
Global Energy Efficient Motor Market
Description
MARKET SCOPE:
The global energy efficient motor market is projected to grow significantly, registering a CAGR of 5.6% during the forecast period (2025 – 2034).
The energy efficient motors market is driven by increased demand for energy efficiency in the industrial, commercial, and residential sectors. As energy costs rise and environmental concerns grow, organizations are increasingly adopting energy-efficient motors to reduce operational costs and meet energy targets. Legislation and governmental support for energy efficiency through programs, regulations, incentives, and certifications, such as governing policies, standards, and certifications (IEC 60034-30), is positively affecting the energy efficient motors market. The commercialization of technology like variable frequency drives (VFDs) and smart motor control systems which deliver heightened performance and energy efficiency, in many applications, particularly in HVAC, pumps, and materials handling, will continue to spur growth in the energy efficient motors market.
Another possible driver is the ongoing emphasis on carbon footprints and the necessity to meet increasingly strict environmental regulations. The automobile, manufacturing, and oil and gas sectors are some of the earliest to integrate energy-efficient motors into business practices, although sectors like agriculture, mining, and construction sectors are trending toward energy-efficient motors as well. Changes to motor designs and materials have ushered in motors that can perform better with lower energy use, opening up opportunities to penetrate the wider energy efficient motors market. The growth of renewable energy resources, like wind, solar, and higher electrical generation techniques is increasing demand for motors due to renewable electric generation and distribution systems.
MARKET OVERVIEW:
Driver: Growing Demand for Energy Cost Reductions in Industrial Sectors
The increasing need to reduce energy costs across industrial sectors is a major driving force behind the energy-efficient motor market, with government efforts to lower energy use and operational expenses gaining momentum. Industrial energy prices continue to escalate globally, putting increased pressure on industries to become more energy efficient in terms of performance and consumption. Energy-efficient motors provide businesses with an opportunity to save substantial operational costs through reduced power consumption and increased efficiency without sacrificing performance. In certain sectors, such as manufacturing (steel, automotive, food, etc.), mining, and HVAC, energy savings can lead to substantial electricity cost reductions that act as an appeal to a 'correct-value' decision.
Furthermore, with growing governmental demands around environmental regulations, energy-efficient motors provide better options for businesses to comply with sustainability expectations while benefiting their corporate image. These perspectives and changes towards conservation shift the demand for better energy-efficient designs within the energy-efficient motors and give the market the ability to grow.
Restraint: High Initial Investment Cost of Energy Efficient Motors
The high upfront cost of energy-efficient motors limits their widespread adoption, despite potential long-term energy savings. Energy efficient motors must be comparatively costly to purchase due to sophisticated designs, advanced materials, and integrated technologies that maximize efficiency. These higher purchase and installation costs present a formidable barrier for many firms - especially small and medium-sized enterprises (SMEs). While there promises significant savings in the long run, the initial expenditure is still substantial, especially in price-sensitive regions or sectors. Ultimately, the cost barrier posed by initial purchase and installation costs impeded the rate of adoption before users will begin to realize the financial and environmental savings.
Opportunity: Integration with IoT and Smart Technologies
The integration of energy-efficient motors with smart technologies, as part of the broader evolution of IoT into industrial applications, presents a valuable opportunity for the market. IoT and artificial intelligence (AI) technologies are rapidly emerging in the field of industrial automation. The attached efficiency achieved will help to create opportunities for even greater motor efficiency. For example, IoT connected motors can send and receive real-time performance data on energy consumption, maintenance needs, and operating conditions allowing for adjustments to be made before inefficiencies manifest. Furthermore, predictive maintenance is enabled with real-time performance data and AI models of performance and/or energy consumption can be analyzed to optimize the motion element's overall energy efficiency. Largely historical retro-fitted installed energy efficiency implementations figure show for many companies reduced energy and efficiency costs on elements of delivery and the need for greater efficiencies on the sustainable side of motion are researchers' perfect opportunity. Automation of future industries and data driven decision making is the likely next wave and IoT connected, energy efficient motors are here to stay and future growth opportunity.
