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According to the latest research, the global Fiber Optic MEMS Switches market size was valued at USD 155.67 million in 2022 and is expected to expand at a CAGR of 10.8% during the forecast period, reaching USD 288.06 million by 2028.
Fiber Optic MEMS Switches is to engrave a number of tiny mirrors on the silicon crystal. Through the action of electrostatic force or electromagnetic force, the micromirror array is rotated, thereby changing the propagation direction of the input light to realize the function of turning on and off the optical path.
Application of Fiber Optic MEMS Switches in Optical Fiber Communication
Optical fiber communication is a communication method in which light waves are used as carriers and optical fibers are used as transmission media to transmit information from one place to another. Today, optical fiber is far superior to the transmission of cable and microwave communication because of its transmission frequency bandwidth, high anti-interference and low signal attenuation, and has become the main transmission method in world communication. With the rapid development of optical fiber communication networks, there is an increasing demand for optical passive devices including optical switches, which are used to reconfigure optical networks or increase their reliability. At present, there are mainly mechanical optical switches, thermo-optic switches, acousto-optic switches, electro-optic switches, magneto-optic switches, liquid crystal optical switches and Fiber Optic MEMS Switches on the market. People use MEMS (Micro-Electro-Mechanical Systems) technology in the manufacture of optical switches, because using MEMS technology can improve the performance of optical switches, while reducing the size and cost of the device. In general, the continuous expansion of the optical fiber communication market will be one of the important driving factors for the development of the industry.
High technical barriers in the industry
MEMS are a new field of research and development that must consider the mixing of multiple physical fields at the same time. Compared with traditional machinery, their dimensions are smaller, the largest is no more than a centimeter, and some are even only a few microns, and their thickness is even smaller. Therefore, the development and manufacture of MEMS products need to include expertise in physics, chemistry, biology, etc. Second, MEMS require multiple process development techniques. The MEMS foundry business needs to handle multiple process development projects in parallel and utilize all engineering resources in the most efficient manner possible. Therefore, the production of Fiber Optic MEMS Switches has the characteristics of capital-intensive, technology-intensive and intelligence-intensive, which puts forward extremely high requirements on the company's financial strength, R&D investment, and technology accumulation. High technical barriers in the industry are one of the challenges facing market development.
Development of all-optical network
All Optical Network (AON, All Optical Network) refers to the fact that the network transmission and switching process are all realized through optical fibers, that is, the data transmission process from the source node to the destination node is carried out in the optical domain, and the electrical/optical transmission is only performed when entering and leaving the network. and light/electricity conversion. Because there is no need to implement electro-optical and photoelectric conversion in it, the network speed can be greatly improved. The main technologies of all-optical network include optical fiber technology, SDH, WDM, optical switching technology, OXC, passive optical network technology, optical fiber amplifier technology, etc. Among the various equipment and devices of all-optical network, optical cross-connect equipment (OXC) and optical add-drop multiplexing equipment (OADM) can be said to be the core device technologies of all-optical networking. Optical switches and optical switch arrays are the core technologies of OXC and OADM. The new optical switch made by MEMS technology is small in size, light in weight, low in energy consumption, compatible with large-scale integrated circuit manufacturing process, easy to mass-produce, integrated, convenient to expand, and conducive to cost reduction. Therefore, with the development of all-optical networks, the market demand for Fiber Optic MEMS Switches will continue to increase. Therefore, the development of all-optical network will be an opportunity for industry development.
Region Overview:
In 2021, the share of the Fiber Optic MEMS Switches market in North America stood at 31.40%.
.
Company Overview:
HYC
HYC was founded in Shenzhen, China in 2000. HYC is an influential ODM/JDM manufacturer of passive optical communication devices in the industry, focusing on providing customers with design, R&D, manufacturing, sales and service of passive basic optical components for optical communication. The company mainly produces and sells optical passive basic components such as optical fiber connectors (high-density optical connection products for data centers), WDM wavelength division multiplexers, PLC optical splitters, MEMS optical switches, high-speed module internal connection components, and optical backplane products. , widely used in fiber-to-the-home, 4G/5G mobile communications, Internet data centers, defense communications and other fields.
