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Supplemental type certificate

A supplemental type certificate (STC) is a type certificate issued by the (FAA) when an applicant receives approval to modify an aeronautical product, such as an , , or , from its original type design. It consists of the FAA's approval of the design change. STCs are required for major alterations that could affect the product's airworthiness, ensuring compliance with applicable regulations under Title 14 of the (14 CFR) Part 21. The primary purpose of an STC is to validate that the modified product remains safe and meets FAA airworthiness standards, distinguishing it from minor changes handled via other approvals like field approvals or 337 forms. This certification process supports innovation in by allowing enhancements such as upgrades, interior modifications, or performance improvements without requiring a full new . Once issued, an STC holder can obtain approvals for installation on specific , enabling broader adoption of the modification across the fleet. STCs play a critical role in the aviation industry by facilitating safety-critical upgrades, such as systems or enhancements, while maintaining regulatory oversight. They are governed by 49 U.S.C. § 44704, which authorizes the FAA to issue such certificates for changes to type designs. Internationally, similar approvals exist under bodies like the (EASA), often through bilateral agreements for reciprocal validation.

Definition and Purpose

Overview

A supplemental type certificate (STC) is an approval issued by a , such as the (FAA) in the United States, for major modifications to an existing aeronautical product that already holds a (TC). It consists of the FAA's approval of the design change and an updated type certificate data sheet that incorporates the modification while referencing the original TC. This certification ensures that the altered , engine, propeller, or appliance remains airworthy and compliant with applicable airworthiness standards. The core purpose of an STC is to authorize significant alterations to the original type design—such as changes affecting weight, balance, structural integrity, reliability, performance, or operational characteristics—without necessitating a complete new type process. By approving these modifications through an STC, authorities streamline for enhancements that improve , , or functionality, while maintaining oversight to prevent compromises to the product's overall airworthiness. This approach allows manufacturers, operators, and modifiers to adapt certified products to evolving needs, such as technological upgrades or regulatory updates, in a controlled manner. STCs apply exclusively to aeronautical products that possess an existing , distinguishing major design changes—which require formal STC approval—from minor alterations that can be handled through field approvals, maintenance manual procedures, or other simplified authorizations by certified mechanics. qualifying for an STC typically include structural modifications like alterations to wings or fuselages that impact aerodynamic or load-bearing properties, propulsion system replacements such as swaps, and upgrades that integrate new systems affecting flight controls or navigation. These examples illustrate how STCs address alterations substantial enough to warrant rigorous , testing, and authority review to verify continued compliance with basis.

Comparison to Original Type Certificate

A (TC) is issued by the (FAA) for an entirely new aircraft design, certifying that the type design meets applicable airworthiness standards and is eligible for standard airworthiness certificates. This process involves comprehensive testing and documentation, encompassing prototype development, , structural analysis, and production conformity inspections to establish initial airworthiness from the ground up. In contrast, a supplemental type certificate (STC) builds upon an existing by approving targeted major modifications to the certified product, such as alterations to , systems, or , without requiring a full redesign or re-certification of the base aircraft. Key differences include the streamlined scope of the STC process, which leverages the original 's established certification basis and focuses only on demonstrating that the modification does not adversely affect the aircraft's overall airworthiness, typically resulting in shorter timelines—often months rather than years—and lower costs compared to the extensive resources needed for a new . However, STCs still mandate rigorous substantiation through testing, analysis, and inspections specific to the change, ensuring compliance with relevant regulations. The implications of this distinction lie in responsibility allocation: the original TC holder maintains primary accountability for the base type , including ongoing airworthiness , while the STC holder assumes responsibility for the modification's , installation instructions, and with the existing , without altering the core TC obligations. Legally, are governed by 14 CFR § 21.21, which outlines issuance for new designs, whereas STCs, under 14 CFR § 21.113, address major changes, including those by applicants other than the original TC holder (who may instead amend the TC).

