시장보고서

상품코드

1808502

스마트 모터 시장 : 모터 유형, 전압, 정격 전력, 접속성, 최종 용도, 유통 채널별 - 세계 예측(2025-2030년)

Smart Motors Market by Motor Type, Voltage, Power Rating, Connectivity, End-use, Distribution Channel - Global Forecast 2025-2030

발행일: 2025년 08월 | 리서치사:

360iResearch | 페이지 정보: 영문 192 Pages | 배송안내 : 1-2일 (영업일 기준)

■ 보고서에 따라 최신 정보로 업데이트하여 보내드립니다. 배송일정은 문의해 주시기 바랍니다.

샘플 요청 목록에 추가

스마트 모터 시장은 2024년에는 21억 달러로 평가되었습니다. 2025년에는 22억 3,000만 달러에 이르고, CAGR 6.31%로 성장하여 2030년에는 30억 4,000만 달러에 달할 것으로 예측됩니다.

주요 시장 통계
기준 연도 : 2024년	21억 달러
추정 연도 : 2025년	22억 3,000만 달러
예측 연도 : 2030년	30억 4,000만 달러
CAGR(%)	6.31%

스마트 모터를 통해 지능형 모션의 힘을 발휘하여 산업 분야 전반에 걸쳐 차세대 자동화, 효율성 및 지속가능성을 촉진합니다.

센서의 통합, 연결성, 제어 시스템의 발전으로 스마트 모터는 큰 변화를 겪고 있습니다. 모터가 단순히 회전력을 제공하는 시대는 지났습니다. 최신 스마트 모터는 성능과 효율성을 최적화하기 위해 기계 설계와 실시간 데이터 처리를 결합하여 성능과 효율을 최적화합니다. 이러한 혁신은 임베디드 전자공학, 디지털 통신, 첨단 소프트웨어 알고리즘의 융합에 뿌리를 두고 있으며, 예지보전, 동적 속도 제어, 원활한 시스템 통합을 가능하게 합니다.

스마트 모터와 산업 자동화의 미래를 형성하는 IoT AI 전기화와 인더스트리 4.0의 파괴적 힘 이해하기

사물 인터넷 연결을 도입하여 모터와 중앙 제어 플랫폼 간의 실시간 통신이 가능해지면서 스마트 모터 환경이 재구축되었습니다. 표준화된 프로토콜과 엣지 컴퓨팅 기능을 통해 성능, 에너지 소비, 고장 진단에 관한 데이터가 공장 현장에서 원활하게 흐르도록 합니다. 이러한 연결성을 통해 시스템 상태를 보다 가시화하여 운영의 민첩성을 향상시킬 수 있습니다.

2025년 미국 스마트 모터 부품 수입관세 부과에 따른 경제 및 공급망 영향 분석

2025년 미국이 수입 모터 부품에 새로운 관세를 부과하는 것은 세계 공급망과 제조 전략의 중요한 축이 될 것입니다. 다양한 브러쉬리스 DC, AC, 서보 모터 부품에 관세가 적용됨에 따라 기업들은 가치사슬에 파급되는 상륙 비용 증가에 대비하고 있습니다. 모터 제조업체와 최종 사용자 모두 수익률 하락을 완화하고 경쟁력 있는 가격 책정을 유지하기 위해 조달 전략을 재검토하고 있습니다.

용도별 전략적 시장 세분화 모터의 유형 전력 등급별 유통 채널 및 최종 사용자 산업별 타겟 인사이트에 대한 전략적 시장 세분화

스마트 모터 수요는 다면적인 세분화를 통해 파악할 수 있으며, 제품 개발 및 시장 개척을 위한 전략을 세울 수 있습니다. 응용 분야를 고려할 때, 항공우주 및 방위 분야는 초 고신뢰성과 환경 복원력을 우선시하고, 자동차 산업은 전기자동차, 하이브리드 파워트레인, 기존 내연기관 자동차에 걸쳐 각각 다른 모터 제어 아키텍처를 요구합니다. 동시에 가전제품은 소형화 및 소음 감소에 중점을 두고, 헬스케어 장비는 정밀 모션 제어에 의존하며, 산업 자동화는 고속 서보 시스템을 통한 공장 자동화 및 연속적이고 무거운 토크 전달에 중점을 둔 공정 자동화에 중점을 둔 공정 자동화로 나뉩니다.

