風電變流系統市場報告：2031 年趨勢、預測與競爭分析

未來全球風電變流系統市場很可能在離岸風力發電看到機會。預計全球風電變流系統市場從 2025 年到 2031 年的複合年成長率將達到 7.4%。該市場的主要驅動力是可再生能源需求的不斷成長、風力發電機安裝數量的不斷增加以及技術的不斷進步。

• 根據 Lucintel 的預測，根據類型，由於離岸風力發電計劃的增加，預計預測期內全功率將出現高速成長。
• 從應用角度來看，隨著深水區投資增加和產能擴張，離岸風力發電預計將出現強勁成長。
• 從地區來看，由於可再生能源技術的日益普及，預計歐洲將在預測期內實現最高成長。

風電變流系統市場的新趨勢

風電變流系統市場正在鼓勵技術創新以提高能源效率，從而推動該領域出現新的趨勢。隨著對可再生能源的需求不斷成長，風力發電系統正在轉變，帶來更大的挑戰。以下是改變該行業的五個關鍵趨勢：

• 能源儲存系統系統的使用：能源儲存系統目前廣泛與風力發電轉換系統結合使用。透過在能源充足和風能豐富的時間對電池進行充電，並在需求高峰時對電池進行放電，可以防止電力短缺。隨著風力發電供需的變化，這種方式可以提高能源供應的靈活性和穩定性。這些因素將促進混合能源系統的發展，並提高電網中風力發電的可靠性。
• 離岸風力發電擴張：離岸風力發電電場正在成為美國、德國和日本的重要發展領域。此類系統中使用的風電轉換器技術必須針對風和水流更加不穩定的超深水域進行設計和測試。隨著離岸風力發電的擴張，更經濟、更可靠、更永續的能源系統的進步對於提高能源產量至關重要。這有望為海上領域的轉換器製造商帶來新的視角。
• 將再生能源來源融入智慧電網：智慧電網擴大納入風力發電變流系統。這種現代化需要能夠通訊和自動化電力轉換過程，以解決能源消耗和生產、需求和供應問題。該技術使風電場產生的能源能夠在國家和地區電網中得到更有效的利用，有助於平衡電網並最大限度地減少能源損失。隨著電網不斷現代化，對更靈活、更複雜的新型風電轉換器的需求將不斷增加。
• 透過技術改進降低成本：降低成本是風電變流系統市場的主要目標之一。風力發電的使用日益成長似乎正在推動市場對風力發電轉換系統開發的需求。更高效的半導體材料和現代電力電子元件為經濟高效的轉換器提供了巨大的潛力。在規模和效益最佳化方面，風力發電生產成本可望下降，使風電利用更具競爭力。
• 風力發電系統的超導體和合金開發：同樣，風力發電變流系統對新材料和新零件的使用也顯著增加。超導性、更強更輕的合金以及更強更耐用的半導體的現代化正在使風力發電轉換系統更加可靠和高效。這些材料使轉換器能夠在高容量範圍內運行，同時能夠長時間承受惡劣的環境條件。這是風電微變流器系統滿足可再生能源供應需求的前沿趨勢。

這些新發展正在透過鼓勵能源儲存、海上設施、智慧電網、成本降低和材料科學的創新方法來改變風能轉換系統市場。許多國家的重點正轉向永續的現代化成長和增加國家可再生能源組合。這些趨勢對於維持風力發電的成長至關重要。為了實現這些目標，採用更現代化和高效的風力發電變流系統至關重要，這將繼續提高世界各地風力發電系統的性能。