Historical Development

Origins in U.S. Aviation Regulation

The roots of supplemental type certificates (STCs) in U.S. aviation regulation trace back to the Air Commerce Act of 1926, which established the federal government's initial oversight of civil aviation by creating the Aeronautics Branch within the Department of Commerce. This legislation mandated airworthiness certificates for aircraft and introduced the concept of type certification for new designs to ensure safety standards, with the first type certificate issued in 1927 to the Buhl Airster C-A3. However, the Act focused primarily on original aircraft designs and pilots, lacking specific provisions for approving major post-certification changes or alterations to existing type-certificated products. Following , the U.S. industry experienced rapid growth, driven in part by the conversion of surplus for civilian use, which often required significant modifications such as engine swaps, structural reinforcements, or reconfiguration for commercial operations. These conversions highlighted gaps in the existing regulatory framework, as many surplus did not conform to civilian s under the Civil Air Regulations (CAR), necessitating ad hoc approvals that risked safety inconsistencies. Prior to formal STC processes, supplemental approvals under CARs addressed some major changes, but the demand for standardized processes to safely upgrade these underscored the need for a dedicated approval mechanism beyond the original 1927 type certificate system. The marked a pivotal advancement by creating the Federal Aviation Agency (FAA, later Administration) and consolidating aviation regulation under a single entity, formalizing certification processes amid the expanding needs for aircraft modifications in the post-WWII era. This Act repealed the 1926 Air Commerce Act and emphasized enhanced safety oversight, laying the groundwork for addressing major design changes through supplemental approvals. Part 21 of the , introduced in 1962 and codified effective October 24, 1964, formalized certification procedures for products and articles, including Subpart E specifically for STCs. This regulation enabled applicants other than the original holder—such as third-party modifiers—to propose and obtain approval for major alterations, directly addressing the limitations of the pre-existing system by ensuring compliance with applicable airworthiness standards for modified designs.

Key Milestones and Evolution

The formal issuance of the first supplemental type certificate (STC) by the (FAA) established a structured process for approving major modifications to existing type-certified , engines, or propellers, marking the transition from ad hoc approvals under earlier Civil Aeronautics Administration practices to a dedicated certification pathway under 14 CFR Part 21, enabling safer and more standardized integration of design changes. In the and , STC practices expanded through the development of bilateral agreements with foreign authorities, facilitating international validation and reciprocal acceptance of modifications. For instance, subsequent pacts with nations streamlined cross-border approvals, reducing redundancy for global operators. This period also saw increased demand for STCs following the 1978 , which spurred competitive fleet optimizations and route adjustments, prompting airlines to pursue efficiency-enhancing modifications like interior reconfiguration and propulsion upgrades. The and 2000s brought reforms to enhance STC efficiency, including greater reliance on Designated Engineering Representatives (DERs) for delegated technical approvals and updates to 14 CFR Part 21. DER authorizations, building on their establishment in 1940, were expanded in the to cover more complex evaluations, allowing experts to approve compliance data on behalf of the FAA and accelerating processing times. Key amendments, such as the 2000 revision to procedures for changed products, simplified requirements for small under Subpart D, emphasizing risk-based classifications and reducing administrative burdens for minor yet significant alterations. Additionally, 21-37 from 1994 provided tailored guidance for primary small certifications, promoting innovation in . From the to the , STC evolution has emphasized digital tools and sustainability-focused modifications, with the FAA adopting electronic data acceptance processes to modernize approvals. 20-153B issued April 19, 2016, outlined criteria for accepting digital aeronautical data packages, enabling faster submission and review of compliance evidence. A prominent example is the 2014 FAA approval of the Split Scimitar Winglet STC by Aviation Partners for Boeing 737-800 aircraft, which improved by up to 5% through advanced , reflecting a shift toward environmentally sustainable retrofits. In 2024, the Department of Transportation's Office of Inspector General initiated an of FAA STC issuance practices to assess consistency across regions and offices, underscoring ongoing efforts to refine procedural uniformity amid rising modification volumes.