북미, 유럽, 중동 및 아프리카, 아시아태평양 스마트 모터 시장의 지역 역학 및 성장 촉진요인 매핑

미주 지역은 미국, 캐나다, 멕시코의 방대한 제조 거점에 힘입어 스마트 모터 채택을 주도하고 있습니다. 첨단 모터 솔루션에 대한 수요는 자동차 전동화, 항공우주 산업 현대화, 산업용 로봇에 대한 지속적인 투자에 의해 뒷받침되고 있습니다. 인프라 업그레이드 및 리쇼어링 이니셔티브에 대한 정부의 부양책은 다양한 분야에 지능형 모션 제어 시스템을 더욱 가속화할 것입니다.

경쟁 전략 해명 시장 발전를 주도하는 스마트 모터 주요 제조업체의 혁신적 파트너십과 리더십 동향 분석

스마트 모터 업계를 선도하는 기업들은 시장에서의 입지를 공고히 하고 혁신을 가속화하기 위해 다양한 전략을 채택하고 있습니다. 지멘스, ABB와 같은 다국적 대기업들은 센서 통합, 파워 일렉트로닉스, 디지털화 역량을 강화하는 타겟형 인수 및 합작투자를 통해 포트폴리오를 확장하고 있습니다. 이번 제휴를 통해 모터 단독뿐만 아니라 예지보전 플랫폼과 디지털 트윈 서비스를 포함한 종합적인 시스템 제공이 가능해졌습니다.

스마트 모터의 혁신을 활용하여 경쟁 우위를 강화하기 위해 업계 리더들에게 실행 가능한 전략적 제안을 제공합니다.

스마트 모터의 잠재력을 최대한 활용하고자 하는 업계 리더는 기술 혁신과 시장 역학을 일치시키는 일련의 전략적 이니셔티브를 추구해야 합니다. 모듈식 및 확장 가능한 모터 플랫폼 개발에 우선순위를 두어 중장비 산업 자동화에서 소형 가전제품에 이르기까지 다양한 용도 요구사항에 대한 신속한 커스터마이징을 가능하게 합니다. 개방형 통신 표준과 상호 운용 가능한 아키텍처를 채택하여 시스템 통합을 더욱 강화하고, 도입 시간과 총소유비용을 절감할 수 있습니다.

1차 인터뷰 2차 데이터 분석 및 엄격한 데이터 삼각측량 프로세스를 통합한 강력한 다단계 조사 방법론에 대한 자세한 내용

본 분석을 뒷받침하는 조사방법은 타당성과 포괄성을 확보하기 위해 1차 정보와 2차 정보를 모두 통합하고 있습니다. 업계 전문가, 거래처 상표권 제품 제조업체, 시스템 통합사업자와의 심층 인터뷰를 통해 수집된 1차적인 통찰력을 통해 새로운 트렌드, 기술 과제, 전략적 우선순위에 대한 생생한 관점을 제공했습니다. 이러한 정성적 의견은 주요 최종 사용 부문의 조달 관리자 및 유지보수 엔지니어를 대상으로 한 정량적 설문조사를 통해 보완되었습니다.

핵심 인사이트 요약 및 전략적 의사결정에 도움이 되는 스마트 모터 생태계의 새로운 기회와 과제에 대한 전망을 제시합니다.

요약: 스마트 모터 산업은 커넥티비티, 분석, 전동화의 발전이 업계 상황을 재구성하고 있으며, 매우 중요한 교차로에 서 있습니다. IoT 프로토콜과 인공지능의 융합으로 모터는 수동적인 부품에서 자가 진단과 적응 제어가 가능한 지능형 자산으로 승화되었습니다. 한편, 관세 정책의 변화와 지역의 성장 동력은 이해관계자들에게 공급망 전략과 제조 발자국을 재평가하도록 촉구하고 있습니다.