風電變流系統市場的最新趨勢

風力發電轉換系統產業正在經歷幾項關鍵的技術創新，這些創新正在改變可再生能源產業。這些變化體現了世界對永續能源發展和技術進步的承諾。以下創新正在推動市場成長：

• 提高電力轉換效率：利用現代風能領域的超高效風力發電轉換器的新發展是實現風力發電系統成本效益的關鍵一步。電力電子技術的新發展透過提高風力發電機的效率同時改善轉換過程中的能量保持，帶來了轉換器性能的顯著改善。此舉對於進一步利用風力發電並使其相對於其他再生能源來源更具優勢至關重要。
• 電力電子與風力發電機介面：現代電力電子技術提高了風力發電機的性能和整合度，提高了風電變流系統的穩定性。電力電子技術確保對能源管理活動進行有效控制，並提高風力發電機在各種條件下的運作效率。這項發展將提高風力發電系統在變化的風力條件下更有效地輸送能量的能力，並提高電力系統中風力發電的利用率。
• 風電場的先進離岸風電變流電源系統：隨著離岸風力發電電場的不斷部署，專用的海上變流系統正在開發中。這些系統專為海上使用而設計，因為它們必須應對更深的水域和更惡劣的天氣條件所帶來的挑戰。離岸風力發電變流系統的改進和創新無疑將推動海上風力發電資源的成長，尤其是在美國、德國和日本。
• 能源儲存整合：能源儲存系統與風電變流系統整合起來變得越來越有價值，因為這有助於平滑風電輸出。例如，當風能超過需求時，電池可以從電網中捕獲多餘的能量，然後在需要時排放這些能量。此項技術創新顯著提高了風電場在電網中的能源回收水平，增強了電網的可靠性。綜合能源儲存系統系統可望保障未來風力發電的永續。
• 努力降低成本：降低風電變流系統的成本也是非常有效的。新材料、新技術的引入以及電力電子控制和加工製造，降低了風電變流器的價格。這使我們能夠利用比其他能源來源更多的風力發電，同時支持清潔能源的成長。隨著風電變流系統裝置容量的增加，預計已開發國家和新興國家都將提供電力。

風電變流系統市場正在發生的變化正受到這些新市場發展的推動。電力與能源儲存的整合、成本的降低、離岸風電的發展以及電力轉換效率的提高都有助於提高市場競爭力和永續性。這些進步確保了風力發電仍然是全球能源轉型的核心，並保證了風電變流系統作為未來可再生能源產業基礎技術的順利發展。

目錄

第1章執行摘要

第2章全球風力發電系統市場：市場動態

• 簡介、背景和分類
• 供應鏈
• 產業驅動力與挑戰

第3章 2019年至2031年市場趨勢及預測分析

• 宏觀經濟趨勢（2019-2024）及預測（2025-2031）
• 全球風電變流系統市場趨勢（2019-2024）及預測（2025-2031）
• 全球風電變流系統市場類型
  • 雙電源
  • 全力
• 全球風電變流系統市場（按應用）
  • 離岸風力發電
  • 陸域風電

第4章2019年至2031年區域市場趨勢與預測分析

• 全球風電變流系統市場（按區域）
• 北美風電變流系統市場
• 歐洲風電變流系統市場
• 亞太風電變流系統市場
• 世界其他地區風電變流系統市場

第5章 競爭分析

• 產品系列分析
• 營運整合
• 波特五力分析

第6章 成長機會與策略分析

• 成長機會分析
  • 全球風電變流系統市場的成長機會（按類型）
  • 全球風電變流系統市場的成長機會（按應用）
  • 全球風電變流系統市場各區域成長機會
• 全球風電變流系統市場的新趨勢
• 戰略分析
  • 新產品開發
  • 全球風力發電系統市場容量擴大
  • 全球風電變流系統市場的合併、收購與合資企業
  • 認證和許可

第7章主要企業簡介

• ABB
• AMSC
• Siemens
• Emerson
• Vacon
• Schneider
• GE Power
• Switch
• Woodward
• Ingeteam

The future of the global wind power converter system market looks promising with opportunities in the offshore wind power and onshore wind power markets. The global wind power converter system market is expected to grow with a CAGR of 7.4% from 2025 to 2031. The major drivers for this market are the rising demand for renewable energy, the growing installations of wind turbines, and the increasing technological advancement.

• Lucintel forecasts that, within the type category, full power is expected to witness higher growth over the forecast period due to the rising number of offshore wind projects.
• Within the application category, offshore wind power is expected to witness higher growth due to the rising investments and growing capacity in deepwater locations.
• In terms of region, Europe is expected to witness the highest growth over the forecast period due to the growing adoption of renewable energy technologies.

