or other aircraft designated through notices. As of 2024, updates to Airman Certification Standards (ACS) have revised practical test procedures for type ratings, incorporating the new powered-lift category. Type ratings are aircraft-specific, such as for the or , and must be renewed periodically through recurrent training and proficiency checks to maintain currency. Detailed requirements are outlined in the certification process and U.S. regulatory framework. Under the (EASA), a type rating is defined in Part-FCL as an authorization for a "type of ," categorized based on operational suitability data (OSD) that evaluates handling qualities, systems, and performance, excluding minor variants that may only need differences . As of December 2024, updates include requirements for type ratings on manned with vertical take-off and landing (VTOL) capability. It applies to multi-pilot or single-pilot operations on complex like the Airbus A320. EASA type ratings are issued upon successful completion and entered into the pilot's , with validity tied to the underlying and subject to biennial renewals or revalidations via checks or recent flight experience. Further details are in the EASA regulatory framework. Globally, type ratings standardize pilot competency for safety in commercial and , often developed through manufacturer-led programs like the Pilot Qualification Program (PQP) in collaboration with regulators. They distinguish from class ratings, which cover broader categories like single-engine land airplanes, by focusing on model-specific nuances such as , emergency procedures, and . Obtaining a type rating typically costs thousands of dollars and several weeks of intensive training, serving as a career milestone for pilots advancing to or corporate operations.

Fundamentals

Definition and Scope

A type rating is an entered on or associated with a pilot's , forming part thereof and specifying the pilot's privileges or limitations to operate particular types. It qualifies a pilot to act as or, where applicable, as a crew member for requiring specialized and skills beyond those covered by general license categories. This endorsement ensures that pilots meet the necessary competencies for safe operation, including handling unique , characteristics, and operational procedures. The scope of type ratings primarily encompasses complex, high-performance, or multi-crew , such as those certificated for a minimum of at least two pilots, certain helicopters or powered-lifts certificated for single-pilot , and other as designated by the licensing authority. These ratings apply to aircraft types or groups of variants sharing similar operating procedures, systems, and characteristics, including normal, abnormal, emergency, and instrument operations, as well as . Type ratings extend beyond basic class ratings, which authorize within broader aircraft categories like single-engine aeroplanes. Type ratings are endorsed on the pilot's as a distinct or integrated entry, often following completion of approved and a skill test, and may include limitations such as "co-pilot only" or restrictions to specific phases of flight. This process verifies the pilot's proficiency in the aircraft's unique features, thereby enhancing safety by addressing the distinct challenges posed by advanced , propulsion systems, and aerodynamic behaviors not adequately covered by general licensing.

Distinction from Class Ratings

Class ratings authorize pilots to operate broad categories of sharing similar handling and performance characteristics within a given category, such as single-engine aeroplanes or multi-engine helicopters. These ratings are endorsements on a pilot certificate that enable operation of multiple models without aircraft-specific training, provided they fall within the defined class parameters. In contrast, type ratings apply to specific makes and basic models of aircraft—or variants with modifications that do not alter core handling traits—requiring dedicated training due to their advanced complexity. Under international standards, type ratings are required for multi-crew operations, certain complex single-pilot aircraft, or as specified by national authorities; for example, in the United States, they are mandatory under FAA regulations for large or turbojet-powered aircraft exceeding 12,500 pounds maximum certificated takeoff weight (except lighter-than-air), powered-lift aircraft, or other designated models. While class ratings cover simpler, general aviation aircraft within a category, type ratings address the unique systems, procedures, and limitations of sophisticated models, ensuring pilots receive targeted proficiency. There is notable overlap and transition between the two: a pilot with a multi-engine class rating may operate various twins like the Piper Seneca, but advancing to a commercial jet such as the necessitates adding a type rating for that specific to the existing class privileges. This progression highlights how type ratings serve as specialized add-ons rather than standalone authorizations. Type ratings thus build upon foundational category and class ratings without supplanting them, directly influencing a pilot's operational scope by granting access to high-performance while maintaining the broader framework of pilot certification. This layered structure ensures safety by matching training levels to aircraft demands, with type-rated privileges limited to the endorsed models.