Obtaining an STC

Application and Planning

The process of obtaining a Supplemental Type Certificate (STC) commences with thorough application planning to ensure compliance with (FAA) requirements for major type design changes. Eligibility for an STC application is open to any person or entity, including applicants who do not hold the original (TC), provided the proposed modification qualifies as a major change under 14 CFR § 21.113. In the pre-application phase, applicants must develop a detailed plan serving as a roadmap for the project, which includes a description of the proposed modification, methods for demonstrating with applicable airworthiness regulations, of the affected and its data sheet, project schedule, and provisions for continued airworthiness. Early consultation with the responsible FAA Certification Office (ACO) is essential to obtain process orientation, discuss project feasibility, and conduct a familiarization briefing on the . Key required documents for submission encompass Instructions for Continued Airworthiness (ICA) detailing maintenance and operational instructions for the modified product, descriptive data such as drawings and specifications of the alteration, evidence that the modification does not create unsafe conditions or adversely affect flight characteristics, and a list of applicable models eligible for the change. The formal application is filed using FAA Form 8110-12, which captures applicant details, product information, and a summary of the modification, and must be accompanied by the certification plan and initial supporting data. An overview of the initial steps in the STC process—as framed in five phases by FAA guidance—focuses on preparation through the first three: Phase I (), identifying the technical need and regulatory basis for the modification; Phase II (Requirements Definition), designing the change with preliminary substantiation data to show deviation from the original type design; and Phase III (Compliance Planning), submitting the completed FAA Form 8110-12 application to the ACO for project establishment. This structured approach helps mitigate risks and aligns the project with certification milestones before proceeding to data review.

Approval Process and Testing

Following the submission of the application and supporting documents, such as the certification plan and descriptive , the (FAA) initiates a technical evaluation of the proposed modification. This review is primarily conducted by the Aircraft Certification Office (ACO) responsible for the geographic area or product type, or in some cases by a Manufacturing Inspection District Office (MIDO) for -related aspects. The evaluation assesses the , compliance checklists, and substantiating information to ensure the modification meets the applicable airworthiness standards, such as those outlined in 14 CFR Parts 23 or 25 for small or transport category airplanes, respectively. If approved, the process may result in amendments to the existing Type Certification Data Sheet (TCDS) to incorporate the changes. Compliance with these standards is demonstrated through a combination of methods, including ground and , , or of similarity to previously approved designs. The applicant must submit detailed test plans for FAA approval, which may involve Designated Engineering Representatives (DERs) for initial reviews. Ground tests typically cover functional, structural, and endurance aspects, while , authorized under a Type Inspection Authorization (TIA), validate , handling qualities, and safety under operational conditions. All methods must confirm that the modified product remains airworthy and does not introduce hazards, with the FAA witnessing key tests and issuing conformity statements via forms like FAA Form 8100-1. Testing requirements emphasize prototype installation on a representative , followed by rigorous inspections to verify that the modification matches the approved . These inspections include detailed examinations of parts, assemblies, and installations, often documented on FAA Form 8120-10. Performance validation occurs through a series of ground and flight tests to measure parameters like weight, balance, and aerodynamic effects, ensuring alignment with the basis. The process can vary in length depending on the modification's complexity, typically spanning several months to over a year. Upon successful completion of the evaluation and testing, the FAA issues the Supplemental Type Certificate (STC) using FAA Form 8110-2, assigning a such as followed by alphanumeric characters (e.g., SA12345NY) to denote the product type and approval details. The STC holder assumes ongoing responsibilities, including maintaining the type design data, providing a comprehensive data package for field installations—such as instructions, limitations, and Instructions for Continued Airworthiness (ICA)—and reporting any failures or defects under 14 CFR § 21.3. This package enables authorized installers to apply the modification while adhering to specified operating limitations.