시장 점유율 분석, 2024
FPNV 포지셔닝 매트릭스, 2024
경쟁 분석
- ABB Ltd.
- AMETEK.Inc.
- Augury Inc.
- CG Power & Industrial Solutions Ltd.
- Changzhou Smart Automation Motor Manufacturing Co., Ltd.
- FUJI Electric Co. Ltd.
- General Electric Company
- HSD S.p.A.
- Innovation First International, Inc.
- Johnson Electric Holdings Limited
- Lenze SE
- Macnica, Inc.
- Moog Inc.
- Nidec Corporation
- Regal Rexnord Corporation
- Roboteq, Inc.
- RobotShop Inc.
- Rockwell Automation, Inc.
- Safran Group
- Schaeffler AG
- Schneider Electric SE
- Sick AG
- Siemens AG
- Toshiba Corporation
- Turntide Technologies Inc.
- WEG S.A.

제18장 리서치 AI

제19장 리서치 통계

제20장 리서치 컨택트

제21장 리서치 기사

제22장 부록

LSH 25.09.17

The Smart Motors Market was valued at USD 2.10 billion in 2024 and is projected to grow to USD 2.23 billion in 2025, with a CAGR of 6.31%, reaching USD 3.04 billion by 2030.

KEY MARKET STATISTICS
Base Year [2024]	USD 2.10 billion
Estimated Year [2025]	USD 2.23 billion
Forecast Year [2030]	USD 3.04 billion
CAGR (%)	6.31%

Unleashing the Power of Intelligent Motion Through Smart Motors to Drive Next-Generation Automation, Efficiency, and Sustainability Across Industrial Sectors

The smart motors landscape is undergoing a profound transformation driven by advances in sensor integration, connectivity, and control systems. Gone are the days when motors simply provided rotational force; modern smart motors fuse mechanical design with real time data processing to optimize performance and efficiency. These innovations are rooted in the convergence of embedded electronics, digital communications, and sophisticated software algorithms, enabling predictive maintenance, dynamic speed control, and seamless system integration.

As industries pursue higher productivity and lower operational costs, smart motors have emerged as vital enablers of Industry 4.0 initiatives. By embedding intelligence at the motor level, manufacturers can monitor vibration, temperature, and load conditions in real time, minimizing unplanned downtime and extending equipment lifespan. Furthermore, the integration of edge computing and cloud platforms facilitates remote diagnostics, firmware updates, and performance benchmarking across distributed assets.

The growing emphasis on sustainability and energy conservation has further propelled the adoption of smart motors. Through adaptive control strategies and energy recuperation features, these motors deliver significant reductions in power consumption and greenhouse gas emissions. As businesses navigate an increasingly competitive and environmentally conscious market, smart motors are poised to redefine operational excellence and catalyze the next wave of industrial innovation.

Regulatory pressures on emissions and government incentives for automation are also critical drivers. Consumer demand for greener products and the need for resilient supply chains have encouraged investment in intelligent motor systems. This dynamic environment underscores the strategic importance of smart motors in both legacy operations and emerging markets.

Collaboration between motor manufacturers, control system providers, and technology integrators is accelerating innovation. Strategic partnerships are facilitating the development of advanced communication protocols, including 5G enabled motor networks that support ultra low latency response and high data throughput. These alliances ensure seamless interoperability across diverse automation ecosystems while unlocking new opportunities for customized solutions and scalable deployments.

Understanding the Disruptive Forces of IoT AI Electrification and Industry 4.0 Shaping the Future of Smart Motors and Industrial Automation

Incorporation of Internet of Things connectivity has reshaped the smart motor environment by enabling real time communication between motors and centralized control platforms. Standardized protocols and edge computing capabilities ensure that data on performance, energy consumption, and fault diagnostics flow seamlessly across the factory floor. This connectivity drives greater visibility into system health and enhances operational agility.