SEGMENTATION ANALYSIS:
The AC Motors Segment is anticipated to grow significantly during the forecast period
The energy-efficient motor market is expected to see substantial growth during the forecast period, with AC motors remaining the dominant type. AC motors are widely adopted across various industrial applications, including HVAC systems, pumps, compressors, and material handling, due to their efficiency and durability. As industries focus on reducing energy consumption and operational costs, the demand for energy-efficient AC motors is expected to rise. Additionally, the integration of advanced technologies like variable frequency drives (VFDs) is enhancing their efficiency, further strengthening their market presence. The growing emphasis on sustainability and energy conservation is driving the widespread adoption of AC motors, ensuring continued market dominance.
REGIONAL ANALYSIS:
The Asia Pacific region is set to witness significant growth during the forecast period
The Asia Pacific region is expected to lead the energy-efficient motor market throughout the forecast period, due to rapid industrialization, urbanization, and government initiatives that emphasize energy efficiency. China, India, and Japan are consequences of many contributors to the energy efficient motor market, with a focus in their respective industries, to mitigate energy consumption and improve operational costs, has positively impacted each market in the respective region. The demand for energy efficient motors is expected to grow significantly based on the manufacturing, automotive, and power generation industries. The emphasis on energy efficiency is backed up by governmental policies towards energy efficiency, for example, India's energy savings programs and China's ecological development/protection policies have been impactful in aiding the shift towards energy efficient alternatives.
In contrast, North America is becoming known as the fastest-growing region in the energy-efficient motor market, which is attributed to several factors including technological developments, stricter regulations surrounding environmentally friendly solutions, and increasing awareness of sustainability. The United States and Canada have both taken a leading role in adopting energy efficient motors in manufacturing, commercial buildings, and on-road transportation. The rise of smart technologies including the Internet of Things (IoT), artificial intelligence (AI) in conjunction with the adoption of sustainable strategies focused on their carbon footprint has provided a significant push on energy efficient solutions. Furthermore, the rise of governmental policies pushing energy conservation, and industries investing in technologies available that are aimed towards sustainability only highlight and increase the shift toward energy efficient technologies.
COMPETITIVE ANALYSIS:
The global energy efficient motor market is reasonably competitive with mergers, acquisitions, and product launches. See some of the major key players in the market.
Mitsubishi
Havells
Crompton
GE
ABB
Siemens
Johnson Electric
Rockwell Automation
Toshiba
Kirloskar
Nidec Corporation
Regal Rexnord
Recent Development:
In January 2025, Nidec Corporation introduced the PrecisionFlow™ motor, an extremely efficient Electronically Commutated Motor (ECM) that delivers up to 85 percent efficiency.
In April 2024, ABB India unveiled its new IEC Low Voltage IE4 cast iron super premium efficiency motors in 71-132 frame sizes, along with IE3 Aluminum Motors in 71–90 frame sizes.
In September 2023, Regal Rexnord Corporation announced it had agreed to sell its Industrial Motors and Generators businesses, which constituted the majority of its Industrial Systems segment, to the Brazilian company WEG for US$400 million.
SCOPE OF THE REPORT:
By Product Type
It provides a technological development map over time to understand the industry’s growth rate and indicates how the energy efficient motor market is evolving.
The report offers a dynamic method to various factors that drive or restrain the growth of the market and specifies which energy efficient motor submarket will be the main driver of the overall market from 2025 to 2034.
It renders a definite analysis of changing competitive dynamics and stipulates the leading players and what are their prospects over the forecast period.
It builds a nine-year estimate based on how the market is predicted to grow and shows what will market shares of the global region change by 2034 and which country will lead the market in 2034.
The global energy efficient motor market is projected to grow significantly, registering a CAGR of 5.6% during the forecast period (2025 – 2034).
The energy efficient motors market is driven by increased demand for energy efficiency in the industrial, commercial, and residential sectors. As energy costs rise and environmental concerns grow, organizations are increasingly adopting energy-efficient motors to reduce operational costs and meet energy targets. Legislation and governmental support for energy efficiency through programs, regulations, incentives, and certifications, such as governing policies, standards, and certifications (IEC 60034-30), is positively affecting the energy efficient motors market. The commercialization of technology like variable frequency drives (VFDs) and smart motor control systems which deliver heightened performance and energy efficiency, in many applications, particularly in HVAC, pumps, and materials handling, will continue to spur growth in the energy efficient motors market.
Another possible driver is the ongoing emphasis on carbon footprints and the necessity to meet increasingly strict environmental regulations. The automobile, manufacturing, and oil and gas sectors are some of the earliest to integrate energy-efficient motors into business practices, although sectors like agriculture, mining, and construction sectors are trending toward energy-efficient motors as well. Changes to motor designs and materials have ushered in motors that can perform better with lower energy use, opening up opportunities to penetrate the wider energy efficient motors market. The growth of renewable energy resources, like wind, solar, and higher electrical generation techniques is increasing demand for motors due to renewable electric generation and distribution systems.
