Dublin, Sept. 02, 2022 (GLOBE NEWSWIRE) -- The "EMC Filtration Market by Product Type (EMC Filters (1-Phase EMC Filters, 3-Phase EMC Filters, DC Filters, IEC Inlets, Chokes), Power Quality Filters (Passive Harmonic Filters, Active Harmonic Filters, Output Filters, Reactors)) - Global Forecast to 2027" report has been added to ResearchAndMarkets.com's offering.
The EMC filtration market is expected to grow from USD 861 million in 2022 and is projected to reach USD 1,160 million by 2027; it is expected to grow at a CAGR of 6.1% during the forecast period.
Increasing regulations for the environment and EMC across various industries such as industrial automation and medical will propel the growth opportunities for the EMC filtration market. The growing adoption of automated machinery and industrial robots will boost the adoption of EMC and power quality filters. A highly cost-sensitive market for EMC and power quality filters will restrain the market growth.
The market for 3-Phase EMC filters to grow at a higher CAGR during the forecast period.
3-phase EMC filters are experiencing increasing demand in high-power applications such as test equipment and industrial machinery. These 3-phase EMC filters help reduce unwanted electromagnetic interference within the conducted area of electromagnetic susceptibility of various applications such as motor drives, machine tools, and frequency converters. The general requirements for a 3-phase EMC filter design include line voltage, input currents, insertion loss, and size limitation.
The market players are involved in developing next-generation 3-phase EMC filters with optimized packaging for new designs and technology used in industrial machines. The new compact designs of 3-phase EMC filters help reduce carbon footprint significantly and allow the integration of connection terminals within the filter cubical.
The market for machinery & equipment in industrial automation applications to grow at the highest CAGR during the forecast period.
The growing trend toward digitalization and integration of new technologies such as AI and IoT in manufacturing has resulted in industrial machinery and equipment susceptibility to EMI. Therefore, EMC filtration is required in this equipment and machines to ensure uninterrupted operations and intended outputs. The EMC and power quality filters are experiencing critical importance as EMI can result in interference and malfunctioning of machinery, which leads to faulty outputs.
The proliferation of IIoT technology in the manufacturing sector to increase business profitability, improve production efficiency, and ensure worker safety is driving the growth of EMC filtration, as the industrial machine operates close to each other, making them vulnerable to interference. High-frequency noise is present in most modern-day automation and manufacturing tools such as automated fasteners, lead trimmers, pick and place machines, etc. EMC and power quality filters play a key role in preventing noise propagation and interruptions.
North America to create the highest growth opportunities for the EMC filtration market among other regions during the forecast period.
North America is expected to account for a significant size of the EMC filtration market and will register the highest CAGR during the forecast period as the region is a technology hub witnessing advancements in industrial automation and the Industry 4.0 revolution. Several standards related to emissions from electronics and susceptibility levels will increase the adoption of EMC and power quality filters in the region. Industrial equipment must comply with NEMA, ANSI, UL, SAMA, and IEEE standard tests to verify their behavior under EMI.
Additionally, the process industry in the region highly relies on automation owing to the requirement of high-quality products following different compliances. According to the Association for Advancing Automation (A3), in Q2 2021, companies in North America ordered 9853 robots for USD 501 million, up from 5,196 sold in Q2 2020. This will drive growth opportunities for the EMC filtration market in North America.
Key Topics Covered:
1 Introduction
2 Research Methodology
3 Executive Summary
4 Premium Insights
4.1 Attractive Growth Opportunities for Market Players
4.2 EMC Filtration Market, by Product Type
4.3 EMC Filtration Market, by Application
4.4 EMC Filtration Market, by Region
5 Market Overview
5.1 Introduction
5.2 History and Evolution of EMC Filtration Market
5.3 Market Dynamics
5.3.1 Drivers
5.3.1.1 Strict Environmental and EMC Regulations Across Various Industries
5.3.1.2 Rising Trend Toward Industrial Automation Worldwide
5.3.1.3 Proliferation of Data Centers in Developing Countries
5.3.2 Restraints
5.3.2.1 Highly Cost-Sensitive Market
5.3.3 Opportunities
5.3.3.1 Increasing Adoption of Electric Vehicles
5.3.3.2 Rising Government Initiatives in Support of Renewable Energy
5.3.4 Challenges
5.3.4.1 High Complexities Related to EMC Filters
