Aircraft Electric Motors Market Size & Share 2025 – 2034

Aircraft Electric Motors Market Share

The global aircraft electric motors market size was valued at USD 8.8 billion in 2024, with a volume of 5,534.7 thousand units, and is estimated to grow at a CAGR of 9.1% to reach USD 20.8 billion by 2034. The growth of the market is attributed to factors such as the surge in urban air mobility (UAM) & eVTOL development coupled with the rise of distributed electric propulsion (DEP).

The market experienced major effects from Trump-tariffs that targeted Chinese electrical components and aerospace parts. The introduced tariffs elevated the prices of essential raw materials and motor components at import while creating disruptions in worldwide supply networks and increasing manufacturing costs for American manufacturers. Companies realign their strategies by looking for new suppliers while shifting parts of their production back to the United States to reduce their reliance on foreign imports. The implementation of tariffs created both increased expenses and temporary market instability for electric aviation operations.
 

The surge in urban air mobility (UAM) & eVTOL development serves as a primary factor behind the growth of the aircraft electric motors market. These electric vertical take-off and landing (eVTOL) aircraft are intended for air travel within cities, making them more convenient for short-distance travel where ease of noise and emissions is essential. Electric motors provide rotary motion with great efficiency, are light in weight within and are free from excess noise which are desirable in UAM applications.
 

Furthermore, the increased private as well as public sector funding in eVTOL initiatives has intensified the need for electric propulsion systems that are dependable and high-performance. The need to further develop urban traffic solutions to mitigate the rising congestion and environmental issues in megacities by local authorities accelerates the demand for next-generation electric motors, which places them as pivotal in the development of air transport systems for urban environments. For instance, according to Statista, the global market for urban air mobility is projected to grow at CAGR of over 26% year-on-year and is anticipated to reach USD 86.8 billion by 2035.
 

Aircraft electric motor manufacturers should prioritize the development of lightweight, high-efficiency, and low-noise electric propulsion systems tailored for eVTOL and urban air mobility (UAM) platforms, as these are becoming central to next-generation urban transport solutions amid rising investments and regulatory support for sustainable intra-city aviation.
 

The rise of distributed electric propulsion (DEP) is another major driver for the growth for the aircraft electric motors market. DEP employs numerous compact electric motors which are placed throughout the aircraft wings and fuselage, instead of using standard large engines. This new design structure increases flight stability and reduces drag, while improving aerodynamic efficiency. These systems ensure enhanced safety by their superior design, as motor failures do not affect the functionality of the complete system.
 

The distributed electric propulsion system allows designers to build aircraft structures, that cannot be achieved by the traditional propulsion systems, which benefits both standard and vertical flight innovations. While the aviation industry strives for sustainable efficiency improvements, DEP further ensure maximized electric propulsion benefits to drive up demand for specialized electric motors designed for this specific system architecture.
 

Aircraft electric motor manufacturers should focus on developing specialized, compact, and lightweight electric motors optimized for distributed electric propulsion (DEP) architectures, as this configuration enhances aerodynamic efficiency, flight stability, and safety making it central to next-generation sustainable aviation platforms and enabling innovative aircraft designs beyond the capabilities of conventional propulsion systems.
 

Aircraft Electric Motors Market Trends

• Manufacturers are increasingly emphasizing towards the development of high-power density motors, that ensure superior power to weight ratio, enabling thrust without significant weight penalty. These motors utilize advanced materials and optimized designs to deliver high output in compact packages, crucial for both fixed-wing and eVTOL aircraft.
   
• The rapid adoption of modular electric motors, such as Zeroavia’s HyperCore 900 kW system, which allow for scalable power solutions is a significant trend in the market. These motors enable manufacturers to configure multiple modules to comply with different aircraft requirements, facilitating easier maintenance and upgrades. This flexibility accelerates development cycles and supports a wider range of aircraft sizes.
   