Regulatory Framework

FAA-Specific Regulations

In the United States, the (FAA) governs supplemental type certificates (STCs) primarily through Title 14 of the (14 CFR) Part 21, Subpart E, which outlines the requirements for approving major changes to existing type designs. Under § 21.113, an STC is required for any major change in type design that is not extensive enough to warrant a new , such as modifications that could appreciably affect an 's weight, balance, structural strength, reliability and characteristics, performance, powerplant operation, flight characteristics, or other qualities affecting airworthiness. This regulation ensures that such alterations maintain the safety standards of the original type certificate while allowing for necessary evolutions in aircraft design. Sections 21.115 through 21.119 further specify that applicants must demonstrate compliance with applicable airworthiness requirements, including noise, emissions, and fuel venting standards where relevant, and that the FAA issues the STC upon verification of these criteria. Complementing these regulations, FAA Order 8110.4C provides detailed procedures for type certification processes, including STCs, emphasizing coordination between applicants, the FAA's Certification Offices (ACOs), and designees to evaluate design data and ensure ongoing compliance. STC holders bear significant ongoing responsibilities, including providing instructions for continued airworthiness (ICA) that address the modified design and any affected systems, as well as evaluating and reporting any failures, malfunctions, or defects that could indicate an unsafe condition under 14 CFR § 21.3. If an unsafe condition is identified, holders must submit corrective design changes for FAA approval per § 21.99 and notify the issuing ACO immediately. These obligations extend for the life of the product in service, promoting sustained safety through proactive support and transparency. Enforcement of STC-related compliance falls under FAA authority through mechanisms like Airworthiness Directives (ADs), issued per 14 CFR Part 39 to address identified unsafe conditions in modified aircraft. ADs are legally enforceable and may specifically target STC-modified products, requiring holders and operators to implement corrective actions, such as inspections or further modifications, to mitigate risks. For instance, if post-certification data reveals issues stemming from an STC installation, the FAA can mandate compliance across all affected aircraft to restore airworthiness. As an alternative to the full STC process for minor alterations—those not qualifying as major changes—field approvals may be granted by FAA aviation safety inspectors under FAA Order 8900.1, providing a streamlined on-site evaluation for less complex modifications without the need for formal type design approval. Recent FAA updates in 2023 have refined guidance for STCs on small airplanes, particularly through the Small Airplane Issues List (updated quarterly), which addresses certification challenges like seating configurations and performance modifications under STC pathways to support innovation while upholding safety. This includes policies ensuring that STCs for small airplanes (typically under 19,000 pounds ) align with performance-based standards in 14 CFR Part 23, facilitating integrations such as advanced that could enable compatibility with unmanned aircraft systems (UAS) operations. These updates reflect the FAA's efforts to balance regulatory efficiency with emerging technologies, though drone-specific integrations remain evaluated on a case-by-case basis within existing STC frameworks.

International Equivalents and Validation

In the , the (EASA) issues Supplemental Type Certificates (STCs) under Part 21 of the EASA Specifications, which governs airworthiness and environmental for changes to type designs. This process mirrors the FAA's approach by requiring applicants to demonstrate compliance with applicable standards through design data, testing, and analysis for major modifications to , engines, or propellers. EASA maintains a publicly available list of valid STCs, updated weekly, to facilitate tracking and implementation across member states. Other aviation authorities employ equivalent mechanisms for approving significant aircraft modifications. Transport Canada Civil Aviation (TCCA) classifies changes as major or minor under Canadian Aviation Regulations Standard 571, Appendix C, where major modifications—those affecting structural integrity, performance, or safety—typically require approval via a Supplemental Type Certificate or equivalent design change approval, though a regulatory sandbox allows minor change approvals to support certain major modifications for efficiency. In Brazil, the National Civil Aviation Agency (ANAC) issues Brazilian Supplemental Type Certificates under Supplementary Instruction IS 21-004, which validate changes to type designs originally certified domestically or through bilateral recognition, ensuring equivalence to international standards. Some jurisdictions, including those under TCCA and ANAC, utilize concepts like Major Change Approvals (MCA) to streamline approvals for alterations that do not warrant a full STC but still impact airworthiness. Bilateral agreements enable validation of STCs across borders, reducing redundant certification efforts. The FAA and EASA operate under Technical Implementation Procedures (TIP) outlined in their bilateral aviation safety agreement, which allows an FAA-issued STC to be validated by EASA—often with minor additional reviews—provided the design data demonstrates compliance with EASA standards; this includes provisions for transferring STCs held by non-U.S. entities through simplified processes for import and export. Similar arrangements exist with TCCA and ANAC, facilitating mutual acceptance of design approvals while requiring the exporting authority to provide supporting technical data. Cross-validation can present challenges due to variances in regulatory standards. For instance, EASA's Certification Specification CS-25 for large aeroplanes differs from the FAA's (FAR) Part 25 in areas such as structural testing interpretations, engine installation requirements, and take-off warning configurations, often necessitating supplemental substantiation data—like additional analyses or tests—to bridge these gaps during validation. These Significant Standards Differences (SSDs) ensure efforts continue, but they may extend timelines and costs for applicants seeking multi-jurisdictional approvals.