Artificial intelligence and machine learning algorithms have become integral to smart motor functionality, transforming raw sensor outputs into actionable insights. Predictive maintenance routines leverage pattern recognition to forecast potential failures before they occur, reducing unscheduled downtime and maintenance costs. These intelligent analytics also empower adaptive control loops that continuously fine tune motor performance under varying load conditions.

The trend toward electrification is another transformative shift, with electric and hybrid vehicles demanding motors that deliver high torque density, compact form factors, and extended service life. Modular motor architectures and digital twin simulations are facilitating rapid prototyping, enabling engineers to test virtual models under diverse scenarios and accelerate time to market. Such capabilities enhance design flexibility and support custom configurations across multiple applications.

Environmental and regulatory imperatives are further driving innovation in sustainable materials, power electronics, and energy recovery systems. Advanced coatings and lightweight composites improve motor efficiency while reducing carbon footprints. Collectively, these technological currents are redefining the future of motion control and positioning smart motors at the heart of Industry 4.0 deployments.

Analyzing the Far-Reaching Economic and Supply Chain Consequences of the 2025 United States Tariffs on Imported Smart Motor Components

The imposition of new United States tariffs on imported motor components in 2025 has introduced a significant pivot point for global supply chains and manufacturing strategies. As duties take effect across a range of brushless DC, AC, and servo motor parts, companies are bracing for increased landed costs that will ripple through value chains. Motor manufacturers and end users alike are recalibrating procurement strategies to mitigate margin erosion and maintain competitive pricing.

In response to these tariff measures, several industry players have announced plans to relocate production capabilities or expand domestic assembly facilities. By establishing regional manufacturing hubs closer to critical end markets, businesses aim to reduce reliance on high-tariff imports and streamline logistics. At the same time, the redirection of raw material sourcing toward lower-tariff regions is creating new partnerships and reshaping vendor portfolios.

Despite these adjustments, some entities anticipate residual inflationary pressures as global suppliers pass on increased duties. The need to balance cost management with product quality and innovation is prompting advanced risk assessments and scenario planning. Alternative sourcing strategies, such as nearshoring in Mexico or Southeast Asia, are emerging as viable pathways to maintain supply continuity and access skilled labor pools.

Furthermore, these policy shifts have underscored the importance of transparent supplier relationships and robust contract structures. Long term agreements with clause provisions for tariff-related cost sharing are gaining traction, enabling buyers and suppliers to distribute financial risk more equitably. As the market adapts, strategic alliances and co-investment models are poised to play a critical role in maintaining product innovation and delivery timelines amid ongoing trade volatility.

Overall, the cumulative impact of the 2025 US tariffs is compelling stakeholders to adopt more agile supply chain architectures, invest in automation to offset higher operating expenses, and explore collaborative frameworks that enhance resilience in an evolving trade landscape.

Decoding Strategic Market Segmentation by Application Motor Type Power Rating Distribution Channels and End User Verticals for Targeted Insights

The landscape of smart motor demand can be understood through a multifaceted segmentation lens that informs tailored strategies for product development and market penetration. When examining applications, aerospace and defense sectors prioritize ultra-reliability and environmental resilience, while the automotive industry spans electric vehicles, hybrid powertrains, and legacy internal combustion vehicles, each demanding distinct motor control architectures. In parallel, consumer electronics emphasize miniaturization and noise reduction, healthcare equipment relies on precision motion control, and industrial automation bifurcates into factory automation with high-speed servo systems and process automation focusing on continuous, heavy-duty torque delivery.

Differentiation by motor type reveals unique value propositions: AC motors deliver robust performance in heavy machinery, DC variants offer cost-effective solutions for simple motion tasks, and brushless DC motors-available in inrunner and outrunner configurations-combine high torque density with low maintenance requirements, making them ideal for drones and robotic platforms. Meanwhile, servo motors in linear and rotary designs cater to advanced positioning applications, and stepper motors excel in open-loop control scenarios where precise, incremental movements are essential.