History

Origins in Aviation Regulation

The emergence of type ratings for pilots in aviation regulation can be traced to the rapid expansion of in the 1920s following , when increasingly complex multi-engine aircraft entered service, necessitating standardized qualifications beyond basic pilot licensing. The Air Commerce Act of 1926, signed into law on May 20, established the U.S. Department of Commerce's Aeronautics Branch to oversee , mandating private or commercial pilot licenses for operators of licensed aircraft while classifying commercial pilots as either transport or industrial to address the growing demands of air commerce. This framework laid the initial groundwork for differentiating pilot qualifications based on operational complexity, though it did not yet specify aircraft types. Internationally, the 1919 Paris Convention on Aerial Navigation provided early context by requiring certificates of competency and licenses for pilots, to be issued or validated by the state of the aircraft's nationality, with Annex E outlining minimum conditions for pilot and navigator licenses focused on general knowledge and physical fitness rather than aircraft-specific endorsements. By the late and into , high accident rates—exacerbated by pilots operating unfamiliar or more advanced types—underscored the need for specialized qualifications, prompting U.S. regulators to introduce restrictions tied to specific . On September 1, 1929, under the Air Commerce Regulations, transport pilots were limited to operating only the types explicitly listed on their licenses, marking an early precursor to formal type ratings amid a surge in commercial operations and incidents involving multi-engine planes. The Bureau of Air Commerce, renamed from the Branch in 1934, further advanced these efforts by expanding certification to include enterprises and emphasizing amid preventable accidents driven by inadequate familiarity with complex designs. The Civil Act of 1938, effective June 23, formalized the Civil Authority (predecessor to the FAA) and empowered it to issue certificates specifying privileges and limitations, with Civil Air Regulations (CAR) Part 20—effective November 1, 1937, and amended in 1940—requiring pilot certificates to denote general ratings alongside -specific details such as type, , and classification, alongside special ratings like or instructor. During , military aviation formalized type-specific qualifications as pilots progressed from primary training on low-horsepower trainers to advanced instruction on heavier, more complex aircraft, culminating in assignments to particular types like fighters or bombers, which required demonstrated proficiency in those platforms. This structured approach to aircraft-specific training influenced post-war civilian regulations, as surplus military pilots transitioned to commercial roles, receiving credit for their experience under frameworks like the 1945 adjustments to flying hour minimums and the introduction of requirements for large aircraft on international routes, bridging military precision to civilian standardization.

Key Developments and Milestones

The , signed on December 7, 1944, by 52 states in , established the (ICAO) as a specialized of the , effective April 4, 1947, after ratification by 26 states. This foundational treaty promoted uniform standards for international , including pilot licensing, through ICAO Annexes. Annex 1—Personnel Licensing, first adopted by the ICAO Council on April 14, 1948, and effective September 15, 1948, outlined (SARPs) for flight crew licenses and ratings, initially focusing on basic categories but evolving to incorporate type-specific qualifications by the as post-war complexity increased. Early amendments, such as those in the , addressed endorsements for specific aircraft types to ensure pilots demonstrated competence in handling advanced designs, influencing global harmonization of type rating provisions. In the 1960s and 1970s, the U.S. (FAA) expanded regulations under (FAR) Part 61 to address the rapid growth of the and safety lessons from high-profile incidents. On December 16, 1965, the FAA issued a rule requiring type ratings for pilots operating exceeding 12,500 pounds or any turbojet-powered aircraft, with compliance mandated by March 31, 1966, directly responding to the complexities of turbine engines and the need for specialized training highlighted by the 1954 disasters, which involved metal fatigue failures and prompted broader scrutiny of jet pilot qualifications. Further enhancements in 1974 under FAR Part 61 introduced biennial flight reviews for pilots, elevated requirements for instructors, and integrated simulator time allowances into certification, reinforcing type rating mandates for turbojet operations amid rising commercial jet traffic. These changes under Part 61, codified from earlier Civil Air Regulations, marked a shift toward rigorous, type-specific oversight to mitigate risks in high-performance aircraft. During the 1980s, European aviation regulation advanced through the Joint Aviation Authorities (JAA), originally formed in 1970 as the Joint Airworthiness Authorities but significantly expanded in scope by the mid-1980s to harmonize licensing across member states amid the rise of wide-body jets from Airbus and Boeing. The JAA's development of Joint Aviation Requirements—Flight Crew Licensing (JAR-FCL) in the late 1980s culminated in its initial issuance on July 1, 1999, standardizing type ratings for multi-crew operations, including mandatory crew resource management training and simulator-based assessments for complex aircraft. This framework addressed variations in national rules, ensuring consistent qualifications for pilots operating dominant models like the Boeing 747 and Airbus A300, and laid groundwork for integrated European standards that improved safety in international multi-crew environments. The 2000s and 2010s saw global type rating systems evolve in response to security imperatives and technological advancements in . Following the , 2001, terrorist attacks, the U.S. Aviation and Transportation Security Act of 2001 established the (TSA) and imposed enhanced security protocols for pilot , including mandatory background checks and approvals under the Alien Flight Student Program, which indirectly tightened access to type rating courses for non-U.S. citizens to prevent unauthorized aircraft operation . In , the FAA revised practical test standards for Airline Transport Pilot (ATP) certificates and type ratings under 14 CFR Parts 61 and 121, mandating advanced simulator-based evaluations and competency demonstrations for air carrier pilots, as outlined in the Pilot and Qualification Requirements for Air Carrier Operations rule, to elevate standards post-Colgan Air Flight 3407 crash in 2009. Into the 2020s, ICAO has prioritized competency-based and assessment (CBTA) through Annex 1 amendments, notably Amendment 171 effective , , which integrated CBTA principles into licensing SARPs, including type ratings, shifting focus from flight hours to observable performance outcomes; further reinforced by Amendment 179 in 2024 promoting evidence-based assessments and electronic licensing to adapt to modern .