Emerging Trends in the Wind Power Converter System Market

Innovation is encouraged in the wind power converter system market for increased energy efficiency, leading to new emerging trends in the space. Wind Power systems are transforming as the need for renewable energy increases, which leads to greater challenges. Below are five primary trends that are transforming the industry:

• Use of Energy Storage Systems: Energy Storage Systems are now widely used with wind power converter systems. Batteries can be charged during times of high wind generation when energy is abundant, and later discharged during peak times of demand, which prevents power shortages. With the changing supply and demand in wind energy, this approach allows for greater flexibility and stability in energy supply. These factors will enhance the development of hybrid energy systems, increasing the reliability of wind energy within the power grid.
• Expansion of Offshore Wind Energy: Offshore wind farms are starting to gain prominence as a vital area of development in the United States, Germany, and Japan. The wind power converter technology used in such systems must be designed for, and tested in, ultra-deep water where the winds and currents are more volatile. As offshore wind farms expand, the advancement of more economical and reliable sustainable energy systems will be critical to increase energy production. This is anticipated to create new prospects for converter producers in the offshore sector.
• Integration of Renewable Energy Sources into Smart Grids: Smart grids are increasingly incorporating wind power converter systems. Such modernisation entails the ability to communicate and automate the processes of power conversion, which are needed in order to respond to both energy consumption and production as well as to supply and demand. With this technology, energy produced by wind farms can be more effectively used by the national and regional grids, helping balance the grid and minimize energy losses. As the modernization of the grids progresses, there will be a higher need for new types of wind power converters, which are more flexible and sophisticated.
• Reducing Expenses through Improvement with Technology: Reducing expenses is one of the major objectives in the wind energy converter systems market. The expansion of wind power utilization seems to be increasing the market's demand for the development of wind power conversion systems. More efficient semiconductor materials and the modern power electronic components have great scope for cost effective converters. Regarding the scale and performance optimization, it is anticipated that the cost of producing wind energy will be lower, which will enable wind power to be utilized even more competitively.
• Development of Superconductors and Alloys for Wind Power Systems: Similarly, there is a noticeable increase in the use of new materials and components for the wind power converter systems. The modernization of superconductors, stronger, lighter alloys, and stronger, durable semiconductors is making wind power converter systems more reliable and efficient. These materials enable converters to operate in the high capacity range while being able to endure harsh environmental conditions over extended periods. This is the most advanced trend in wind power micro converter systems that meets the requirements of renewable energy supply.

These newly developing trends are transforming the wind power converter system market by encouraging inventive approaches in energy storage, offshore installations, smart grids, cost easing, and materials science. The focus for many countries is shifting toward sustainable contemporary growth and increasing the renewable energy portfolio of the country. These trends are pivotal for maintaining the growth of wind power. Achieving these aims hinges on the adoption of more modern and efficient wind power converter systems, which will keep enhancing the performance of wind energy systems around the world.

Recent Developments in the Wind Power Converter System Market

The wind power converter system industry has seen several important innovations that are shifting the renewable energy industry. These changes illustrate the commitment towards global sustainable energy development and technology advancement. The following innovations are causing expansion of the marketplace:

• Higher Rate of Power Conversion Efficiency: New developments in ultra-efficient wind energy converters that utilize modern wind sectors are an important step in achieving wind power systems' cost effectiveness, as efficiency of energy conversion in ultra-modern wind sectors is directly related to cost effectiveness. New developments in power electronics have shown appreciable improvements in the performance of converters by improving energy retention during the conversion process while at the same time increasing the efficacy of wind turbines. This step is vital is further harnessing wind energy and making it increasingly favorable compared to other renewable energy sources.
• Interfacing Power Electronics With Wind turbines: Modern power electronics have enhanced the performance and integration of wind turbines and increased the stability of the wind power converter systems. Power electronics ensures efficient control of energy management activities, which improves the operational efficiency of wind turbines under different conditions. This development augments the capability of wind power systems to deliver energy more effectively during varying wind conditions, thereby strengthening the use of wind energy in the electric power systems.
• Advanced Offshore Wind Converter Power Systems for Wind Farms: With the increasing deployment of offshore wind farms, the development of offshore specific converter systems has progressed. These systems are offshore specific in nature as they are required to cater to the challenges posed by deep sea and more severe weather conditions. Improvement and innovation in the offshore wind power converter systems will no doubt facilitate the growth of offshore wind energy resources, especially in the USA, Germany, and Japan.
• Integration of Energy Storage: It is becoming more valuable to integrate them with energy storage systems with regard to the wind power converter system, as it helps in equalizing the output of wind power generation. Batteries, for instance, are able to capture excess energy from the grid when the wind energy produced is greater than the demand and then discharge the energy when it is needed. This innovation greatly improves the level of energy capture of wind plants in the grid and improves their reliability. Integrated energy storage systems are anticipated to ensure the sustainable development of wind energy in the future.
• Initiatives to Reduce Costs: Reduction of wind power converter systems costs is also very useful. The introduction of new materials, new technologies in the manufacture as well as in the power electronics control and processing has been driving the price of wind converters down. This allows greater use of wind energy than other sources, and at the same time supports the growth of clean energy. As installed capacity for wind power converter systems increases, it is expected that power will be gained from both developed countries and developing countries.