Power rating segmentation further refines market insights. High-power motors serve large-scale industrial equipment and electric propulsion, medium-power units address robotics and autonomous vehicles, and low-power drives underpin consumer appliances and portable devices. Distribution channel analysis shows that aftermarket services and direct sales foster close customer relationships, distributors-spanning traditional industrial wholesalers and digital online channels-enable broad market access, and OEM partnerships drive integrated solutions.

Finally, end-user categories highlight opportunities in home appliances, manufacturing-encompassing automotive manufacturing, electronics manufacturing, and food and beverage manufacturing-medical devices, advanced robotics, and transportation systems. Understanding the interplay of these dimensions empowers stakeholders to pinpoint growth pockets, optimize product portfolios, and deliver differentiated value propositions in the smart motor ecosystem.

Mapping Regional Dynamics and Growth Drivers Across the Americas Europe Middle East Africa and Asia Pacific Smart Motor Markets

The Americas region continues to lead in smart motor adoption, driven by expansive manufacturing bases in the United States, Canada, and Mexico. Demand for advanced motor solutions is buoyed by ongoing investments in automotive electrification, aerospace modernization, and industrial robotics. Government stimulus for infrastructure upgrades and reshoring initiatives further accelerates deployment of intelligent motion control systems across diverse sectors.

In Europe, Middle East, and Africa markets, stringent energy efficiency regulations and a strong focus on sustainable manufacturing are spurring adoption of smart motors. Key industrial hubs in Germany, France, and the United Kingdom amplify demand for high-precision and fail-safe motor systems, while emerging Middle East economies are investing in smart infrastructure projects. Concurrently, Africa's growing logistics and mining sectors present nascent opportunities for ruggedized automation solutions capable of withstanding harsh operating environments.

Asia-Pacific stands out as a dynamic growth engine, propelled by rapid industrialization and urbanization in China, Japan, India, and Southeast Asia. Chinese and Japanese OEMs are increasingly embedding sensors and real-time analytics into motor designs, while India's burgeoning electric vehicle industry underscores the need for compact, high-efficiency drives. Investments in smart factories across South Korea and Taiwan further highlight the region's commitment to Industry 4.0 transformation, positioning Asia-Pacific as a focal point for technology innovation and scale.

Uncovering Competitive Strategies Innovative Partnerships and Leadership Trends Among Leading Smart Motor Manufacturers Driving Market Evolution

Leading players in the smart motors landscape are employing diverse strategies to fortify market positions and accelerate innovation. Multinational conglomerates such as Siemens and ABB are expanding their portfolios through targeted acquisitions and joint ventures that enhance sensor integration, power electronics, and digitalization capabilities. These alliances allow for comprehensive system offerings that extend beyond standalone motors to include predictive maintenance platforms and digital twin services.

Emerging motor specialists like Nidec and Yaskawa Robotics have intensified R&D investments in brushless DC and servo motor lines, optimizing designs for higher torque density, reduced footprint, and improved energy efficiency. By collaborating with software providers, they are embedding machine learning modules directly into motor controllers, enabling real-time fault detection and adaptive performance tuning in critical applications.

At the same time, regional innovators are carving niche positions by focusing on localized manufacturing and supply chain agility. Several firms in North America and Asia have established specialized production centers dedicated to electric vehicle propulsion motors, while European companies are enhancing motor coatings and materials to meet stringent environmental standards. These initiatives underscore a broader trend toward vertical integration, wherein motor manufacturers collaborate closely with end-user industries to deliver customized, turnkey solutions.

Collectively, these competitive maneuvers reflect a market in which technical differentiation, strategic partnerships, and end-to-end service models are essential to maintain leadership. As the smart motor ecosystem evolves, companies that effectively blend core motor competencies with software and system integration will set the benchmark for future growth.