Certification Process

Prerequisites for Type Rating

To obtain a type rating, pilots must first meet foundational eligibility criteria established by international standards and national aviation authorities, ensuring they possess the necessary qualifications for safe operation of complex aircraft. These prerequisites typically include holding a valid Commercial Pilot License (CPL) or Airline Transport Pilot License (ATPL) in the appropriate aircraft category, such as aeroplane or , as a baseline for pursuing type-specific training. Additionally, applicants must possess a current , which verifies physical and mental fitness for commercial operations, including requirements for (at least 6/9 per eye, correctable to 6/6 binocular) and hearing standards (no more than 35 dB loss at 500, 1,000, and 2,000 Hz). The minimum age is generally 18 years for CPL issuance, though ATPL requires 21 years, aligning with the maturity needed for advanced certifications. Flight experience forms a critical gateway, with requirements scaling by license level and aircraft complexity; for instance, CPL holders often need at least 100 hours as pilot-in-command (PIC), while ATPL applicants must demonstrate 1,500 total flight hours, including 500 in multi-pilot operations for aeroplanes. Specific endorsements, such as a multi-engine rating or (IR), serve as prerequisites for type ratings on multi-engine or IFR-capable , ensuring proficiency in relevant systems before type-specific instruction begins. is mandatory, with ICAO Level 4 or higher in English required for effective radiotelephony communication and interactions, assessed through standardized tests. Security considerations, including checks, may apply in jurisdictions enforcing enhanced vetting for pilots operating high-capacity or flights, though these are integrated into the overall licensing process. Variations exist by aircraft type: for example, or (over 12,500 pounds MTOW) often necessitate prior for IFR operations, while multi-crew airliners require foundational multi-crew cooperation () awareness to address principles. These eligibility thresholds ensure pilots enter type rating training with the core competencies to build upon, though subsequent training details are outlined separately.

Training and Examination Requirements

The training for a type rating commences with ground school instruction, focusing on in-depth coverage of the aircraft's technical systems, aerodynamic performance, weight and balance calculations, operational limitations, and procedures. This phase typically encompasses 25 to 50 hours of structured or interactive training, often divided into segments on general operations, detailed systems integration, and abnormal/ scenarios, culminating in segment-specific assessments and a comprehensive final . Subsequent flight training occurs predominantly in approved full-flight simulators to replicate real-world conditions safely, emphasizing proficiency in normal procedures, abnormal situations (such as system malfunctions), and emergency responses like engine-out operations or rapid depressurization. For multi-engine turbine-powered , this involves 25 to 75 hours of simulator sessions across multiple lessons, tailored to the type's complexity, with pilots practicing critical maneuvers including rejected takeoffs, approaches, and go-arounds. Actual flight time, if mandated for base training, generally requires 5 to 10 hours to transition simulator skills to the real environment. The examination process integrates a written knowledge test to verify mastery of theoretical elements, such as regulations, , and aircraft-specific performance data, which must be passed prior to advancing. This is followed by an oral examination probing and , and a practical checkride in a simulator or aircraft, where the examiner evaluates the pilot's execution of required tasks, including preflight preparation, enroute operations, and postflight analysis, ensuring compliance with standards like those in the Airline Transport Pilot Airman Certification Standards. Maintenance of the type rating demands recurrent and proficiency conducted every 6 to 12 months, typically involving 4 to 8 hours of simulator time to reaffirm skills in core operations and any updated procedures. For pilots transitioning to closely related variants, such as from the to the 767, regulators permit abbreviated differences —often 10 to 20 hours of targeted ground and simulator instruction—rather than a complete initial course, to address model-specific variances efficiently.