• Another significant trend in the aircraft electric motors market is the rapid adoption of advanced cooling techniques such as in liquid and air colling, which enables electric motors to operate at higher power levels without overheating. This technology ensures efficient thermal management which extends lifespan of motor and ensures consistent performance, which is vital for commercial operations and longer-duration flights in both urban and regional air mobility.
   

Aircraft Electric Motors Market Analysis

Based on the type, the aircraft electric motors market is segmented into AC motor, and DC motor.
 

• The AC motor was the largest market and was valued at USD 4.7 billion in 2024. The demand for AC motors is primarily driven by their high efficiency, lower maintenance, and ability to support high power output over longer durations. AC motors are well-suited for main propulsion systems in electric and hybrid-electric aircraft, where consistent performance and reliability are crucial. Technological advancements in variable frequency drives (VFDs) and power electronics have further enhanced their applicability in aviation.
   
• The DC motor is the fastest growing market and is projected to grow with a CAGR of 9.6% during the forecast period. DC motors are gaining traction due to their precision control, lightweight design, and suitability for auxiliary functions such as actuation, control surfaces, and onboard systems. Their simple control architecture and quick response make them ideal for eVTOL and short-range aircraft, particularly in applications requiring rapid acceleration or deceleration. The ongoing development of brushless DC (BLDC) motors, which offer higher reliability and lower noise, is further supporting their adoption in advanced electric aircraft platforms.
   

Learn more about the key segments shaping this market

Download Free PDF

Based on the aircraft type, the aircraft electric motors market is bifurcated into fixed wing, rotary wing, unmanned aerial vehicles, and advanced air mobility.
 

• The fixed wing was the largest market and was valued at USD 4.8 billion in 2024. The growing focus on sustainable aviation is driving the adoption of electric motors in fixed-wing aircraft. These motors enable lower emissions, fuel savings, and reduced operating costs, particularly for regional and short-haul flights. As regulatory bodies push for greener technologies, manufacturers are increasingly investing in hybrid and fully electric fixed-wing designs. Additionally, technological advancement in motor efficiency and lightweight materials has further enabled the integration of advanced motors into conventional airframes, enhancing performance while meeting environmental goals. This shift strongly supports market expansion in fixed-wing segments.
   
• The advanced air mobility is the fastest growing market and is projected to grow with a CAGR of 12.6% during the forecast period.  Advanced Air Mobility (AAM) and its components such as eVTOLs and urban air taxis function as primary growth factors within the aircraft electric motors market. Vertical lift and distributed thrust operations of these aircraft depend completely on electric propulsion systems, which require efficient lightweight electric motors. Additionally, the rapid urbanization, worsening traffic problems, and growing environmental concern, has created strong market demand for noiseless aerial vehicles that produce zero emissions. Also, the increasing government investments coupled with implementation of worldwide pilot programs for cities are driving innovation that leads to large-scale deployment of electric motors designed for short-range high-efficiency operations.
   

Based on the output power, the aircraft electric motors market is categorized into up to 10 KW, 10 – 200 KW, and above 200 KW.
 

• The up to 10 KW was the largest market and was valued at USD 3.1 billion in 2024. Electric motors ranging from 10 kW output power serve as standard equipment in small UAVs, drones, and onboard systems, that include actuators and control surfaces. These motors work well for auxiliary systems on manned and unmanned platforms, due to their lightweight structure, efficient energy usage, and simple integration capabilities. Moreover, the surge in demands for drones, that are increasingly used for surveillance activities and delivery services and inspection duties further contribute to the market expansion. Also, the growing demand for eVTOL aircraft, which utilize distributed propulsion systems with multiple small motors further drives market demand in this segment.
   
• The above 200 KW is the fastest growing market and is projected to grow with a CAGR of 10.7% during the forecast period. The main propulsion systems of electric and hybrid-electric aircraft require motors with power output above 200 kW for their operation particularly in fixed wing and advanced air mobility vehicles, as they are designed for extended ranges and larger passenger capacity. Moreover, the innovations in thermal management, motor control, and lightweight materials are achieving aviation-grade performance standards, which has led to the development of ultra-high-capacity motors, which further supports the growth in this segment.
   

