The Global Permanent Magnet Generator Market was estimated at USD 4501.32 million in 2025 and is projected to reach USD 8608.5 million by 2035, reflecting a robust CAGR of 7.59% over the forecast period from 2026 to 2035. The Permanent Magnet Generator market report offers a comprehensive and nuanced view of the industry, moving beyond conventional analysis. It provides a thorough examination of the markets dynamics, encompassing a detailed exploration of the factors propelling growth, such as evolving economic conditions, advancements in technology, shifts in regulatory policies, and changes in consumer behavior. Furthermore, the report discusses the projected Compound Annual Growth Rate (CAGR), providing stakeholders with a clear understanding of the market's expected growth trajectory and offering data-driven insights into future market dynamics.
The Permanent Magnet Generator market under analysis is characterized by dynamic growth and evolving trends that are reshaping the competitive landscape. With 2025 serving as the base year for this Permanent Magnet Generator market study, recent data highlights a significant expansion driven by technological advancements, rising consumer demand, and a growing focus on innovation. Companies are refining their go-to-market (GTM) strategies to effectively capture these emerging opportunities and respond to the rapidly changing market dynamics.
Key trends influencing the Permanent Magnet Generator market include the rapid adoption of digital technologies, the integration of sustainable practices, and the increasing importance of customer experience. These trends are not only driving growth but also creating new challenges for industry participants, who must adapt their GTM strategies to navigate regulatory changes, supply chain disruptions, and fluctuating economic conditions. Despite these challenges, the Permanent Magnet Generator market is poised for sustained growth, with emerging markets playing a critical role in the expansion of the industry.
Looking ahead, the Permanent Magnet Generator market is forecasted to continue its upward momentum through 2035, supported by ongoing investments in research and development, strategic partnerships, and mergers and acquisitions. Companies that can effectively tailor their GTM strategies to the evolving market landscape, innovate, and meet shifting consumer demands are likely to achieve sustained success. Permanent Magnet Generator market report provides a comprehensive analysis of the current market environment and offers valuable insights into the key drivers, challenges, and opportunities that will shape the industry's future over the next decade. This report offers a comprehensive analysis of market dynamics across various segments, regions, and countries, incorporating both qualitative and quantitative data. It covers the period from 2017 to 2035, providing a detailed examination of historical performance, current market conditions, and future projections.
Historical Analysis (2017-2024): The report presents a thorough review of market trends, performance metrics, and growth trajectories for the years 2017 through 2024. This historical perspective is crucial for understanding past market behavior and identifying patterns that influence current and future market dynamics.
Forecast and Projections (2026-2035) : Building on historical data, the report provides forward-looking insights, including market forecasts and growth projections from 2026 to 2035. It details anticipated market trends, emerging opportunities, and potential challenges across different segments, regions, and countries.
Compound Annual Growth Rate (CAGR): The report includes a precise calculation of the compound annual growth rate (CAGR) for the forecast period of 2026 to 2035. This metric will be instrumental in assessing the expected growth trajectory and the overall market potential during the forecast period.
Permanent Magnet Generator Market
The permanent magnet generator market refers to the global and regional market for innovative devices that convert mechanical energy into electrical energy using permanent magnet to create a magnetic field. These generators stand out for offering superior efficiency, consistent performance, and lower maintenance needs than conventional generator systems.
Permanent Magnet Generators (PMGs) consist of several key components that work together to ensure efficient operation. The rotor, which rotates within the generator, is embedded with permanent magnets typically made from materials like neodymium, samarium-cobalt, or ferrite that create a stable magnetic field without external power. Surrounding the rotor is the stator, a stationary structure with wire windings where voltage is induced as the rotor spins. Bearings support the rotor's motion, minimizing friction and wear to enhance durability. Additionally, many PMGs include a cooling system to manage heat produced during operation, maintaining optimal performance and preventing overheating.
Market DriversThe demand for renewable energy is rising. Permanent magnet generators are increasingly critical in renewable energy systems especially in direct-drive wind turbines because they improve efficiency and reduce maintenance by eliminating gearboxes. The U.S. Department of Energy is funding projects to develop lighter, more efficient direct-drive PMGs for utility-scale wind applications.
The growth of decentralized power and micro-grids are driving the market. PMG-based generators are ideal for remote and off-grid power systems, including micro grids and small hydro installations. A MEIDEN Review highlights that variable-speed submersible PMGs outperform traditional induction generators in micro-hydro settings due to higher efficiency and isolated operation capabilities.
The industrial efficiency goals are supporting market growth, which aims to reduce energy waste and enhance operational efficiency. Implementing PMGs in industrial drives and high-speed micro-turbines supports this goal. The EPAs combined heat and power (CHP) technology overview notes that PMGs in micro turbines deliver high-frequency AC power, which is later converted providing compact, efficient energy solutions.
Advancements in magnetic materials and generator design such as high-power-density, high-efficiency PMSGs are enabling PMGs to play a greater role in modern energy systems. NREL reports that newer PMSG configurations (e.g., single-stage, medium-speed designs) are gaining favor in large wind power applications for their efficiency and weight-saving benefits.