Providing Actionable Strategic Recommendations for Industry Leaders to Capitalize on Smart Motor Innovations and Strengthen Competitive Advantage

Industry leaders aiming to harness the full potential of smart motors must pursue a series of strategic initiatives that align technological innovation with market dynamics. Prioritizing the development of modular, scalable motor platforms will enable rapid customization to meet diverse application requirements, from heavy-duty industrial automation to compact consumer electronics. Embracing open communication standards and interoperable architectures can further enhance system integration, reducing deployment time and total cost of ownership.

Investment in advanced data analytics and digital twin capabilities is also imperative. By coupling real-time performance monitoring with simulation models, manufacturers can fine-tune motor behavior under varying load conditions, anticipate maintenance needs, and optimize energy consumption. These insights not only improve asset reliability but also support value-added service offerings, creating new revenue streams in aftermarket support.

To navigate evolving trade policies and tariff landscapes, establishing flexible supply chain frameworks is crucial. Strategies such as dual-sourcing of critical components, nearshoring production facilities, and negotiating tariff-adjustment clauses in supplier contracts can mitigate exposure to geopolitical uncertainties. Additionally, forging collaborative partnerships with system integrators and technology providers will accelerate innovation cycles and enable co-development of tailored motor solutions.

Finally, a customer-centric approach focused on education and service excellence will differentiate market participants. Providing interactive training, condition-based maintenance plans, and performance benchmarking dashboards fosters long-term client relationships and drives repeat business. Through these concerted actions, industry leaders can secure competitive advantages and lead the next chapter in the smart motors revolution.

Detailing a Robust Multi-Stage Research Methodology Incorporating Primary Interviews Secondary Data Analysis and Rigorous Data Triangulation Processes

The research approach underpinning this analysis integrates both primary and secondary data sources to ensure validity and comprehensiveness. Primary insights were gathered through in-depth interviews with industry experts, original equipment manufacturers, and system integrators, providing firsthand perspectives on emerging trends, technological challenges, and strategic priorities. These qualitative inputs were complemented by quantitative surveys targeting procurement managers and maintenance engineers in key end-use sectors.

Secondary research entailed a comprehensive review of technical white papers, trade journals, regulatory filings, and patent databases, offering historical context and detailed specifications of motor technologies. Publicly available financial reports, conference proceedings, and standards documentation were also examined to capture competitive dynamics, investment patterns, and compliance requirements. This multi-source approach delivers a robust foundation for market characterization and strategic analysis.

A rigorous data triangulation process was employed to reconcile discrepancies, validate assumptions, and enhance confidence in the findings. Cross-verification between primary feedback and secondary metrics allowed the identification of consistent market drivers and potential disruptions. Statistical techniques were applied to normalize data sets, while scenario analysis assessed the impact of macroeconomic variables such as tariff policy shifts and regional industrial policies.

Ethical considerations and data integrity protocols were strictly maintained throughout the research cycle. By combining methodological rigor with expert validation, this study offers a high-fidelity view of the smart motors ecosystem, equipping stakeholders with actionable insights to inform strategic decision-making.

Summarizing Core Insights and Looking Ahead at Emerging Opportunities and Challenges in the Smart Motor Ecosystem to Inform Strategic Decision-Making

In summary, the smart motor industry stands at a pivotal juncture, with advancements in connectivity, analytics, and electrification reshaping the landscape. The fusion of IoT protocols and artificial intelligence has elevated motors from passive components to intelligent assets capable of self-diagnosis and adaptive control. Meanwhile, tariff policy shifts and regional growth dynamics are driving stakeholders to reevaluate supply chain strategies and manufacturing footprints.

Deep segmentation analysis reveals that applications ranging from aerospace and defense to consumer electronics demand tailored motor solutions, while power rating and distribution channels further refine market entry approaches. Regional insights highlight distinct drivers in the Americas, Europe, Middle East, Africa, and Asia-Pacific, underscoring the need for localized strategies that address regulatory frameworks and infrastructure ecosystems.

Competitive positioning is increasingly influenced by strategic partnerships, vertical integration, and comprehensive service offerings that encompass digital twin technologies and predictive maintenance platforms. Industry leaders are urged to align product roadmaps with evolving customer expectations, invest in modular architectures, and leverage data-driven frameworks to unlock operational efficiencies.