MARKET OVERVIEW:
Driver: Growing Demand for Energy Cost Reductions in Industrial Sectors
The increasing need to reduce energy costs across industrial sectors is a major driving force behind the energy-efficient motor market, with government efforts to lower energy use and operational expenses gaining momentum. Industrial energy prices continue to escalate globally, putting increased pressure on industries to become more energy efficient in terms of performance and consumption. Energy-efficient motors provide businesses with an opportunity to save substantial operational costs through reduced power consumption and increased efficiency without sacrificing performance. In certain sectors, such as manufacturing (steel, automotive, food, etc.), mining, and HVAC, energy savings can lead to substantial electricity cost reductions that act as an appeal to a 'correct-value' decision.
Furthermore, with growing governmental demands around environmental regulations, energy-efficient motors provide better options for businesses to comply with sustainability expectations while benefiting their corporate image. These perspectives and changes towards conservation shift the demand for better energy-efficient designs within the energy-efficient motors and give the market the ability to grow.
Restraint: High Initial Investment Cost of Energy Efficient Motors
The high upfront cost of energy-efficient motors limits their widespread adoption, despite potential long-term energy savings. Energy efficient motors must be comparatively costly to purchase due to sophisticated designs, advanced materials, and integrated technologies that maximize efficiency. These higher purchase and installation costs present a formidable barrier for many firms - especially small and medium-sized enterprises (SMEs). While there promises significant savings in the long run, the initial expenditure is still substantial, especially in price-sensitive regions or sectors. Ultimately, the cost barrier posed by initial purchase and installation costs impeded the rate of adoption before users will begin to realize the financial and environmental savings.
Opportunity: Integration with IoT and Smart Technologies
The integration of energy-efficient motors with smart technologies, as part of the broader evolution of IoT into industrial applications, presents a valuable opportunity for the market. IoT and artificial intelligence (AI) technologies are rapidly emerging in the field of industrial automation. The attached efficiency achieved will help to create opportunities for even greater motor efficiency. For example, IoT connected motors can send and receive real-time performance data on energy consumption, maintenance needs, and operating conditions allowing for adjustments to be made before inefficiencies manifest. Furthermore, predictive maintenance is enabled with real-time performance data and AI models of performance and/or energy consumption can be analyzed to optimize the motion element's overall energy efficiency. Largely historical retro-fitted installed energy efficiency implementations figure show for many companies reduced energy and efficiency costs on elements of delivery and the need for greater efficiencies on the sustainable side of motion are researchers' perfect opportunity. Automation of future industries and data driven decision making is the likely next wave and IoT connected, energy efficient motors are here to stay and future growth opportunity.
SEGMENTATION ANALYSIS:
The AC Motors Segment is anticipated to grow significantly during the forecast period
The energy-efficient motor market is expected to see substantial growth during the forecast period, with AC motors remaining the dominant type. AC motors are widely adopted across various industrial applications, including HVAC systems, pumps, compressors, and material handling, due to their efficiency and durability. As industries focus on reducing energy consumption and operational costs, the demand for energy-efficient AC motors is expected to rise. Additionally, the integration of advanced technologies like variable frequency drives (VFDs) is enhancing their efficiency, further strengthening their market presence. The growing emphasis on sustainability and energy conservation is driving the widespread adoption of AC motors, ensuring continued market dominance.
REGIONAL ANALYSIS:
The Asia Pacific region is set to witness significant growth during the forecast period
The Asia Pacific region is expected to lead the energy-efficient motor market throughout the forecast period, due to rapid industrialization, urbanization, and government initiatives that emphasize energy efficiency. China, India, and Japan are consequences of many contributors to the energy efficient motor market, with a focus in their respective industries, to mitigate energy consumption and improve operational costs, has positively impacted each market in the respective region. The demand for energy efficient motors is expected to grow significantly based on the manufacturing, automotive, and power generation industries. The emphasis on energy efficiency is backed up by governmental policies towards energy efficiency, for example, India's energy savings programs and China's ecological development/protection policies have been impactful in aiding the shift towards energy efficient alternatives.