Government incentives under programs like the U.S. Inflation Reduction Act and the EPA's RE-Powering initiative are creating financial advantages for clean generation assets. Federal support for wind and other renewable technologies often includes bonus credits for generators on brownfields and in clean energy projects, directly supporting PMG deployment.
PMG production heavily relies on rare-earth elements like neodymium and dysprosium. Over 90% of these materials are processed in China, and export restrictions such as recent halving of magnet shipments have repeatedly disrupted global supply chains, creating long lead times and cost uncertainty.
PMG manufacturing involves expensive components particularly rare-earth magnets. These materials are volatile in price and increase overall generator costs, making PMGs less competitive in price-sensitive markets compared to conventional alternatives.
Producing direct-drive PMGs (such as those for wind turbines) requires bespoke equipment, tight tolerances, and specialized assembly processes. Manufacturers face challenges in scaling up due to large generator size, intricate rotor magnet placement, and manufacturing space constraints.
In North America, the U.S. Department of Energy is funding projects that target the development of lighter, more efficient direct-drive PMGs for utility-scale wind applications indicating strong regional support for PMG innovation in offshore and onshore wind.
Under the revised European Union Renewable Energy Directive (RED III), turbine operators are actively repowering older wind farms by replacing gear-driven units with more efficient direct-drive generators based on PMG technology. This measure supports the EUs goal of doubling renewable energy capacity by 2030.
In Asia Pacific, China alone installed nearly 350 GW of new renewable energy capacity in 2023 more than half of global additions. This large-scale growth in wind and solar deployment indicates rapidly expanding opportunities for PMGs, especially in utility-scale applications.
Brazil leads regional wind energy adoption, with over 30 GW of installed onshore capacity as of 2023 driven by consistent wind conditions and strong policy support. This growth boosts demand for Permanent Magnet Generators in direct-drive turbines, favored for their efficiency and low maintenance. Future offshore projects and diversification of the energy mix further support PMG market potential.
Renewable energy growth in the Middle East is outpacing global averages UAE and Saudi Arabia plan renewables to meet 3050% of power needs by 2030. These initiatives are creating the groundwork for PMG inclusion in large-scale wind and hybrid energy systems.
Country-Wise OutlookU.S. Advances PMG Technology through DOE Funding and Tax IncentivesThe U.S. Department of Energy (DOE) is actively funding research to create lighter, more efficient direct-drive permanent magnet generators (PMGs) suited for utility-scale and offshore wind turbines. In 2021, DOE awarded $500,000 grants to several domestic firms including WEG Energy for projects focused on direct-drive PMG designs that are smaller, more reliable, and more efficient than conventional gearbox models.
Repowering older wind farms by replacing gearbox-driven generators with direct-drive PMG systems has become a key strategy to extend asset life and improve energy output. The Production Tax Credit (PTC) and its "80/20 safe harbor" rule have enabled over 6 GW of projects to repower existing turbines, making PMG upgrades financially attractive.
Germany Accelerates Wind Energy Transition with Policy ReformsIn July 2024, Germanys federal cabinet approved a sweeping acceleration package under the renewable energy transformation plan. This law facilitates faster approval for onshore wind and energy storage projects, including PMG-based turbines, and requires designated "acceleration areas" for wind deployment significantly reducing administrative barriers.
At the Berlin Energy Days 2025, held under the theme Energy transition now strengthen security, protect the climate, key players from politics, industry, and research gathered to discuss Germanys renewable future. With over 100 events, the conference emphasized innovation, digitalization, and decarbonisation across sectors, including heating networks and industrial processes. The Federal Ministry for Economic Affairs and Energy (BMWK) showcased its commitment through forums on hydrogen, storage, and energy efficiency, underlining Germanys broader strategy to support clean technologies and maintain global competitiveness.
Japan Targets Offshore Wind Growth with PMG AdoptionJapan has set ambitious offshore wind targets 10 GW by 2030 and 45 GW by 2040 supported by recent legislation allowing full exploitation of its Exclusive Economic Zone (EEZ) and reforms to accelerate project approvals. METI has formalized a public-private partnership with Siemens Gamesa and TDK, with the latter supplying permanent magnets for Japans first domestic turbine supply chain. These steps indicate growing adoption of Permanent Magnet Generators in large-scale offshore projects.
Japans push for floating offshore wind energy is directly tied to the rising adoption of permanent magnet generators (PMGs) in renewable energy systems. As the country shifts toward clean power under its S + 3E energy policy (Safety, Energy security, Economic efficiency, Environmental sustainability), floating wind projects where direct-drive PMGs are ideal due to low maintenance needs and high efficiency are gaining traction. However, Japan faces major challenges like earthquakes, typhoons, and limited offshore infrastructure, which complicate PMG deployment. Addressing these gaps will require robust, integrated system design and domestic industry development to scale PMG-based wind technologies suited to Japans unique environment.