Looking ahead, continuous innovation in materials science, edge computing, and power electronics will open new frontiers for smart motor applications, from autonomous vehicles to next-generation manufacturing cells. By anticipating market shifts and adopting agile, customer-centric approaches, organizations can capitalize on emerging opportunities and secure sustainable growth in the rapidly evolving smart motor ecosystem.

1. Preface

1.1. Objectives of the Study
1.2. Market Segmentation & Coverage
1.3. Years Considered for the Study
1.4. Currency & Pricing
1.5. Language
1.6. Stakeholders

2. Research Methodology

2.1. Define: Research Objective
2.2. Determine: Research Design
2.3. Prepare: Research Instrument
2.4. Collect: Data Source
2.5. Analyze: Data Interpretation
2.6. Formulate: Data Verification
2.7. Publish: Research Report
2.8. Repeat: Report Update

3. Executive Summary

4. Market Overview

4.1. Introduction
4.2. Market Sizing & Forecasting

5. Market Dynamics

5.1. Adoption of smart motor predictive maintenance systems using edge computing and real-time analytics
5.2. Deployment of wireless inductive charging modules for autonomous delivery robots in urban settings
5.3. Integration of AI-driven torque optimization algorithms for electric vehicle powertrains to improve efficiency and range
5.4. Emerging collaborations between motor manufacturers and semiconductor firms for advanced silicon carbide inverter modules
5.5. Development of ultra-high-speed hyperloop propulsion motors with cryogenic cooling for sustainable mass transit
5.6. Implementation of cybersecurity frameworks for networked industrial motors in smart factory automation

6. Market Insights

6.1. Porter's Five Forces Analysis
6.2. PESTLE Analysis

7. Cumulative Impact of United States Tariffs 2025

8. Smart Motors Market, by Motor Type

8.1. Introduction
8.2. AC Motors
8.3. DC Motors
- 8.3.1. Brushed DC Motors
- 8.3.2. Brushless DC Motors (BLDC)

9. Smart Motors Market, by Voltage

9.1. Introduction
9.2. High Voltage
9.3. Low Voltage
9.4. Medium Voltage

10. Smart Motors Market, by Power Rating

10.1. Introduction
10.2. 5 kW to 75 kW
10.3. Above 75 kW
10.4. Up to 5 kW

11. Smart Motors Market, by Connectivity

11.1. Introduction
11.2. Wired
11.3. Wireless

12. Smart Motors Market, by End-use

12.1. Introduction
12.2. Aerospace & Defense
12.3. Automotive
12.4. Consumer Electronics
12.5. Healthcare
12.6. Manufacturing & Industrial
- 12.6.1. Conveyor Systems
- 12.6.2. Factory Automation
- 12.6.3. HVAC Systems
- 12.6.4. Robotics & Material Handling
12.7. Mining & Metals
12.8. Oil & Gas
12.9. Renewable Energy

13. Smart Motors Market, by Distribution Channel

13.1. Introduction
13.2. Offline
13.3. Online

14. Americas Smart Motors Market

14.1. Introduction
14.2. United States
14.3. Canada
14.4. Mexico
14.5. Brazil
14.6. Argentina

15. Europe, Middle East & Africa Smart Motors Market

15.1. Introduction
15.2. United Kingdom
15.3. Germany
15.4. France
15.5. Russia
15.6. Italy
15.7. Spain
15.8. United Arab Emirates
15.9. Saudi Arabia
15.10. South Africa
15.11. Denmark
15.12. Netherlands
15.13. Qatar
15.14. Finland
15.15. Sweden
15.16. Nigeria
15.17. Egypt
15.18. Turkey
15.19. Israel
15.20. Norway
15.21. Poland
15.22. Switzerland

16. Asia-Pacific Smart Motors Market

16.1. Introduction
16.2. China
16.3. India
16.4. Japan
16.5. Australia
16.6. South Korea
16.7. Indonesia
16.8. Thailand
16.9. Philippines
16.10. Malaysia
16.11. Singapore
16.12. Vietnam
16.13. Taiwan