In contrast, North America is becoming known as the fastest-growing region in the energy-efficient motor market, which is attributed to several factors including technological developments, stricter regulations surrounding environmentally friendly solutions, and increasing awareness of sustainability. The United States and Canada have both taken a leading role in adopting energy efficient motors in manufacturing, commercial buildings, and on-road transportation. The rise of smart technologies including the Internet of Things (IoT), artificial intelligence (AI) in conjunction with the adoption of sustainable strategies focused on their carbon footprint has provided a significant push on energy efficient solutions. Furthermore, the rise of governmental policies pushing energy conservation, and industries investing in technologies available that are aimed towards sustainability only highlight and increase the shift toward energy efficient technologies.
COMPETITIVE ANALYSIS:
The global energy efficient motor market is reasonably competitive with mergers, acquisitions, and product launches. See some of the major key players in the market.
Mitsubishi
Havells
Crompton
GE
ABB
Siemens
Johnson Electric
Rockwell Automation
Toshiba
Kirloskar
Nidec Corporation
Regal Rexnord
Recent Development:
In January 2025, Nidec Corporation introduced the PrecisionFlow™ motor, an extremely efficient Electronically Commutated Motor (ECM) that delivers up to 85 percent efficiency.
In April 2024, ABB India unveiled its new IEC Low Voltage IE4 cast iron super premium efficiency motors in 71-132 frame sizes, along with IE3 Aluminum Motors in 71–90 frame sizes.
In September 2023, Regal Rexnord Corporation announced it had agreed to sell its Industrial Motors and Generators businesses, which constituted the majority of its Industrial Systems segment, to the Brazilian company WEG for US$400 million.
SCOPE OF THE REPORT:
By Product Type
- DC Motor
- AC Motor
- IE1 (Standard Efficiency)
- IE2 (High Efficiency)
- IE3 (Premium Efficiency)
- IE4 (Super Premium Efficiency)
- Pumps
- Fans
- Material Handling
- Material Processing
- Compressor
- Refrigeration
- Others
- Agriculture
- Transportation
- Residential
- Industrial
- Commercial
- Others
- North America (United States & Canada)
- Europe (Germany, UK, France, Spain, Italy and Rest of Europe)
- Asia-Pacific (China, Japan, India, South Korea, Australia and Rest of Asia-Pacific)
- Latin America (Brazil, Mexico, Argentina and Rest of Latin America)
- Middle East & Africa (Saudi Arabia, UAE, Israel, South Africa and Rest of Middle East and Africa)
It provides a technological development map over time to understand the industry’s growth rate and indicates how the energy efficient motor market is evolving.
The report offers a dynamic method to various factors that drive or restrain the growth of the market and specifies which energy efficient motor submarket will be the main driver of the overall market from 2025 to 2034.
It renders a definite analysis of changing competitive dynamics and stipulates the leading players and what are their prospects over the forecast period.
It builds a nine-year estimate based on how the market is predicted to grow and shows what will market shares of the global region change by 2034 and which country will lead the market in 2034.
Table of Contents
202 Pages
- 1. Executive Summary
- 1.1. Market Snapshot
- 1.2. Global Energy Efficient Motor Market - Regional Analysis
- 1.3. Global Energy Efficient Motor Market - Segment Analysis
- 1.3.1. Global Energy Efficient Motor Market, By Product Type
- 1.3.2. Global Energy Efficient Motor Market, By Efficiency Level
- 1.3.3. Global Energy Efficient Motor Market, By Application
- 1.3.4. Global Energy Efficient Motor Market, By End-user
- 2. Overview And Scope