Competitive AnalysisABB leads in commercial PMG applications for marine propulsion. In February 2025, ABB secured orders to supply permanent magnet shaft generator systems for 30 LNG carriers, highlighting their efficiency and fuel-saving advantages over traditional solutions. These generators can reduce fuel consumption by up to 4%, while being 20% lighter and saving space demonstrating both engineering prowess and practical operational value.
Siemens Gamesas SG 14-222 DD platform, with a capacity of up to 15 megawatts using Power Boost, reflects the company's push to meet climate challenges through proven technology. As part of its strategy to deliver sustainable energy at scale, this turbine model underscores Siemens Gamesas leadership in high-capacity offshore wind systems, combining performance with reliability to power the energy transition.
Yaskawa Environmental Energy/The Switch signed a five-year global sourcing agreement with ABB Marine & Ports for its PMM2000M permanent magnet machines, specifically designed for use as shaft generators in large container ships. The PMM2000M offers a power output of over 4 MW, reaching up to 12 MW per propulsion line, and its direct-drive design improves reliability and reduces maintenance. The system supports compliance with EEXI and CII regulations, while also allowing ships to operate without gensets during long voyages, minimizing wear and boosting operational efficiency.
OEMs like ABB and Siemens Gamesa are adapting to regional needs by forming partnerships and aligning with local regulations. ABBs LNG carrier PMG orders, secured from shipyards in China, South Korea, and the Middle East, demonstrate the value of global sourcing blended with local execution.
Key players in the market are Siemens AG, ABB Ltd., GE Renewable Energy, Hitachi Ltd., Vestas Wind Systems A/S, SANY Electric Co. Ltd., Suzlon Energy Ltd., Evance Wind Turbines Ltd., Enercon GmbH, Bergey Windpower Co., Nordex SE, Gamesa Electric, Mitsubishi Electric Corporation, Pika Energy, Regal Rexnord Corporation, Eoxs Group, and Miba AG.
Recent DevelopmentIn September 2024, ABB secured a major order from Samsung Heavy Industries to equip 15 LNG carriers with its permanent magnet shaft generators. Designed for 174,000 m vessels built for Qatar Energy, these PMG systems improve fuel economy by up to 4%, and the use of ABBs ACS880 converter can deliver a further 1% gain. The direct-drive design also saves approximately 20% in space and weight highlighting both environmental and economic advantages.
In February 2025, ABB received its largest permanent magnet generator order to date supplying PMG systems for 30 LNG carriers, split across shipyards in China and South Korea. This order reinforces ABBs reputation in maritime electrification and signals strong buyer confidence in PMG reliability and fuel savings.
Our team of experienced researchers has meticulously gathered and analyzed data to deliver a thorough examination of market dynamics, competitive landscape, and emerging technologies. With a focus on delivering actionable intelligence, this report aims to empower decision-makers with the information needed to make informed choices and stay ahead of the competition. Whether you are a seasoned industry player or a new entrant, our market research report serves as a strategic tool to navigate the complexities of the market, aiding in successful business planning and growth strategies.
This chapter of our Permanent Magnet Generator market report provides an in-depth examination of the factors shaping the industry landscape. This section typically encompasses several key elements to offer a comprehensive understanding of the industry landscape such as market drivers & restraints analysis, market opportunities & trend analysis, market size & growth analysis, competitive analysis, SWOT analysis, business environment tools such as Porter's five forces & PESTEL analysis, Ansoff Matrix analysis, penetration & growth prospect analysis, regulatory framework & reimbursement scenario analysis, impact of macro & micro economic factors analysis such as Covid-19 impact, GDP growth, market inflation, U.S.- China trade war, Russia-Ukraine war impact, and supply chain analysis.
The segment analysis chapter of Permanent Magnet Generator market report is a critical section that delves into a detailed examination of the market's various segments. Segmentation involves dividing the market into distinct categories based on certain criteria to better understand and address the diverse needs of consumers. This chapter typically follows the introduction and provides a more granular view of the market, offering valuable insights for businesses and stakeholders. The components of the chapter lude segment definitions to understand the inclusions and exclusions of the study, assumptions, market size estimates and growth trend analysis of each segment, qualitative analysis of the segment, technological advancements, market penetration rate, market adoption rate, market share examination by each segment, segment growth drivers and restraint barriers, consumer behaviour and challenge analysis.
The chapter in Permanent Magnet Generator market research report is a pivotal section that examines and predicts the market dynamics and trends specific to different geographical regions. This chapter is crucial for businesses and stakeholders seeking a comprehensive understanding of how the market behaves across various locations, enabling them to tailor strategies and make informed decisions based on regional variations. The regional analysis chapter of our Permanent Magnet Generator market report is classified into regions & country-level. The chapter consists of North America (U.S., Canada), Europe (UK, Germany, France, Italy, Spain, Russia, Sweden, Denmark, Norway, Rest of Europe), Asia Pacific (Japan, China, India, Australia, South Korea, Thailand, Rest of Asia Pacific), Latin America (Brazil, Mexico, Argentina, Colombia, Rest of Latin America), Middle East & Africa (South Africa, Saudi Arabia, UAE, Kuwait, Rest of Middle East & Africa).