Regulatory Frameworks

International Standards (ICAO)

The (ICAO) establishes global standards for type ratings through Annex 1 to the , known as Personnel Licensing, which serves as the baseline for pilot competency requirements worldwide. According to Annex 1, Chapter 2, a type rating is required for aeroplanes certificated for a minimum crew of at least two pilots, or for aeroplanes having a maximum take-off mass (MTOM) over 5,700 kg, or for aeroplanes. This provision ensures that pilots demonstrate specific knowledge and skills for operating complex aircraft, emphasizing competency-based training that integrates theoretical knowledge, practical , and assessments in simulators or actual aircraft to verify safe operation under normal, abnormal, and emergency conditions. ICAO further standardizes type rating through Procedures for Air Navigation Services—Training (PANS-TRG), Document 9868, which outlines guidelines for multi-crew cooperation () and evidence-based (EBT). , detailed in Chapter 2, focuses on developing competencies for multi-crew operations during the advanced phase of type rating programs, including and coordinated procedures in turbine-powered aircraft. EBT, introduced via Amendment 2 in 2013 and expanded in subsequent updates through 2023, shifts recurrent and type rating toward data-driven assessments of pilot performance, using real-world incident analysis to prioritize threats and errors over fixed-hour syllabi. The third edition of Doc 9868, effective November 2020, incorporates these elements to enhance safety in commercial air transport. As of 2025, ongoing amendments to Annex 1 include provisions for flight path management and automated systems in type rating . ICAO promotes harmonization of type ratings across its 193 member states by facilitating mutual recognition of licenses and ratings issued in compliance with Annex 1 standards, supported by the Universal Safety Oversight Audit Programme (USOAP). USOAP conducts continuous monitoring audits to evaluate states' implementation of safety oversight, including personnel licensing, identifying gaps in type rating issuance and to ensure consistent global application. This oversight mechanism, ongoing since , helps states align their regulations, enabling reciprocal acceptance of type ratings for international operations without redundant training. In the 2020s, ICAO has intensified focus on integrating upset prevention and recovery training (UPRT) into type rating syllabi to address loss-of-control incidents, as guided by Manual on Aeroplane Upset Prevention and Recovery Training (Doc 10011, first edition 2014) and amendments to Annex 1. UPRT requirements, mandated for multi-pilot type ratings since Amendment 173 in 2013, emphasize academic instruction, simulator-based scenarios, and on-aircraft elements using high-fidelity devices to build competencies in aerodynamics and recovery techniques specific to aircraft types. Recent updates, including those in Doc 9868's 2020 edition, reinforce UPRT within competency-based frameworks to prevent negative training and improve pilot resilience in high-risk maneuvers.

United States (FAA)