Applications and Examples

Common Types of Modifications

Supplemental type certificates (STCs) are frequently sought for modifications that enhance , , or operational efficiency while maintaining compliance with airworthiness standards. These alterations span several key categories, each addressing specific technical and operational needs of the . changes represent one of the most prevalent types, involving engine replacements or upgrades that can significantly impact thrust, , and overall handling. For instance, conversions from to engines require rigorous substantiation through analysis and to ensure the modified powerplant integrates safely with the existing . Such modifications must demonstrate compliance with 14 CFR § 21.93, including updates to the and instructions for continued airworthiness. Avionics and systems upgrades form another major category of STC applications, focusing on integrating advanced electronics to improve , communication, and pilot . Common examples include the installation of glass cockpits, which replace traditional analog instruments with digital displays for enhanced precision and reduced workload, or additions like and enhancements that bolster all-weather capabilities. These changes necessitate electromagnetic testing, system reliability assessments, and operational evaluations to verify they do not compromise the aircraft's certification basis under 14 CFR Part 23 or 25. The technical role involves rewiring and software integration, while operationally, they enable compliance with modern airspace requirements such as ADS-B. Structural and aerodynamic modifications address alterations to the aircraft's physical configuration, often aimed at optimizing , , or versatility. Winglet additions, for example, extend the wingtips to mitigate induced drag from , thereby improving fuel economy and range without major structural overhauls. Interior reconfigurations, such as converting passenger layouts to configurations, involve load path analyses and to maintain structural integrity per 14 CFR § 25.571. Aerodynamically, these mods refine characteristics, while structurally, they ensure balanced weight and balance shifts are accounted for in updated manuals. Other notable STC modifications encompass specialized systems like fuel enhancements and sensor integrations that support environmental or operational data collection. Fuel system updates, particularly for compatibility with unleaded aviation gasoline (avgas), allow the use of alternatives like G100UL by modifying fuel placards and verifying material compatibility to prevent corrosion or performance degradation, as approved under expanded model list STCs. Sensor integrations, such as the Water Vapor Sensing System II (WVSS-II), involve installing humidity-measuring probes on commercial airliners to gather upper-air meteorological data, requiring certification for minimal aerodynamic interference and electrical system harmony. These modifications undergo conformity inspections and compliance checklists to uphold airworthiness under FAA Order 8110.4C. Obtaining an STC for such changes typically requires early coordination with the local Aircraft Certification Office.

Notable Historical and Modern Cases

One notable historical example of an STC involved engine modifications to extend the civilian transport utility of the aircraft. In the late 1980s, (AMI) received FAA approval for the DC-3-65TP Cargomaster conversion, which replaced the original radial engines with PT6A-45R turboprops, along with a 40-inch extension and updated wingtips, significantly improving performance and for cargo operations. This modification allowed aging DC-3s, originally designed in , to remain viable in commercial service decades longer, demonstrating the role of STCs in revitalizing legacy aircraft for modern needs. In the realm of upgrades, the integrated flight deck represents a transformative STC for . received its first FAA STC for the G1000 retrofit in November 2007 for the C90, enabling the replacement of analog instruments with a that integrates primary flight displays, navigation, and synthetic vision technology. Subsequent approvals expanded to models like the King Air 200 series in 2009 and CitationJet in 2010, revolutionizing pilot and safety by providing real-time terrain and traffic data on large LCD screens. Over time, thousands of installations have modernized fleets, reducing operational costs through enhanced efficiency and reduced training requirements. A prominent modern aerodynamic modification is the 2014 Split Scimitar Winglet (SSW) STC developed by Aviation Partners Boeing for the series. Approved by the FAA on February 6, 2014, for the 737-800, the SSW adds scimitar-shaped tips and ventral strakes to existing blended winglets, optimizing airflow and reducing drag. This upgrade achieves fuel burn reductions of 2-5% compared to non-winglet-equipped , translating to substantial savings for operators; for instance, airlines like have retrofitted hundreds of 737s, contributing to broader environmental goals by lowering CO2 emissions. The design's scalability led to approvals for additional variants, including the 737-900ER and Business Jets, by 2015. Addressing fuel sustainability, the 2022 fleetwide STC for GAMI's G100UL unleaded aviation gasoline (avgas) provides a lead-free alternative to 100LL for engines, issued on September 1, 2022, under STC SE01966WI following initial approvals for select engines in July 2021. It approves use in a wide range of Lycoming and engines, such as the O-360 and IO-540 series, with the fuel being fully compatible for mixing with 100LL or (automotive ). This certification, covering over 170,000 aircraft, mitigates lead emissions while maintaining 100-octane performance. As of November 2025, G100UL is available at select airports, including two in and one forthcoming in , though distribution faces regulatory and legal hurdles in achieving widespread adoption. The WVSS-II (Water Vapor Sensing System II) STC exemplifies STCs enabling scientific applications in . Developed in with NOAA and certified in the mid-2000s for , with operational deployment starting in 2009, the system integrates near-real-time sensors into commercial flights for automated meteorological observations. By 2015, over 120 from carriers like and were equipped, providing high-resolution humidity profiles that fill gaps in ground-based data networks and improve accuracy. This has enhanced global atmospheric monitoring, supporting and climate without compromising performance.