17. Competitive Landscape

17.1. Market Share Analysis, 2024
17.2. FPNV Positioning Matrix, 2024
17.3. Competitive Analysis
- 17.3.1. ABB Ltd.
- 17.3.2. AMETEK.Inc.
- 17.3.3. Augury Inc.
- 17.3.4. CG Power & Industrial Solutions Ltd.
- 17.3.5. Changzhou Smart Automation Motor Manufacturing Co., Ltd.
- 17.3.6. FUJI Electric Co. Ltd.
- 17.3.7. General Electric Company
- 17.3.8. HSD S.p.A.
- 17.3.9. Innovation First International, Inc.
- 17.3.10. Johnson Electric Holdings Limited
- 17.3.11. Lenze SE
- 17.3.12. Macnica, Inc.
- 17.3.13. Moog Inc.
- 17.3.14. Nidec Corporation
- 17.3.15. Regal Rexnord Corporation
- 17.3.16. Roboteq, Inc.
- 17.3.17. RobotShop Inc.
- 17.3.18. Rockwell Automation, Inc.
- 17.3.19. Safran Group
- 17.3.20. Schaeffler AG
- 17.3.21. Schneider Electric SE
- 17.3.22. Sick AG
- 17.3.23. Siemens AG
- 17.3.24. Toshiba Corporation
- 17.3.25. Turntide Technologies Inc.
- 17.3.26. WEG S.A.

스마트 모터 시장 : 모터 유형, 전압, 정격 전력, 접속성, 최종 용도, 유통 채널별 - 세계 예측(2025-2030년)

Smart Motors Market by Motor Type, Voltage, Power Rating, Connectivity, End-use, Distribution Channel - Global Forecast 2025-2030

스마트 모터를 통해 지능형 모션의 힘을 발휘하여 산업 분야 전반에 걸쳐 차세대 자동화, 효율성 및 지속가능성을 촉진합니다.

스마트 모터와 산업 자동화의 미래를 형성하는 IoT AI 전기화와 인더스트리 4.0의 파괴적 힘 이해하기

2025년 미국 스마트 모터 부품 수입관세 부과에 따른 경제 및 공급망 영향 분석

용도별 전략적 시장 세분화 모터의 유형 전력 등급별 유통 채널 및 최종 사용자 산업별 타겟 인사이트에 대한 전략적 시장 세분화

북미, 유럽, 중동 및 아프리카, 아시아태평양 스마트 모터 시장의 지역 역학 및 성장 촉진요인 매핑

경쟁 전략 해명 시장 발전를 주도하는 스마트 모터 주요 제조업체의 혁신적 파트너십과 리더십 동향 분석

스마트 모터의 혁신을 활용하여 경쟁 우위를 강화하기 위해 업계 리더들에게 실행 가능한 전략적 제안을 제공합니다.

1차 인터뷰 2차 데이터 분석 및 엄격한 데이터 삼각측량 프로세스를 통합한 강력한 다단계 조사 방법론에 대한 자세한 내용

핵심 인사이트 요약 및 전략적 의사결정에 도움이 되는 스마트 모터 생태계의 새로운 기회와 과제에 대한 전망을 제시합니다.

목차

제1장 서문

제2장 조사 방법

제3장 주요 요약

제4장 시장 개요

제5장 시장 역학

제6장 시장 인사이트

제7장 미국 관세의 누적 영향 2025

제8장 스마트 모터 시장 모터 유형별

제9장 스마트 모터 시장 : 전압별

제10장 스마트 모터 시장 : 정격 출력별

제11장 스마트 모터 시장 : 접속성별

제12장 스마트 모터 시장 : 최종 용도별

제13장 스마트 모터 시장 : 유통 채널별

제14장 아메리카의 스마트 모터 시장

제15장 유럽, 중동 및 아프리카의 스마트 모터 시장

제16장 아시아태평양의 스마트 모터 시장

제17장 경쟁 구도