In the , the (FAA) mandates type ratings for specific under 14 CFR Part 61, § 61.31, to ensure pilots possess the specialized knowledge and skills required for complex operations. A type rating is required for any person acting as of (except lighter-than-air) with a maximum certificated takeoff weight of more than 12,500 pounds, turbojet-powered airplanes, powered-lift , or other designated by the FAA Administrator through or issuance. The FAA publishes designations for these via its Aircraft Registry, which specifies type ratings for models exhibiting significant operational complexities, such as advanced or systems integrations beyond basic weight and powerplant criteria. This framework prioritizes safety by restricting operations without certification, with temporary authorizations limited to 60 days for non-passenger ferry, , or test flights under strict conditions. As of November 2024, amendments to Part 61 integrate powered-lift into type rating requirements, aligning with emerging vertical takeoff technologies. The certification process for an initial type rating requires completion of an approved training program, including a minimum of 15 hours in a qualified simulator or device, followed by a practical test administered by an FAA inspector or designated pilot examiner. Airline transport pilot (ATP) certificate holders must obtain and maintain type ratings for aircraft used in Part 121 air carrier operations, where the rating is added to the certificate upon successful demonstration of proficiency in aircraft-specific procedures, emergency handling, and . emphasizes multi-crew coordination and high-altitude performance, particularly for and large aircraft. Recurrent training for type-rated pilots is required every 24 calendar months to retain privileges, encompassing ground , simulator sessions, and proficiency checks tailored to the aircraft type. For aircraft sharing a common type rating group—such as the CE-500 series encompassing Models 500, 501, 550, and variants—abbreviated differences training or familiarization programs suffice for transitions between similar models, reducing redundancy while ensuring competency in variant-specific features like engine upgrades or differences. A distinctive feature of the FAA's system is the integration of type rating preparation with the ATP Certification Training Program (ATP-CTP), implemented in 2014 as a prerequisite for ATP issuance. This 30-hour ground school and 10-hour multiengine simulator course focuses on airline-oriented topics, including , , and , often aligning with type-specific training for multiengine or concurrent type rating applicants to streamline entry into roles.

Canada (Transport Canada)

In Canada, administers type ratings under the Canadian Aviation Regulations (CARs), specifically Division XI of Part IV, which mandates endorsements on flight crew permits and licences for pilots operating aircraft beyond basic class ratings. These ratings ensure competency in handling complex aircraft types, aligning with operational in diverse Canadian environments, including remote and northern regions. Type ratings are required for multi-engine aeroplanes that necessitate two pilots, all turbo-propeller and turbojet-powered , and high-performance single-engine (defined as those equipped with engines exceeding 200 horsepower or featuring turbo/supercharging). While no strict weight threshold like 8,618 kg defines all requirements, individual type ratings apply to not covered by blanket class ratings, such as single-engine or multi-engine , with designations integrated into Groups 1 through 4 based on complexity and certification standards. Examples include the series for jets and the Dash 8 for turboprops, as listed in the Aircraft Type Designator Table. Training for a type rating involves prerequisite , such as 250 hours of total for two-crew aeroplanes or 200 hours for high-performance types, followed by approved ground school, flight instruction, and simulator sessions tailored to the aircraft. Programs typically require a minimum of 10 to 20 hours of supervised plus up to 40 hours of simulator training for proficiency demonstration, conducted under an or authorized examiner. The process culminates in a pilot proficiency check (PPC) assessing knowledge, maneuvers, and emergency procedures, often using flight training devices for efficiency. Renewal of type ratings occurs through biennial flight reviews or recurrent PPCs, with intervals of 12 months for operations or 24 months for , including refresher training to maintain skills. Special provisions support operations in remote areas, allowing flexible training locations and exemptions for single-pilot IFR in certain low-level airspace under Subpart 703. Unique to Canadian regulations, type rating training emphasizes cold-weather and for northern fleets, incorporating de-icing/anti-icing procedures, holdover time guidelines, and simulator scenarios for low-temperature operations, as updated in amendments and TP 14052 during the 2020s to address regional hazards.

EASA States (European Union)