Based on the application, the aircraft electric motors market is divided into propulsion systems, flight control systems, environmental control systems, actuation systems, cabin interior systems, and others.
 

• The flight control system was the largest market and was valued at USD 2.5 billion in 2024. The flight control system segment is anticipated to see robust growth in the aircraft electric motors market with the increasing use of More Electric Aircraft (MEA) and All-Electric Aircraft (AEA) architectures. These platforms strive to substitute conventional hydraulic systems with electric actuation in order to achieve better efficiency, lower weight, and reduced maintenance. Electric motors provide fine control, dependability, and responsiveness in controlling flight surfaces such as ailerons and rudders. Growing demand for efficient and technologically integrated planes further fuels this shift, with consistent growth prospects.
   
• The propulsion system is the fastest growing market and is projected to grow with a CAGR of 13.7% during the forecast period. The propulsion system segment is poised to grow dramatically in the aircraft electric motors market as a result of the rapid development of electric and hybrid-electric propulsion systems.
   
• With increasing pressure to reduce carbon emissions, noise pollution, and fuel dependency, aerospace manufacturers are heavily investing in electric propulsion systems for urban air mobility, regional transport, and future commercial aviation. Electric motors provide high torque, compact design, and efficiency, enabling them to find perfect application in next-generation propulsion architectures, therefore leading to excellent market growth.
   

• The U.S. dominated the aircraft electric motors market, accounting for USD 2.7 billion in the year 2024. This growth is significantly driven by rising federal funding investment towards hybrid electric R&D with implementation of programs such as NASA’s electric powertrain flight demonstration, and projects such as Collins Aerospace’s 500 kW motor prototype for hybrid-electric aircraft.
   
• For instance, In December 2024, the Department of Energy (DOE) in the U.S. has announced USD 51.7 million in funding for 19 projects that will advance research and development (R&D) critical to unlock innovative and efficient mobility options. Moreover, the rapid expansion of urban air mobility along with the presence of several major eVTOL manufacturers such as Joby aviation and Archer aviation, further pushes the demand for high power density motor for urban transportation solutions.
   
• The Germany aircraft electric motors market accounted for USD 497 million in the year 2024. The increasing strict emissions regulations from EU green deal compliances is pushing the rapid adoption of electric propulsion in regional aircraft along with integrated motor controller systems. Furthermore, the increasing integration of hydrogen with electric to develop motors compatible with hydrogen fuel cells for long haul flight is a significant trend in the market, driving market expansion. Also, the advancement in manufacturing technology has led to deployment of 3D printing for lightweight and high efficiency motor components, which ensures enhanced performance in aerospace application.
   
• The aircraft electric motors market in China is projected to reach USD 2.8 billion by the year 2034. The growth in the country is driven by the rising air travel demand which further supports the modernization with electric systems. The government is further introducing new policies, which incentivizes the development of electric aircrafts, especially for short haul routes and unmanned cargo drones. Additionally, the leadership of the country in production of lithium ion battery enables the cost effective electrification of smaller aircrafts, which is expected to drive market growth.
   
• The Japan aircraft electric motors market accounted for USD 396 million in 2024. Several major aerospace manufacturers including Mitsubishi Heavy Industries and Kawasaki Heavy Industries operate from Japan to develop hybrid turboprop motors that minimize environmental emissions, which supports market growth. Additionally, the technological advancement in precision motor innovation has led to development of PMSM (Permanent Magnet Synchronous Motor) design, which further improves efficiency for auxiliary systems.
   
• The India the aircraft electric motors market is anticipated to grow at a CAGR of over 11.9% during the forecast period. The expansion in the region is supported by the fast adoption of low cost carriers which utilizes electric motors to reduce fuel costs on shorter, more frequent flights. Additionally, the implementation of regionally connecting policies like the UDAN schemes also encourages the use of electric aircraft on these short haul routes.
   