- 2.1. Market Vision
- 2.1.1. Market Definition
- 2.2. Market Segmentation
- 3. Global Energy Efficient Motor Market Overview, By Region: 2020 Vs 2025 Vs 2034
- 3.1. Global Energy Efficient Motor Market, By Region (2020 Vs 2025 Vs 2034)
- 3.2. North Energy Efficient Motor Market, By Country (2020 Vs 2025 Vs 2034)
- 3.3. Europe Energy Efficient Motor Market, By Country (2020 Vs 2025 Vs 2034)
- 3.4. Asia-pacific Energy Efficient Motor Market, By Country (2020 Vs 2025 Vs 2034)
- 3.5. Latin America Energy Efficient Motor Market, By Country (2020 Vs 2025 Vs 2034)
- 3.6. Middle East & Africa Energy Efficient Motor Market, By Country (2020 Vs 2025 Vs 2034)
- 4. Global Energy Efficient Motor Market Dynamics
- 4.1. Market Overview
- 4.1.1. Market Drivers
- 4.1.1.1. Market Driver 1
- 4.1.1.2. Market Drivers 2
- 4.1.2. Market Restraints/ Challenges Analysis
- 4.1.2.1. Market Restraints/ Challenges Analysis 1
- 4.1.2.2. Market Restraints/ Challenges Analysis 2
- 4.1.3. Market Opportunities
- 4.1.3.1. Market Opportunities 1
- 4.1.3.2. Market Opportunities 2
- 4.2. Pestle Analysis
- 4.2.1. Political Factors
- 4.2.2. Economic Factors
- 4.2.3. Social Factors
- 4.2.4. Technological Factors
- 4.2.5. Legal Factors
- 4.2.6. Environmental Factors
- 4.3. Value Chain Analysis/Supply Chain Analysis
- 4.4. Porter’s Five Forces Model
- 4.4.1. Bargaining Power Of Suppliers
- 4.4.2. Bargaining Power Of Buyers
- 4.4.3. The Threat Of New Entrants
- 4.4.4. Threat Of Substitutes
- 4.4.5. Intensity Of Rivalry
- 4.5. Covid-19 Impact Analysis On Global Energy Efficient Motor Market
- ** In – Depth Qualitative Analysis Will Be Provided In The Final Report Subject To Market
- 5. Global Energy Efficient Motor Market, By Product Type
- 5.1. Overview
- 5.2. Global Energy Efficient Motor Market By Product Type (2020 - 2034) (Usd Million)
- 5.3. Key Findings For Energy Efficient Motor Market - By Product Type
- 5.3.1. Dc Motor
- 5.3.2. Ac Motor
- 6. Global Energy Efficient Motor Market, By Efficiency Level
- 6.1. Overview
- 6.2. Global Energy Efficient Motor Market By Efficiency Level (2020 - 2034) (Usd Million)
- 6.3. Key Findings For Energy Efficient Motor Market - By Efficiency Level
- 6.3.1. Ie1 (Standard Efficiency)
- 6.3.2. Ie2 (High Efficiency)
- 6.3.3. Ie3 (Premium Efficiency)
- 6.3.4. Ie4 (Super Premium Efficiency)
- 7. Global Energy Efficient Motor Market, By Application
- 7.1. Overview
- 7.2. Global Energy Efficient Motor Market By Application (2020 - 2034) (Usd Million)
- 7.3. Key Findings For Energy Efficient Motor Market - By Application
- 7.3.1. Pumps
- 7.3.2. Fans
- 7.3.3. Material Handling
- 7.3.4. Material Processing
- 7.3.5. Compressor
- 7.3.6. Refrigeration
- 7.3.7. Others
- 8. Global Energy Efficient Motor Market, By End-user
- 8.1. Overview
- 8.2. Global Energy Efficient Motor Market By End-user (2020 - 2034) (Usd Million)
- 8.3. Key Findings For Energy Efficient Motor Market - By End-user
- 8.3.1. Agriculture
- 8.3.2. Transportation
- 8.3.3. Residential
- 8.3.4. Industrial
- 8.3.5. Commercial
- 8.3.6. Others
- 9. Global Energy Efficient Motor Market, By Region
- 9.1. Overview
- 9.2. Global Energy Efficient Motor Market, By Region (2020 - 2034) (Usd Million)
- 9.3. Key Findings For Energy Efficient Motor Market- By Region
- 9.4. Global Energy Efficient Motor Market, By Product Type
- 9.5. Global Energy Efficient Motor Market, By Efficiency Level
- 9.6. Global Energy Efficient Motor Market, By Application
- 9.7. Global Energy Efficient Motor Market, By End-user
- 10. Global Energy Efficient Motor Market- North America
- 10.1. Overview
- 10.2. North America Energy Efficient Motor Market (2020 - 2034) (Usd Million)
- 10.3. North America Energy Efficient Motor Market, By Product Type
- 10.4. North America Energy Efficient Motor Market, By Efficiency Level