In the European Union, the (EASA) establishes a harmonized framework for type ratings under Part-FCL of Regulation (EU) No 1178/2011, ensuring consistency across member states while building on (ICAO) Annex 1 standards. This approach mandates type ratings for pilots operating complex , specifically aeroplanes certificated for multi-pilot operations, with a maximum take-off mass (MTOM) exceeding 5,700 kg, or approved for more than nine passengers (excluding crew seats), as well as those certified under CS-25 for large aeroplanes. For helicopters, requirements apply to those with an MTOM over 3,175 kg, more than nine passengers, or multi-pilot certification. Part-FCL.710 further addresses variants, allowing grouping of similar aircraft models or types under a single rating if they share comparable handling, systems, and performance characteristics, as determined by operational suitability data, with differences training required for notable variations. As of December 2024, updates to the Easy Access Rules introduce type rating requirements for manned with vertical take-off and landing () capabilities. Type rating training occurs at approved training organizations (ATOs), declared training organizations (DTOs), or air operator certificate (AOC) holders, comprising theoretical knowledge instruction and practical flight training, predominantly in full-flight simulators (FFS) qualified to at least Level C or D. Courses may follow a modular structure, allowing phased completion, or an integrated format for streamlined progression, typically ranging from 40 to 200 hours depending on the aircraft type, pilot experience, and whether it includes multi-crew cooperation elements; for instance, multi-pilot aeroplane type ratings often emphasize crew resource management and threat/error management in simulator sessions. Since the implementation of Part-FCL in 2012, zero-flight-time training (ZFTT) has been permitted for eligible multi-pilot aeroplane courses, enabling completion entirely in simulators for pilots meeting experience thresholds, such as 1,500 flight hours or 250 sectors on the aircraft group, to reduce costs and environmental impact without compromising safety. Type ratings remain valid for 12 months, except single-pilot single-engine ratings, which extend to 24 months. Revalidation requires a proficiency check within three months prior to expiry, or alternative recent experience such as six hours of pilot-in-command time under including one training flight; for pilots under AOC operations, an proficiency check (OPC) integrates type-specific maneuvers, procedures, and operator-standard assessments to maintain privileges. In 2023, EASA updated its framework through the Evidence-Based (EBT) (Version 2.0), incorporating competency-based elements into recurrent training and revalidation for multi-pilot operations, focusing on data-driven scenarios over fixed maneuvers to enhance pilot performance. Additionally, amendments to drone regulations (EU 2019/947) extended type rating concepts to remotely piloted (RPAS) in the specific category, requiring type-specific training for certified unmanned aerial vehicles (UAVs) exceeding certain mass or risk thresholds, aligning with .

Aircraft Requiring Type Ratings

Criteria for Designation

The designation of aircraft requiring a type rating is determined by regulatory criteria focused on size, performance, and operational complexity, ensuring pilots receive specialized training for beyond basic class ratings. Performance thresholds vary by jurisdiction, such as maximum takeoff weights (MTOW) exceeding 12,500 pounds (~5,670 kg) for under FAA regulations or 5,700 kg under EASA, while powerplants trigger requirements due to their integration and safety implications. Under ICAO Annex 1, states determine type rating requirements, typically for necessitating multi-pilot crews or deemed complex by national authorities, harmonized across jurisdictions. In practice, these include all turbojet-powered aeroplanes, over 12,500 pounds MTOW (FAA) or 5,700 kg MTOW (EASA), powered-lift designs, and those requiring at least two pilots (e.g., EASA for >9 passengers). Grouping mechanisms allow similar variants of an type—such as minor aerodynamic or differences—to share a single type rating, supplemented by abbreviated differences training to address unique aspects without full recertification. This approach, applied to families like multi-engine turboprops or regional jets, streamlines pilot qualification while maintaining safety through targeted instruction on variant-specific procedures. In the 2020s, evolving criteria have incorporated novel propulsion systems, with electric and hybrid-electric designated for type ratings due to their unique , systems, and flight characteristics, as seen in certifications for fully electric designs.

Examples by Aircraft Category

In the category, large jet airliners such as the and Airbus A320 require type ratings due to their propulsion and maximum takeoff weights exceeding 12,500 pounds, necessitating specialized training for multi-crew operations. These are certified under FAA designations B-777 and A-320, respectively, and are similarly listed in EASA's aeroplane type rating endorsements. Business jets exemplify high-performance aircraft with complex and systems that mandate type ratings, including the (FAA designation CE-750) and Gulfstream G650 (GVI), both turbojet-powered models used for executive transport. These jets exceed the thresholds for type rating requirements under both FAA and EASA regulations due to their speed, weight, and advanced automation. For helicopters, turbine-powered models designed for demanding roles like offshore operations require type ratings, such as the (FAA SK-92) and EC225 (formerly Eurocopter). The 's certification includes specific type rating training for its multi-role capabilities, while the EC225 demands a multi-pilot type rating for its heavy-lift performance in environments. Emerging aircraft types in , such as the S4 (model JAS4-1), are undergoing FAA type under special class powered-lift airworthiness criteria, which will impose type rating requirements upon approval. As of November 2025, Joby has initiated power-on testing of FAA-conforming prototypes for Type Inspection Authorization, marking progress toward operational expected in the late 2020s. In contrast, simpler aircraft like the , a single-engine with a under 12,500 pounds, operate under a single-engine land without needing a type rating. This distinction highlights how basic aircraft avoid the specialized endorsements required for more complex types.

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