This section of a Permanent Magnet Generator market report is a crucial segment that provides a comprehensive overview of the competitive landscape within the market. This section is vital for businesses, investors, and stakeholders seeking insights into key players, their market positioning, strengths, weaknesses, strategies, and potential impacts on the overall market dynamics. The chapter includes research methodology used to analyse the market competition, list of key players operating in the market, detailed company profile section which includes company overview, business verticals, financial performance, product/services benchmarking, geographical presence, and strategic initiatives.
| Report Scope | Details |
| Report Version | 2026 |
| Growth Rate | CAGR of 7.59 % from 2026 to 2035 |
| Base year | 2025 |
| Actual estimates/Historical data | 2017 - 2024 |
| Forecast period | 2026 - 2035 |
| Quantitative units | Revenue in USD million/billion & CAGR from 2026 to 2035 |
| Country scope | North America (U.S., Canada), Europe (UK, Germany, France, Italy, Spain, Russia, Sweden, Denmark, Norway, Rest of Europe), Asia Pacific (Japan, China, India, Australia, South Korea, Thailand, Rest of Asia Pacific), Latin America (Brazil, Mexico, Argentina, Colombia, Rest of Latin America), Middle East & Africa (South Africa, Saudi Arabia, UAE, Kuwait, Rest of Middle East & Africa). |
| The Segment covered by Type |
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| The Segment covered by Power Rating |
|
| Companies covered |
|
| Report coverage | Revenue forecast, company share, competitive landscape, growth factors, and trends |
| Free customization scope (equivalent to 5 analyst working days) | If you need specific information, which is not currently within the scope of the report, we will provide it to you as a part of the customization |
Statistics for the 2025 Permanent Magnet Generator market share, size, and revenue growth rate were created by Quintile Report™. Permanent Magnet Generator analysis includes a market forecast outlook for 2035 and a historical overview. Get a free PDF sample of this market analysis, please get in touch with our principal analyst at sales@quintilereports.com
List of Tables
Table 1 List of Abbreviation and acronyms
Table 2 List of Sources
Table 3 North America Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 4 North America Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 5 U.S. Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 6 Canada Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 7 Europe Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 8 Europe Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 9 Germany Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 10 U.K. Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 11 France Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 12 Italy Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 13 Spain Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 14 Sweden Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 15 Denmark Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 16 Norway Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 17 The Netherlands Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 18 Russia Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 19 Asia Pacific Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 20 Asia Pacific Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 21 China Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 22 Japan Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 23 India Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 24 Australia Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 25 South Korea Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 26 Thailand Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 27 Latin America Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 28 Latin America Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 29 Brazil Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 30 Mexico Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 31 Argentina Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 32 Middle East and Africa Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 33 Middle East and Africa Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 34 South Africa Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 35 Saudi Arabia Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 36 UAE Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 37 Kuwait Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 38 Turkey Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Fig.1 Market research process
Fig.2 Market research approaches
Fig.3 Global Permanent Magnet Generator Market: market scenario
Fig.4 Global Permanent Magnet Generator Market competitive outlook
Fig.5 Global Permanent Magnet Generator Market driver analysis
Fig.6 Global Permanent Magnet Generator Market restraint analysis
Fig.7 Global Permanent Magnet Generator Market opportunity analysis
Fig.8 Global Permanent Magnet Generator Market trends analysis
Fig.9 Global Permanent Magnet Generator Market: Segment Analysis (Based on the scope)
Fig.10 Global Permanent Magnet Generator Market: regional analysis
Fig.11 Global market shares and leading market players
Fig.12 North America market share and leading players
Fig.13 Europe market share and leading players
Fig.14 Asia Pacific market share and leading players
Fig.15 Latin America market share and leading players
Fig.16 Middle East & Africa market share and leading players
Fig.17 North America, by country
Fig.18 North America
Fig.19 North America market estimates and forecast, 2017-2035
Fig.20 U.S.
Fig.21 Canada
Fig.22 Europe
Fig.23 Europe market estimates and forecast, 2017-2035
Fig.24 U.K.