The ongoing changes in the wind power converter system market are bolstered by these new developments. The consolidation of power through integration with energy storage, cost reduction, offshore wind development, along with an advancement in power conversion efficiency, all contribute towards making the market more competitive and more sustainable. These advancements make certain that wind energy stays central in the global energy transition, ensuring the smooth development of wind power converter systems as a fundamental technology for the future renewable energy industry.

Strategic Growth Opportunities in the Wind Power Converter System Market

Investment in renewable energy sources is increasing, driving the growth of the Wind Power Converter Market. Many regions across the globe are transitioning towards sustainability, increasing the prominence and the investments directed into technologies that efficiently harness the renewable energy sources available. With the advancement of technologies, policy support, and economic drivers, the performance, cost-effectiveness, and deployment of wind power converters have much room for improvement. These opportunities allow for improvement in many key applications, which could fundamentally change global wind energy systems.

• Integration with Smart Grids: Integrating wind power converter systems with smart grids presents a tremendous opportunity for growth. Smart grids use modern communication technologies to optimize energy consumption and distribution. Wind converters, which are smart grid compatible, allow for the effective balancing and distribution of energy harvested through wind. As a result, there is improved incorporation of wind power into the existing and new energy grids, increasing grid dependability and supporting renewable energy deployment.
• Development of Offshore Wind Farms: The offshore wind farms can be viewed as a significant opportunity for expansion in the market for wind power converters. The United States, Germany, and Japan are increasing their offshore wind resources, and therefore, converters have to be customized to these new environments. The converters for offshore wind farms are required to function in more severe weather, greater water depths, and further distances from shore. More robust, efficient, and reliable wind power converter systems are needed to support these greater offshore wind farms, which will, in turn, increase investment and innovation into these segments.
• Integration of Energy Storage: Integration of energy storage provides an additional attractive area for the development of wind power converters. The asynchronous character of wind energy production necessitates the integration of battery storage systems with the converters themselves. This ensures that when the wind blows and there is high energy generation, excess energy can be stored, and when demand rises significantly above supply, energy can be released from storage. The combination of wind power converters with energy storage will ensure the reliability and consistency of wind power in areas with highly variable wind energy supply.
• Cost Cutbacks via New Technology: Refining the cost of the wind power converter systems can be a great growth opportunity. Modern technology innovation through newer and more efficient semiconductors, advanced materials, and cheaper manufacturing techniques can greatly reduce the expenses incurred on the converters. As wind power gets more economically favorable compared to holistic sources of energy, these reductions in cost will make it available for countries with weaker or developing renewable energy markets. This will increase the use of wind energy and create new opportunities for manufacturers of the converters.
• Greater functionality with artificial intelligence and machine learning: The use of artificial intelligence (AI) and machine learning in the wind power converter systems is a great opportunity for growth. AI and ML Technologies can enhance energy produced by utilizing predictive control of the wind, energy management, and real-time control of the system. This technology can increase the productivity of wind power converters, decrease their downtime, and improve the converters' ability to respond to dynamic conditions. Wind power converter technologies can be made more intelligent and responsive to wind. This will improve the energy performance of the device and the responsiveness of the converters.

The integration with smart grids, offshore wind farms, energy storage, reduction of costs, and AI technology is supported by these growth opportunities. Each one of these developments is critical in transforming the wind power converter system market. These changes will help enhance the efficiency, scalability, and affordability of wind energy while striving to meet global renewable energy objectives. The wind power converter system market is bound to develop further as these opportunities present themselves, leading to the emergence of innovation and new markets for renewable energy technologies across the globe.