Advantages and Limitations

Key Benefits

Supplemental type certificates (STCs) provide significant cost and time efficiencies for modifications by avoiding the need for a full (TC), which can cost upwards of hundreds of millions of dollars for transport category or $25 million for models. In contrast, obtaining an STC typically costs in the hundreds of thousands of dollars and involves a more flexible process managed by specialized design organizations, allowing faster implementation of upgrades that keep fleets competitive without extensive recertification delays. STCs enable customization to meet specific operational needs, such as systems or extended range capabilities, without requiring long-term aircraft grounding. This tailored approach allows owners to modernize older efficiently, enhancing performance and mission flexibility while maintaining operational continuity. By ensuring that modifications comply with current FAA airworthiness standards, STCs enhance overall safety and reliability, which in turn supports higher resale values and more favorable insurance terms for modified . Certified upgrades provide documented proof of compliance, increasing marketability and buyer confidence. STCs foster industry growth by supporting aftermarket innovation, with the FAA approving more than 1,000 such certificates since January 2020 across over 400 organizations. This framework encourages the development of diverse modifications, contributing to a robust of certified enhancements for existing aeronautical products.

Potential Challenges and Considerations

Obtaining a supplemental type certificate (STC) involves significant complexity and high costs for applicants, primarily due to extensive engineering analyses, ground and requirements, and the need to engage specialized personnel such as FAA Designated Engineering Representatives (DERs). These processes can incur substantial expenses, with applicants often facing contingencies for prolonged downtimes and regulatory compliance documentation that may multiply efforts compared to prior standards. Delays are common during FAA reviews, as workloads at Aircraft Certification Offices (ACOs) and the need for headquarters involvement in novel modifications can extend timelines from months to years, such as one case where means-of-compliance approval took two years. STCs are inherently limited to specific aircraft models, serial numbers, or approved model lists, restricting their applicability and requiring separate certifications for variants, which can complicate fleet-wide implementations. Modifications approved via STC may also conflict with subsequent airworthiness directives (ADs) or changes to the base (TC), necessitating additional design updates from the STC holder to ensure ongoing compliance. For instance, under 14 CFR § 21.99, STC holders must incorporate AD-mandated changes into their designs and make them available to affected operators. STC holders bear ongoing responsibilities, including providing instructions for continued airworthiness, flight manual supplements, and reporting any failures, malfunctions, or defects to the FAA as required by 14 CFR § 21.3 and § 21.50. They must also furnish design data to the FAA and upon request per 14 CFR § 21.49, ensuring long-term support for installed modifications. Failure to address emerging unsafe conditions can lead to FAA actions such as designating the STC as abandoned after a period of inactivity, relieving the holder of privileges but potentially impacting airworthiness if data access is needed; FAA Order 8110.120 outlines procedures for processing such abandoned STCs, including to verify holder status. Not all proposed modifications qualify for an STC, as minor alterations may instead require field approvals or amended TCs, limiting the pathway for certain upgrades. International validation, such as by the (EASA) under bilateral agreements, introduces additional layers of review and fees, further elevating costs beyond domestic FAA approval; while the FAA charges no validation fees, EASA applies structured charges for STC validations based on EU Regulation 2019/2153.

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