Fig.25 Germany
Fig.26 France
Fig.27 Italy
Fig.28 Spain
Fig.29 Sweden
Fig.30 Denmark
Fig.31 Norway
Fig.32 The Netherlands
Fig.33 Russia
Fig.34 Asia Pacific
Fig.35 Asia Pacific market estimates and forecast, 2017-2035
Fig.36 China
Fig.37 Japan
Fig.38 India
Fig.39 Australia
Fig.40 South Korea
Fig.41 Thailand
Fig.42 Latin America
Fig.43 Latin America market estimates and forecast, 2017-2035
Fig.44 Brazil
Fig.45 Mexico
Fig.46 Argentina
Fig.47 Colombia
Fig.48 Middle East and Africa
Fig.49 Middle East and Africa market estimates and forecast, 2017-2035
Fig.50 Saudi Arabia
Fig.51 South Africa
Fig.52 UAE
Fig.53 Kuwait
Fig.54 Turkey
The Global Permanent Magnet Generator Market was estimated at USD 4501.32 million in 2025 and is projected to reach USD 8608.5 million by 2035, reflecting a robust CAGR of 7.59% over the forecast period from 2026 to 2035. The Permanent Magnet Generator market report offers a comprehensive and nuanced view of the industry, moving beyond conventional analysis. It provides a thorough examination of the markets dynamics, encompassing a detailed exploration of the factors propelling growth, such as evolving economic conditions, advancements in technology, shifts in regulatory policies, and changes in consumer behavior. Furthermore, the report discusses the projected Compound Annual Growth Rate (CAGR), providing stakeholders with a clear understanding of the market's expected growth trajectory and offering data-driven insights into future market dynamics.
The Permanent Magnet Generator market under analysis is characterized by dynamic growth and evolving trends that are reshaping the competitive landscape. With 2025 serving as the base year for this Permanent Magnet Generator market study, recent data highlights a significant expansion driven by technological advancements, rising consumer demand, and a growing focus on innovation. Companies are refining their go-to-market (GTM) strategies to effectively capture these emerging opportunities and respond to the rapidly changing market dynamics.
Key trends influencing the Permanent Magnet Generator market include the rapid adoption of digital technologies, the integration of sustainable practices, and the increasing importance of customer experience. These trends are not only driving growth but also creating new challenges for industry participants, who must adapt their GTM strategies to navigate regulatory changes, supply chain disruptions, and fluctuating economic conditions. Despite these challenges, the Permanent Magnet Generator market is poised for sustained growth, with emerging markets playing a critical role in the expansion of the industry.
Looking ahead, the Permanent Magnet Generator market is forecasted to continue its upward momentum through 2035, supported by ongoing investments in research and development, strategic partnerships, and mergers and acquisitions. Companies that can effectively tailor their GTM strategies to the evolving market landscape, innovate, and meet shifting consumer demands are likely to achieve sustained success. Permanent Magnet Generator market report provides a comprehensive analysis of the current market environment and offers valuable insights into the key drivers, challenges, and opportunities that will shape the industry's future over the next decade. This report offers a comprehensive analysis of market dynamics across various segments, regions, and countries, incorporating both qualitative and quantitative data. It covers the period from 2017 to 2035, providing a detailed examination of historical performance, current market conditions, and future projections.
Historical Analysis (2017-2024): The report presents a thorough review of market trends, performance metrics, and growth trajectories for the years 2017 through 2024. This historical perspective is crucial for understanding past market behavior and identifying patterns that influence current and future market dynamics.
Forecast and Projections (2026-2035) : Building on historical data, the report provides forward-looking insights, including market forecasts and growth projections from 2026 to 2035. It details anticipated market trends, emerging opportunities, and potential challenges across different segments, regions, and countries.
Compound Annual Growth Rate (CAGR): The report includes a precise calculation of the compound annual growth rate (CAGR) for the forecast period of 2026 to 2035. This metric will be instrumental in assessing the expected growth trajectory and the overall market potential during the forecast period.
Permanent Magnet Generator Market
The permanent magnet generator market refers to the global and regional market for innovative devices that convert mechanical energy into electrical energy using permanent magnet to create a magnetic field. These generators stand out for offering superior efficiency, consistent performance, and lower maintenance needs than conventional generator systems.
Permanent Magnet Generators (PMGs) consist of several key components that work together to ensure efficient operation. The rotor, which rotates within the generator, is embedded with permanent magnets typically made from materials like neodymium, samarium-cobalt, or ferrite that create a stable magnetic field without external power. Surrounding the rotor is the stator, a stationary structure with wire windings where voltage is induced as the rotor spins. Bearings support the rotor's motion, minimizing friction and wear to enhance durability. Additionally, many PMGs include a cooling system to manage heat produced during operation, maintaining optimal performance and preventing overheating.
Market DriversThe demand for renewable energy is rising. Permanent magnet generators are increasingly critical in renewable energy systems especially in direct-drive wind turbines because they improve efficiency and reduce maintenance by eliminating gearboxes. The U.S. Department of Energy is funding projects to develop lighter, more efficient direct-drive PMGs for utility-scale wind applications.
The growth of decentralized power and micro-grids are driving the market. PMG-based generators are ideal for remote and off-grid power systems, including micro grids and small hydro installations. A MEIDEN Review highlights that variable-speed submersible PMGs outperform traditional induction generators in micro-hydro settings due to higher efficiency and isolated operation capabilities.
The industrial efficiency goals are supporting market growth, which aims to reduce energy waste and enhance operational efficiency. Implementing PMGs in industrial drives and high-speed micro-turbines supports this goal. The EPAs combined heat and power (CHP) technology overview notes that PMGs in micro turbines deliver high-frequency AC power, which is later converted providing compact, efficient energy solutions.