Wind Power Converter System Market Driver and Challenges

There are many drivers and challenges concerning the Wind Power Converter System Market that affect the market. The wind power converter system market has been affected by numerous technological, economic, and political factors. Investments have been made in technological research, and now the converters have achieved higher performance and efficiency, which aids the viability of wind power. Economic factors, such as government incentives and subsidies, enable the expansion of renewable energy markets throughout the world. There are some important issues regarding cost, grid integration, and the uncertainty of wind energy that also need to be overcome. Understanding these components will explain the future of the wind power converter system market.

The factors responsible for driving the wind power converter system market include:

1. Progress in Technology: Developments in technology are essential accelerators of the wind power converter system market. Innovations in power electronics, semiconductors, and turbine converter design have led to new breakthroughs, increasing the effectiveness and dependability of wind turbines. Furthermore, the deployment of smart grid technologies as well as artificial intelligence (AI) is also enhancing the performance of the converters. These innovations enable the wind power converters to respond efficiently to fluctuations in the wind and the demands of the grid, which in turn enhances the penetration of wind energy into the national and regional grids.

2. Policy Drivers for Renewable Energy Sources: Regulatory and policy instruments directed towards renewable energy use have a positive impact on the increase in the wind power converter system market. All countries are adopting more rigid environmental rules and renewable energy goals. Fiscal Policies - tax credits, subsidies, as well as compulsory renewable energies - are meant to stimulate investments in wind power systems, including converters. Regulatory assistance not only promotes the construction of wind farms but also fosters the utilization of wind energy systems, thereby guaranteeing a constant market for dependable and effective power conversion systems.

3. Cost-Competitiveness of Wind Energy: The cost-competitiveness of wind energy is expected to rise as the demand for wind power converters increases. The price drop on wind turbines, along with the cheapening of wind energy systems, is increasing the overall feasibility of wind energy projects. Complementing technologies are continuing to emerge, which, in turn, lay the foundation for decreasing wind power converter costs. With everything said, both developed and emerging economies will be able to access wind energy. This transition towards cheaper renewable energy sources is predicted to additionally boost the demand for wind power converter systems.

4. Energy Storage Integration: Energy storage systems are equally important for lessening the discontinuity of wind energy, particularly when paired with wind power systems. They are also responsible for the growing trends within the market. Batteries, for instance, are an energy storage option that can store excess energy from high wind periods for times when there is low wind. With an increase in demand for more dependable and versatile power systems, the integration of energy storage will continue to be a powerful factor for wind power converters. This will alleviate concerns about energy reliability from wind sources, making the market increasingly appealing to investors and consumers.

5. Development of Wind Energy Offshore: The offshore segment in the wind power sector has the most rapid growth. Countries such as the US, Germany, and the UK, looking to exploit the potential of high offshore winds, possess a strong demand for offshore specialized wind power converter systems. These offshore wind converters have to withstand tough oceanic environments and longer-range transmissions. The development of offshore wind energy presents a significant opportunity for most converter manufacturers as these systems are essential for dependable and effective power generation.

Challenges in the wind power converter system market are:

1. Wind Energy's Constant Change: As with most forms of renewable energy, wind energy has a characteristic of constantly changing, so it is often not available for use at all times. The inconsistency of wind speed can make it difficult to integrate with the grid and depend on it for reliable energy. Wind power converter systems are constantly struggling to adapt to the ever-changing demand and supply of electricity. Alongside converters, integrated energy storage systems are being implemented to mitigate the concerns of less energy availability.

2. Grid Integrations and Infrastructure: Grid integration continues to be a fundamental barrier that challenges the wind power industry. Wind power converters have to be aligned with the existing capabilities of the grid infrastructure. In addition, integrating renewable energy sources into older grids is a problem, too. Smart grid systems as well as modern power electronic systems are being built to try to solve these problems, however, more work and money need to be put into the modernization of the grids for wind energy to be integrated with the existing grid systems at large scales.

3. High Initial Costs: The multifunctional nature of wind power converters and their allied costs in the context of wind turbine systems pose as daunting challenges, especially in developing economies. Slowly but surely, step by step, the price of wind power converters has begun to fall, but the return on investment is still challenging and troublesome. Cost of wind power systems is anticipated to reduce in correlation with improvement in technology and economies of scale, but the foremost hurdle remains securing finance and the challenges associated with the cost of deployment.