Aircraft Electric Motors Market Share

The aircraft electric motors industry is highly competitive and fragmented with the presence of established global players as well as local players and startups. The top 3 companies in the global aircraft electric motors market are Moog Inc., AMETEK, Inc, and Safran, collectively accounting for over 21.9% market share. Leading companies in the market are investing in the next-generation aircraft electric motor solution which prioritizes high power-to-weight ratios, thermal efficiency, low acoustic signatures, and advanced cooling systems.
 

Also, there is a growing emphasis towards the systems, which supports More Electric Aircraft (MEA) and All Electric Aircraft (AEA) initiatives, that are aimed to reduce dependency on traditional mechanical and hydraulic components by incorporating electrically driven systems, and therefore improving overall efficiency, maintenance, and environmental sustainability.
 

The innovation in the market such axial flux motors, integrated motor-controller systems, and modular electric propulsion units, designed for both main propulsion and subsystems are gaining rapid popularity among manufacturers to ensure superior flight control and environmental compliance. Additionally, several key applications such as primary propulsion, flight control actuation, environmental systems, and landing gear operations are further increasingly deployment of electric motors to ensure enhanced responsiveness, redundancy, and operational safety.
 

Aircraft Electric Motors Market Companies

The aircraft electric motors industry features several prominent players, including:

• AMETEK
• ARC Systems
• Electromech Technologies
• Emrax
• Evolito
• H3X Technologies
• KDE Direct
• Liebherr Aerospace
• Maxon
• Meggitt
• MGM Compro
• Moog
• Safran Group
• THINGAP
• Turnigy Power Systems
• Windings
• Wright Electric
• Xoar International
   

Moog Inc. applies precision engineering to develop high-performance electric motors and integrated motion control systems which operate in aircraft applications. Customized solutions form the core competence of their operations which includes flight control surfaces and landing gear and other essential functions. The company provides products that emphasize reliability together with high-power density and sophisticated control algorithms for applications that need precision and robustness. Their product range enables them to provide customized and high-end motors to specific market segments.
 

Ametek Inc. distinguishes itself through a wide selection of electric motors specialized for aerospace needs together with other applications which prioritize dependable cost-effective solutions. The complete motor product line of AMETEK comprises brushless DC motors combined with geared motors that enable applications from pumps to actuators. Through its worldwide service network AMETEK delivers value-driven solutions which maintain different airplane applications.
 

Aircraft Electric Motors Industry News

• In February 2025, Safran Electrical & Power celebrates has received the certification awarded by the European Union Aviation Safety Agency (EASA) of the ENGINeUS 100 motor – the first electric motor certified to power new air mobility.The motor obtained certification after a campaign involving 1,500 hours of motor certification tests and more than 100 flight hours on an aircraft in real-world conditions.
   
• In October 2024, Airbus collaborated with Toshiba to develop superconducting electric motor for future hydrogen-powered aircraft. Under a partnership signed at Japan Aerospace Exhibition in Tokyo, the partners committed to develop and test a 2-megawatt superconducting electric motor.
   

The aircraft electric motors market research report includes in-depth coverage of the industry with estimates & forecasts in terms of revenue (USD Million) and volume (Thousand Units) from 2021 to 2034, for the following segments:

Click here to Buy Section of this Report

Market, By Type

• AC motor
• DC motor

Market, By Aircraft Type

• Fixed wing
• Rotary wing
• Unmanned aerial vehicles
• Advanced air mobility

Market, By Output Power

• Up to 10 kW
• 10–200 kW
• Above 200 kW

Market, By Application

• Propulsion systems
• Flight control systems
• Environmental control systems
• Actuation systems
• Cabin interior systems
• Other 

The above information is provided for the following regions and countries:

• North America 
  • U.S.
  • Canada
• Europe 
  • Germany
  • UK
  • France
  • Spain
  • Italy
  • Netherlands
• Asia Pacific 
  • China
  • India
  • Japan
  • Australia
  • South Korea
• Latin America 
  • Brazil
  • Mexico
  • Argentina
• Middle East and Africa 
  • Saudi Arabia
  • South Africa
  • UAE