Advancements in magnetic materials and generator design such as high-power-density, high-efficiency PMSGs are enabling PMGs to play a greater role in modern energy systems. NREL reports that newer PMSG configurations (e.g., single-stage, medium-speed designs) are gaining favor in large wind power applications for their efficiency and weight-saving benefits.
Government incentives under programs like the U.S. Inflation Reduction Act and the EPA's RE-Powering initiative are creating financial advantages for clean generation assets. Federal support for wind and other renewable technologies often includes bonus credits for generators on brownfields and in clean energy projects, directly supporting PMG deployment.
PMG production heavily relies on rare-earth elements like neodymium and dysprosium. Over 90% of these materials are processed in China, and export restrictions such as recent halving of magnet shipments have repeatedly disrupted global supply chains, creating long lead times and cost uncertainty.
PMG manufacturing involves expensive components particularly rare-earth magnets. These materials are volatile in price and increase overall generator costs, making PMGs less competitive in price-sensitive markets compared to conventional alternatives.
Producing direct-drive PMGs (such as those for wind turbines) requires bespoke equipment, tight tolerances, and specialized assembly processes. Manufacturers face challenges in scaling up due to large generator size, intricate rotor magnet placement, and manufacturing space constraints.
In North America, the U.S. Department of Energy is funding projects that target the development of lighter, more efficient direct-drive PMGs for utility-scale wind applications indicating strong regional support for PMG innovation in offshore and onshore wind.
Under the revised European Union Renewable Energy Directive (RED III), turbine operators are actively repowering older wind farms by replacing gear-driven units with more efficient direct-drive generators based on PMG technology. This measure supports the EUs goal of doubling renewable energy capacity by 2030.
In Asia Pacific, China alone installed nearly 350 GW of new renewable energy capacity in 2023 more than half of global additions. This large-scale growth in wind and solar deployment indicates rapidly expanding opportunities for PMGs, especially in utility-scale applications.
Brazil leads regional wind energy adoption, with over 30 GW of installed onshore capacity as of 2023 driven by consistent wind conditions and strong policy support. This growth boosts demand for Permanent Magnet Generators in direct-drive turbines, favored for their efficiency and low maintenance. Future offshore projects and diversification of the energy mix further support PMG market potential.
Renewable energy growth in the Middle East is outpacing global averages UAE and Saudi Arabia plan renewables to meet 3050% of power needs by 2030. These initiatives are creating the groundwork for PMG inclusion in large-scale wind and hybrid energy systems.
Country-Wise OutlookU.S. Advances PMG Technology through DOE Funding and Tax IncentivesThe U.S. Department of Energy (DOE) is actively funding research to create lighter, more efficient direct-drive permanent magnet generators (PMGs) suited for utility-scale and offshore wind turbines. In 2021, DOE awarded $500,000 grants to several domestic firms including WEG Energy for projects focused on direct-drive PMG designs that are smaller, more reliable, and more efficient than conventional gearbox models.
Repowering older wind farms by replacing gearbox-driven generators with direct-drive PMG systems has become a key strategy to extend asset life and improve energy output. The Production Tax Credit (PTC) and its "80/20 safe harbor" rule have enabled over 6 GW of projects to repower existing turbines, making PMG upgrades financially attractive.
Germany Accelerates Wind Energy Transition with Policy ReformsIn July 2024, Germanys federal cabinet approved a sweeping acceleration package under the renewable energy transformation plan. This law facilitates faster approval for onshore wind and energy storage projects, including PMG-based turbines, and requires designated "acceleration areas" for wind deployment significantly reducing administrative barriers.
At the Berlin Energy Days 2025, held under the theme Energy transition now strengthen security, protect the climate, key players from politics, industry, and research gathered to discuss Germanys renewable future. With over 100 events, the conference emphasized innovation, digitalization, and decarbonisation across sectors, including heating networks and industrial processes. The Federal Ministry for Economic Affairs and Energy (BMWK) showcased its commitment through forums on hydrogen, storage, and energy efficiency, underlining Germanys broader strategy to support clean technologies and maintain global competitiveness.
Japan Targets Offshore Wind Growth with PMG AdoptionJapan has set ambitious offshore wind targets 10 GW by 2030 and 45 GW by 2040 supported by recent legislation allowing full exploitation of its Exclusive Economic Zone (EEZ) and reforms to accelerate project approvals. METI has formalized a public-private partnership with Siemens Gamesa and TDK, with the latter supplying permanent magnets for Japans first domestic turbine supply chain. These steps indicate growing adoption of Permanent Magnet Generators in large-scale offshore projects.
Japans push for floating offshore wind energy is directly tied to the rising adoption of permanent magnet generators (PMGs) in renewable energy systems. As the country shifts toward clean power under its S + 3E energy policy (Safety, Energy security, Economic efficiency, Environmental sustainability), floating wind projects where direct-drive PMGs are ideal due to low maintenance needs and high efficiency are gaining traction. However, Japan faces major challenges like earthquakes, typhoons, and limited offshore infrastructure, which complicate PMG deployment. Addressing these gaps will require robust, integrated system design and domestic industry development to scale PMG-based wind technologies suited to Japans unique environment.