The wind power converter system market growth is being propelled by advancements in technology, government assistance, affordable pricing, the incorporation of energy storage systems, and the development of offshore wind farms. However, the volatile nature of wind energy, issues with grid integration, and the high costs of investment pose a challenge. Over time, as the industry expands and learns to deal with these obstacles, wind power converter systems will be crucial in advancing the global shift towards sustainable energy, and making wind energy a dependable and inexpensive option for renewable energy portfolios.

List of Wind Power Converter System Companies

Companies in the market compete on the basis of product quality offered. Major players in this market focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leverage integration opportunities across the value chain. With these strategies wind power converter system companies cater increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the wind power converter system companies profiled in this report include-

• ABB
• AMSC
• Siemens
• Emerson
• Vacon
• Schneider
• GE Power
• Switch
• Woodward
• Ingeteam

Wind Power Converter System Market by Segment

The study includes a forecast for the global wind power converter system market by type, application, and region.

Wind Power Converter System Market by Type [Value from 2019 to 2031]:

• Doubly-Fed
• Full Power

Wind Power Converter System Market by Application [Value from 2019 to 2031]:

• Offshore Wind Power
• Onshore Wind Power

Wind Power Converter System Market by Region [Value from 2019 to 2031]:

• North America
• Europe
• Asia Pacific
• The Rest of the World

Country Wise Outlook for the Wind Power Converter System Market

A significant change has been occurring in the wind power converter system market and various nations concerning their efforts to increase renewable energy consumption. This market segment is particularly important due to the shift towards new energy systems and the accelerated utilization of wind energy. Wind power converter systems are responsible for transforming the kinetic energy yielded from the wind into usable electricity, and their advancement in technology is crucial for increasing energy production. This development remains important to global governments and corporations that need to lessen their carbon footprint through sustainable living practices.

• US: The United States, on the other hand, has heavily optimized the deepwater wind power converters stationed on the East Coast, making tremendous improvements to the offshore wind power systems. AI integrated with wind energy systems allows for the balance of energy generation with storage solutions, ultimately increasing the country's share of wind energy used for power generation. In addition, storage solutions that aid in covering the recurrent energy generation gaps are being integrated with wind energy systems.
• China: Chinese companies have sought to become more affordable to accommodate the amount of new wind projects developed in the country, while the installation of wind power converters has been streamlined significantly. Alongside this, big data and AI have found a new use for themselves in energy conversion tasks in order to operate with maximum efficiency. China has taken large steps to remain one of the top countries investing in wind energy and has made strides to upgrade both onshore and offshore wind farms.
• Germany: Germany has long been a leader in renewable energy in Europe and is currently pushing the boundaries with new technologies for wind power converter systems. The country's goal of achieving a decarbonized economy has enhanced advances in wind converter technologies, particularly with regard to offshore wind farms. Germany is making large investments in grid connections and hybrid converter systems that help to control the flow of power generated from wind. More focus is being directed towards developing new, more effective, and dependable systems capable of addressing wind energy variability in order to make wind power more dependable and stable.
• India: India is one of the countries that has been rapidly expanding its renewable energy scope, especially in wind energy. The government has enacted certain provisions like specific auctions for wind projects and green house endeavors to promote wind energy. Wind power converter systems are being built in order to meet the enormous goals set by the country towards increasing renewable energy volume. India's national electricity grid focus also includes integration of these devices in the southern rural areas where there are abundant wind energy possibilities, but the grid backbone is weak.
• Japan: Japan is putting money into offshore wind power to further cut greenhouse gas emissions. The country has been working on improving wind power converter systems to increase the reliability and efficiency of offshore wind farms. Japan is also building investments in smart grids and advanced offshore wind converter technology to integrate offshore wind power into the national energy grid. As Japan and other countries continue the expansion of offshore wind farms, especially in Japan's waters, ensuring the successful implementation of these renewable energy projects will require efficient converter systems.

Features of the Global Wind Power Converter System Market

Market Size Estimates: Wind power converter system market size estimation in terms of value ($B).

Trend and Forecast Analysis: Market trends (2019 to 2024) and forecast (2025 to 2031) by various segments and regions.

Segmentation Analysis: Wind power converter system market size by type, application, and region in terms of value ($B).

Regional Analysis: Wind power converter system market breakdown by North America, Europe, Asia Pacific, and Rest of the World.