- 10.5. North America Energy Efficient Motor Market, By Application
- 10.6. North America Energy Efficient Motor Market, By End-user
- 10.7. North America Energy Efficient Motor Market By Country
- 10.7.1. United States
- 10.7.2. Canada
- 11. Global Energy Efficient Motor Market- Europe
- 11.1. Overview
- 11.2. Europe Energy Efficient Motor Market (2020 - 2034) (Usd Million)
- 11.3. Europe Energy Efficient Motor Market, By Product Type
- 11.4. Europe Energy Efficient Motor Market, By Efficiency Level
- 11.5. Europe Energy Efficient Motor Market, By Application
- 11.6. Europe Energy Efficient Motor Market, By End-user
- 11.7. Europe Energy Efficient Motor Market By Country
- 11.7.1. Germany
- 11.7.2. Uk
- 11.7.3. France
- 11.7.4. Spain
- 11.7.5. Italy
- 11.7.6. Rest Of Europe
- 12. Global Energy Efficient Motor Market - Asia-pacific
- 12.1. Overview
- 12.2. Asia-pacific Energy Efficient Motor Market (2020 - 2034) (Usd Million)
- 12.3. Asia-pacific Energy Efficient Motor Market, By Product Type
- 12.4. Asia-pacific Energy Efficient Motor Market, By Efficiency Level
- 12.5. Asia-pacific Energy Efficient Motor Market, By Application
- 12.6. Asia-pacific Energy Efficient Motor Market, By End-user
- 12.7. Asia-pacific Energy Efficient Motor Market By Country
- 12.7.1. China
- 12.7.2. Japan
- 12.7.3. India
- 12.7.4. South Korea
- 12.7.5. Australia
- 12.7.6. Rest Of Asia-pacific
- 13. Global Energy Efficient Motor Market- Latin America
- 13.1. Overview
- 13.2. Latin America Energy Efficient Motor Market (2020 - 2034) (Usd Million)
- 13.3. Latin America Energy Efficient Motor Market, By Product Type
- 13.4. Latin America Energy Efficient Motor Market, By Efficiency Level
- 13.5. Latin America Energy Efficient Motor Market, By Application
- 13.6. Latin America Energy Efficient Motor Market, By End-user
- 13.7. Latin America Energy Efficient Motor Market By Country
- 13.7.1. Brazil
- 13.7.2. Mexico
- 13.7.3. Argentina
- 13.7.4. Rest Of Latin America
- 14. Global Energy Efficient Motor Market- Middle East & Africa
- 14.1. Overview
- 14.2. Middle East & Africa Energy Efficient Motor Market Size (2020 - 2034) (Usd Million)
- 14.3. Middle East & Africa Energy Efficient Motor Market, By Product Type
- 14.4. Middle East & Africa Energy Efficient Motor Market, By Efficiency Level
- 14.5. Middle East & Africa Energy Efficient Motor Market, By Application
- 14.6. Middle East & Africa Energy Efficient Motor Market, By End-user
- 14.7. Middle East & Africa Energy Efficient Motor Market, By Country
- 14.7.1. Saudi Arabia
- 14.7.2. Uae
- 14.7.3. Israel
- 14.7.4. South Africa
- 14.7.5. Rest Of Middle East & Africa
- 15. Global Energy Efficient Motor Market- Competitive Landscape
- 15.1. Key Competitive Analysis
- 15.2. Key Strategies Adopted By The Leading Players
- 15.3. Global Energy Efficient Motor Market Competitive Positioning
- 15.3.1. Important Performers
- 15.3.2. Emerging Innovators
- 15.3.3. Market Players With Moderate Innovation
- 16. Global Energy Efficient Motor Market- Company Profiles
- 16.1. Mitsubishi
- 16.1.1. Corporate Summary
- 16.1.2. Corporate Financial Review
- 16.1.3. Product Portfolio
- 16.1.4. Key Development
- 16.2. Havells
- 16.3. Crompton
- 16.4. Ge
- 16.5. Abb
- 16.6. Siemens
- 16.7. Johnson Electric
- 16.8. Rockwell Automation
- 16.9. Toshiba
- 16.10. Kirloskar
- 16.11. Nidec Corporation
- 16.12. Regal Rexnord
- 17. Our Research Methodology
- 17.1. Our Research Practice
- 17.2. Data Source
- 17.2.1. Secondary Source
- 17.2.2. Primary Source
- 17.3. Data Assumption
- 17.4. Analytical Framework For Market Assessment And Forecasting
- 17.5. Our Research Process
- 17.6. Data Validation And Publishing (Secondary Source)
- 18. Appendix
- 18.1. Disclaimer
- 18.2. Contact Us
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