Competitive AnalysisABB leads in commercial PMG applications for marine propulsion. In February 2025, ABB secured orders to supply permanent magnet shaft generator systems for 30 LNG carriers, highlighting their efficiency and fuel-saving advantages over traditional solutions. These generators can reduce fuel consumption by up to 4%, while being 20% lighter and saving space demonstrating both engineering prowess and practical operational value.
Siemens Gamesas SG 14-222 DD platform, with a capacity of up to 15 megawatts using Power Boost, reflects the company's push to meet climate challenges through proven technology. As part of its strategy to deliver sustainable energy at scale, this turbine model underscores Siemens Gamesas leadership in high-capacity offshore wind systems, combining performance with reliability to power the energy transition.
Yaskawa Environmental Energy/The Switch signed a five-year global sourcing agreement with ABB Marine & Ports for its PMM2000M permanent magnet machines, specifically designed for use as shaft generators in large container ships. The PMM2000M offers a power output of over 4 MW, reaching up to 12 MW per propulsion line, and its direct-drive design improves reliability and reduces maintenance. The system supports compliance with EEXI and CII regulations, while also allowing ships to operate without gensets during long voyages, minimizing wear and boosting operational efficiency.
OEMs like ABB and Siemens Gamesa are adapting to regional needs by forming partnerships and aligning with local regulations. ABBs LNG carrier PMG orders, secured from shipyards in China, South Korea, and the Middle East, demonstrate the value of global sourcing blended with local execution.
Key players in the market are Siemens AG, ABB Ltd., GE Renewable Energy, Hitachi Ltd., Vestas Wind Systems A/S, SANY Electric Co. Ltd., Suzlon Energy Ltd., Evance Wind Turbines Ltd., Enercon GmbH, Bergey Windpower Co., Nordex SE, Gamesa Electric, Mitsubishi Electric Corporation, Pika Energy, Regal Rexnord Corporation, Eoxs Group, and Miba AG.
Recent DevelopmentIn September 2024, ABB secured a major order from Samsung Heavy Industries to equip 15 LNG carriers with its permanent magnet shaft generators. Designed for 174,000 m vessels built for Qatar Energy, these PMG systems improve fuel economy by up to 4%, and the use of ABBs ACS880 converter can deliver a further 1% gain. The direct-drive design also saves approximately 20% in space and weight highlighting both environmental and economic advantages.
In February 2025, ABB received its largest permanent magnet generator order to date supplying PMG systems for 30 LNG carriers, split across shipyards in China and South Korea. This order reinforces ABBs reputation in maritime electrification and signals strong buyer confidence in PMG reliability and fuel savings.
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This chapter of our Permanent Magnet Generator market report provides an in-depth examination of the factors shaping the industry landscape. This section typically encompasses several key elements to offer a comprehensive understanding of the industry landscape such as market drivers & restraints analysis, market opportunities & trend analysis, market size & growth analysis, competitive analysis, SWOT analysis, business environment tools such as Porter's five forces & PESTEL analysis, Ansoff Matrix analysis, penetration & growth prospect analysis, regulatory framework & reimbursement scenario analysis, impact of macro & micro economic factors analysis such as Covid-19 impact, GDP growth, market inflation, U.S.- China trade war, Russia-Ukraine war impact, and supply chain analysis.
The segment analysis chapter of Permanent Magnet Generator market report is a critical section that delves into a detailed examination of the market's various segments. Segmentation involves dividing the market into distinct categories based on certain criteria to better understand and address the diverse needs of consumers. This chapter typically follows the introduction and provides a more granular view of the market, offering valuable insights for businesses and stakeholders. The components of the chapter lude segment definitions to understand the inclusions and exclusions of the study, assumptions, market size estimates and growth trend analysis of each segment, qualitative analysis of the segment, technological advancements, market penetration rate, market adoption rate, market share examination by each segment, segment growth drivers and restraint barriers, consumer behaviour and challenge analysis.
The chapter in Permanent Magnet Generator market research report is a pivotal section that examines and predicts the market dynamics and trends specific to different geographical regions. This chapter is crucial for businesses and stakeholders seeking a comprehensive understanding of how the market behaves across various locations, enabling them to tailor strategies and make informed decisions based on regional variations. The regional analysis chapter of our Permanent Magnet Generator market report is classified into regions & country-level. The chapter consists of North America (U.S., Canada), Europe (UK, Germany, France, Italy, Spain, Russia, Sweden, Denmark, Norway, Rest of Europe), Asia Pacific (Japan, China, India, Australia, South Korea, Thailand, Rest of Asia Pacific), Latin America (Brazil, Mexico, Argentina, Colombia, Rest of Latin America), Middle East & Africa (South Africa, Saudi Arabia, UAE, Kuwait, Rest of Middle East & Africa).