Growth Opportunities: Analysis of growth opportunities in different types, applications, and regions for the wind power converter system market.

Strategic Analysis: This includes M&A, new product development, and competitive landscape of the wind power converter system market.

Analysis of competitive intensity of the industry based on Porter's Five Forces model.

This report answers following 11 key questions:

• Q.1. What are some of the most promising, high-growth opportunities for the wind power converter system market by type (doubly-fed and full power), application (offshore wind power and onshore wind power), and region (North America, Europe, Asia Pacific, and the Rest of the World)?
• Q.2. Which segments will grow at a faster pace and why?
• Q.3. Which region will grow at a faster pace and why?
• Q.4. What are the key factors affecting market dynamics? What are the key challenges and business risks in this market?
• Q.5. What are the business risks and competitive threats in this market?
• Q.6. What are the emerging trends in this market and the reasons behind them?
• Q.7. What are some of the changing demands of customers in the market?
• Q.8. What are the new developments in the market? Which companies are leading these developments?
• Q.9. Who are the major players in this market? What strategic initiatives are key players pursuing for business growth?
• Q.10. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by material or product substitution?
• Q.11. What M&A activity has occurred in the last 5 years and what has its impact been on the industry?

Table of Contents

1. Executive Summary

2. Global Wind Power Converter System Market : Market Dynamics

• 2.1: Introduction, Background, and Classifications
• 2.2: Supply Chain
• 2.3: Industry Drivers and Challenges

3. Market Trends and Forecast Analysis from 2019 to 2031

• 3.1. Macroeconomic Trends (2019-2024) and Forecast (2025-2031)
• 3.2. Global Wind Power Converter System Market Trends (2019-2024) and Forecast (2025-2031)
• 3.3: Global Wind Power Converter System Market by Type
  • 3.3.1: Doubly-Fed
  • 3.3.2: Full Power
• 3.4: Global Wind Power Converter System Market by Application
  • 3.4.1: Offshore Wind Power
  • 3.4.2: Onshore Wind Power

4. Market Trends and Forecast Analysis by Region from 2019 to 2031

• 4.1: Global Wind Power Converter System Market by Region
• 4.2: North American Wind Power Converter System Market
  • 4.2.1: North American Market by Type: Doubly-Fed and Full Power
  • 4.2.2: North American Market by Application: Offshore Wind Power and Onshore Wind Power
• 4.3: European Wind Power Converter System Market
  • 4.3.1: European Market by Type: Doubly-Fed and Full Power
  • 4.3.2: European Market by Application: Offshore Wind Power and Onshore Wind Power
• 4.4: APAC Wind Power Converter System Market
  • 4.4.1: APAC Market by Type: Doubly-Fed and Full Power
  • 4.4.2: APAC Market by Application: Offshore Wind Power and Onshore Wind Power
• 4.5: ROW Wind Power Converter System Market
  • 4.5.1: ROW Market by Type: Doubly-Fed and Full Power
  • 4.5.2: ROW Market by Application: Offshore Wind Power and Onshore Wind Power

5. Competitor Analysis

• 5.1: Product Portfolio Analysis
• 5.2: Operational Integration
• 5.3: Porter's Five Forces Analysis

6. Growth Opportunities and Strategic Analysis

• 6.1: Growth Opportunity Analysis
  • 6.1.1: Growth Opportunities for the Global Wind Power Converter System Market by Type
  • 6.1.2: Growth Opportunities for the Global Wind Power Converter System Market by Application
  • 6.1.3: Growth Opportunities for the Global Wind Power Converter System Market by Region
• 6.2: Emerging Trends in the Global Wind Power Converter System Market
• 6.3: Strategic Analysis
  • 6.3.1: New Product Development
  • 6.3.2: Capacity Expansion of the Global Wind Power Converter System Market
  • 6.3.3: Mergers, Acquisitions, and Joint Ventures in the Global Wind Power Converter System Market
  • 6.3.4: Certification and Licensing

7. Company Profiles of Leading Players

• 7.1: ABB
• 7.2: AMSC
• 7.3: Siemens
• 7.4: Emerson
• 7.5: Vacon
• 7.6: Schneider
• 7.7: GE Power
• 7.8: Switch
• 7.9: Woodward
• 7.10: Ingeteam