5.4 Geopolitical Impact on EMC Filtration Market
5.5 Supply/Value Chain Analysis
5.6 EMC Filtration Market: Ecosystem/Market Map
5.7 Pricing Analysis
5.7.1 Average Selling Price Analysis of Key Players
5.7.2 Average Selling Price Trends
5.8 Trends and Disruptions Impacting Customers' Businesses
5.9 Technology Analysis
5.9.1 Innovative EMC Filter Solution for E-Vehicles
5.9.2 Time-Saving and Cost-Effective Innovation for EMI Reduction in Power Supplies
5.9.3 Iot
5.10 Porter's Five Forces Analysis
5.11 Key Stakeholders and Buying Criteria
5.12 Case Studies
5.13 Trade Analysis
5.14 Patents Analysis
5.15 Key Conferences and Events, 2022-2023
5.16 Regulatory Landscape
6 EMC Filtration Market, by Insertion Loss
6.1 Introduction
6.2 Common-Mode (Asymmetrical)
6.3 Differential-Mode (Symmetrical)
7 EMC Filtration Market, by Product Type
7.1 Introduction
7.2 EMC Filters
7.2.1 Stringent Noise Regulations to Increase Demand for EMC Filters
7.2.2 1-Phase EMC Filters
7.2.2.1 Increasingly Used in Industrial Automation
7.2.3 3-Phase EMC Filters
7.2.3.1 Improved Filter Designs to Accelerate Growth Opportunities
7.2.4 Dc Filters
7.2.4.1 Increased Demand for Solar and Ev Charging
7.2.5 Iec Inlets
7.2.5.1 Development in Miniaturization of Iec Inlets
7.2.6 Chokes
7.2.6.1 Development for High-Power Applications
7.3 Power Quality Filters
7.3.1 Use of Passive Harmonic Filters to Reduce Energy Costs
7.3.2 Passive Harmonic Filters
7.3.2.1 Development for Drive Applications
7.3.3 Active Harmonic Filters
7.3.3.1 Increased Demand for Pv Applications
7.3.4 Output Filters
7.3.4.1 Growing Demand for Motor Applications
7.3.5 Reactors
7.3.5.1 Higher Requirement for Variable Frequency Drives
8 EMC Filtration Market, by Application
8.1 Introduction
8.2 Industrial Automation
8.2.1 Increasing Use of Factory Automation Equipment
8.2.2 Motor Drives
8.2.2.1 EMC Filters Deliver Safe Operations in Motor Drives
8.2.3 Machinery & Equipment
8.2.3.1 Digitalization Increased Machinery and Equipment Susceptibility to EMI
8.2.4 Robotics
8.2.4.1 Robots to Increase Productivity and Decrease Labor Costs
8.3 Building Technologies
8.3.1 Growing Deployment of Building Automation Systems
8.3.2 HVAC
8.3.2.1 Government Initiatives Encourage EMC Filtration
8.3.3 Elevators
8.3.3.1 EMC Filters Decrease Harmonic Distortion in Elevators
8.3.4 Lighting
8.3.4.1 Development of New EMC Filters for Lighting Applications
8.4 Energy & Utilities
8.4.1 Increasing Trend Toward Renewable and Clean Energy
8.5 Ev Charging
8.5.1 Proliferation of Electric Vehicles to Drive Market
8.6 Medical
8.6.1 Introduction of New Regulations for EMI in Medical Devices
8.6.2 Medical Equipment
8.6.2.1 Stringent Regulations for EMC in Medical Devices
8.6.3 Laboratory and Analyzer Equipment
8.6.3.1 Regulations Pertaining to Leakage Current in Laboratory Devices
8.7 Data Centers
8.7.1 Proliferation of New Technologies and Data Generation to Propel Market
8.8 Smps/Power Supplies
8.8.1 Large Switching Currents in Smps to Increase EMC Filtration Requirement
8.9 Smart Infrastructure
8.9.1 Increasing Government Initiatives to Install Smart Meters
8.10 Energy Storage
8.10.1 EMC Filters Overcome Faults in Interconnection Systems
8.11 Ups
8.11.1 EMI Generated from Inverters in Ups to Drive EMC Filter Demand
8.12 Oil & Gas
8.12.1 Growing Oil & Gas Industry in Developing Countries to Drive Demand for EMC Filtration
9 EMC Filtration Market, by Region
10 Competitive Landscape
10.1 EMC Filtration Overview
10.2 Market Evaluation Framework
10.2.1 Product Portfolio
10.2.2 Regional Focus
10.2.3 Organic/Inorganic Strategies
10.3 Five-Year Company Revenue Analysis
10.4 Market Share Analysis, 2021
10.5 Key Company Evaluation Quadrant, 2021
10.5.1 Stars
10.5.2 Emerging Leaders
10.5.3 Pervasive Players
10.5.4 Participants
10.6 Start-Up/Sme Evaluation Quadrant, 2021
10.6.1 Progressive Companies
10.6.2 Responsive Companies
10.6.3 Dynamic Companies
10.6.4 Starting Blocks
10.7 EMC Filtration Market: Company Footprint (15 Companies)
10.8 Competitive Benchmarking
10.9 Competitive Scenarios and Trends
10.9.1 Product Launches
10.9.2 Deals
10.9.3 Others
11 Company Profiles
11.1 Key Players
11.1.1 Schaffner Holdings Ag
11.1.2 Delta Electronics Inc.
11.1.3 Te Connectivity
11.1.4 Tdk Corporation
11.1.5 Littelfuse, Inc
11.1.6 Sinexcel
11.1.7 Schurter Holding Ag
11.1.8 Astrodynetdi
11.1.9 Soshin Electric Co., Ltd.
11.1.10 Mornsun Guangzhou Science & Technology Co. Ltd.
11.2 Other Players
11.2.2 Block Transformatoren-Elektronik GmbH
11.2.3 Ets-Lindgren
11.2.4 Mte Corporation
11.2.5 Eltroplan-Revcon Elektrotechnische Anlagen GmbH
11.2.6 Dem Manufacturing
11.2.7 Reo Ag
11.2.8 Bla Etech Pvt. Ltd.
11.2.9 Emitech Micro Components
11.2.10 Captor Corporation
11.2.11 Enerdoor
11.2.12 EMI Solutions
11.2.13 High & Low Corporation
11.2.14 Murrelektronik GmbH
11.2.15 Electrocube
12 Adjacent & Related Market
13 Appendix
For more information about this report visit https://www.researchandmarkets.com/r/y83nfx
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