This section of a Permanent Magnet Generator market report is a crucial segment that provides a comprehensive overview of the competitive landscape within the market. This section is vital for businesses, investors, and stakeholders seeking insights into key players, their market positioning, strengths, weaknesses, strategies, and potential impacts on the overall market dynamics. The chapter includes research methodology used to analyse the market competition, list of key players operating in the market, detailed company profile section which includes company overview, business verticals, financial performance, product/services benchmarking, geographical presence, and strategic initiatives.
| Report Scope | Details |
| Report Version | 2026 |
| Growth Rate | CAGR of 7.59 % from 2026 to 2035 |
| Base year | 2025 |
| Actual estimates/Historical data | 2017 - 2024 |
| Forecast period | 2026 - 2035 |
| Quantitative units | Revenue in USD million/billion & CAGR from 2026 to 2035 |
| Country scope | North America (U.S., Canada), Europe (UK, Germany, France, Italy, Spain, Russia, Sweden, Denmark, Norway, Rest of Europe), Asia Pacific (Japan, China, India, Australia, South Korea, Thailand, Rest of Asia Pacific), Latin America (Brazil, Mexico, Argentina, Colombia, Rest of Latin America), Middle East & Africa (South Africa, Saudi Arabia, UAE, Kuwait, Rest of Middle East & Africa). |
| The Segment covered by Type |
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| The Segment covered by Power Rating |
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| Companies covered |
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| Report coverage | Revenue forecast, company share, competitive landscape, growth factors, and trends |
| Free customization scope (equivalent to 5 analyst working days) | If you need specific information, which is not currently within the scope of the report, we will provide it to you as a part of the customization |
Statistics for the 2025 Permanent Magnet Generator market share, size, and revenue growth rate were created by Quintile Report™. Permanent Magnet Generator analysis includes a market forecast outlook for 2035 and a historical overview. Get a free PDF sample of this market analysis, please get in touch with our principal analyst at sales@quintilereports.com
Table 1 List of Abbreviation and acronyms
Table 2 List of Sources
Table 3 North America Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 4 North America Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 5 U.S. Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 6 Canada Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 7 Europe Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 8 Europe Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 9 Germany Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 10 U.K. Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 11 France Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 12 Italy Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 13 Spain Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 14 Sweden Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 15 Denmark Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 16 Norway Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 17 The Netherlands Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 18 Russia Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 19 Asia Pacific Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 20 Asia Pacific Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 21 China Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 22 Japan Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 23 India Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 24 Australia Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 25 South Korea Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 26 Thailand Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 27 Latin America Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 28 Latin America Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 29 Brazil Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 30 Mexico Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 31 Argentina Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 32 Middle East and Africa Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 33 Middle East and Africa Global Permanent Magnet Generator Market, by Region, (USD Million) 2017-2035
Table 34 South Africa Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 35 Saudi Arabia Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 36 UAE Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 37 Kuwait Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Table 38 Turkey Global Permanent Magnet Generator Market, by Segment Analysis, (USD Million) 2017-2035
Fig.1 Market research process
Fig.2 Market research approaches
Fig.3 Global Permanent Magnet Generator Market: market scenario
Fig.4 Global Permanent Magnet Generator Market competitive outlook
Fig.5 Global Permanent Magnet Generator Market driver analysis
Fig.6 Global Permanent Magnet Generator Market restraint analysis
Fig.7 Global Permanent Magnet Generator Market opportunity analysis
Fig.8 Global Permanent Magnet Generator Market trends analysis
Fig.9 Global Permanent Magnet Generator Market: Segment Analysis (Based on the scope)
Fig.10 Global Permanent Magnet Generator Market: regional analysis
Fig.11 Global market shares and leading market players
Fig.12 North America market share and leading players
Fig.13 Europe market share and leading players
Fig.14 Asia Pacific market share and leading players
Fig.15 Latin America market share and leading players
Fig.16 Middle East & Africa market share and leading players
Fig.17 North America, by country
Fig.18 North America
Fig.19 North America market estimates and forecast, 2017-2035
Fig.20 U.S.
Fig.21 Canada
Fig.22 Europe
Fig.23 Europe market estimates and forecast, 2017-2035
Fig.24 U.K.
Fig.25 Germany
Fig.26 France
Fig.27 Italy
Fig.28 Spain
Fig.29 Sweden
Fig.30 Denmark
Fig.31 Norway
Fig.32 The Netherlands
Fig.33 Russia
Fig.34 Asia Pacific
Fig.35 Asia Pacific market estimates and forecast, 2017-2035
Fig.36 China
Fig.37 Japan
Fig.38 India
Fig.39 Australia
Fig.40 South Korea
Fig.41 Thailand
Fig.42 Latin America
Fig.43 Latin America market estimates and forecast, 2017-2035
Fig.44 Brazil
Fig.45 Mexico
Fig.46 Argentina
Fig.47 Colombia
Fig.48 Middle East and Africa
Fig.49 Middle East and Africa market estimates and forecast, 2017-2035
Fig.50 Saudi Arabia
Fig.51 South Africa
Fig.52 UAE
Fig.53 Kuwait
Fig.54 Turkey
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