II-VI Incorporated
II-VI Incorporated is an American manufacturer of optical materials and semiconductors. The company's products include optical components such as lenses, windows and mirrors for CO2 laser manufacturers and users. II-VI Incorporated develops innovative products for diverse applications in the industrial, optical communications, military, life sciences, semiconductor equipment and consumer markets.
HYC is one of the major players operating in the Fiber Optic MEMS Switches market, holding a share of 12.93% in 2022.
Segmentation Overview:
By type, Single-mode Switches segment accounted for the largest share of market in 61.18%.
According to the applicable fiber types, it is divided into Single-mode Switches and Multimode Switches. Generally speaking, single-mode fiber can only allow one beam of light to propagate, so single-mode fiber has no mode dispersion characteristics. Multimode fiber allows multiple beams of light to propagate simultaneously in the fiber.
Application Overview:
The market's largest segment by application is the segment Fiber Optical Communication System, with a market share of 81.23% in 2021.
Fiber Optical Communication System
This application refers to the application of the product to various fiber optical communication system equipment. For example, it includes OXC (optical cross-connect) equipment, Dense Wavelength Division Multiplexing system equipment, and the like.
Test Equipment
This application refers to the application of the product to the test instrument. For example, including optical time domain reflectometry and so on.
This report elaborates on the market size, market characteristics, and market growth of the Fiber Optic MEMS Switches industry between the year 2018 to 2028, and breaks down according to the product type, downstream application, and consumption area of Fiber Optic MEMS Switches. The report also introduces players in the industry from the perspective of the value chain and looks into the leading companies.
Key Points this Global Fiber Optic MEMS Switches Market Report Include:
Market Size Estimates: Fiber Optic MEMS Switches market size estimation in terms of revenue and sales from 2018-2028
Market Dynamic and Trends: Fiber Optic MEMS Switches market drivers, restraints, opportunities, and challenges
Macro-economy and Regional Conflict: Influence of global inflation and Russia & Ukraine War on the Fiber Optic MEMS Switches market
Segment Market Analysis: Fiber Optic MEMS Switches market revenue and sales by type and by application from 2018-2028
Regional Market Analysis: Fiber Optic MEMS Switches market situations and prospects in major and top regions and countries
Fiber Optic MEMS Switches Market
Fiber Optic MEMS Switches Industry Chain: Fiber Optic MEMS Switches market raw materials & suppliers, manufacturing process, distributors by region, downstream customers
Fiber Optic MEMS Switches Industry News, Policies by regions
Fiber Optic MEMS Switches Industry Porters Five Forces Analysis
Key players in the global Fiber Optic MEMS Switches market are covered in Chapter 2:
Thorlabs
II-VI Incorporated
Accelink
Sercalo Microtechnology
HYC
HUBER+SUHNER
GLsun Science and Tech
Agiltron (Photonwares)
EXFO
DiCon Fiberoptics
O-Net
HYGJ Communication
Gezhi Photonics
Pickering Interfaces
ADAMANT
Flyin Optronics
In Chapter 6 and Chapter 9, on the basis of types, the Fiber Optic MEMS Switches market from 2018 to 2028 is primarily split into:
Single-mode Switches
Multimode Switches
In Chapter 7 and Chapter 10, on the basis of applications, the Fiber Optic MEMS Switches market from 2018 to 2028 covers:
Fiber Optical Communication System
Test Equipment
Geographically, the detailed analysis of consumption, revenue, market share and growth rate of the following regions from 2018 to 2028 are covered in Chapter 8 and Chapter 11:
United States
Europe
China
Japan
India
Southeast Asia
Latin America
Middle East and Africa
Others
In summary, this report relies on sources from both primary and secondary, combines comprehensive quantitative analysis with detailed qualitative analysis, and pictures the market from a macro overview to micro granular segment aspects. Whatever your role in this industry value chain is, you should benefit from this report with no doubt.
Chapter Outline
This report consists of 12 chapters. Below is a brief guideline to help you quickly grasp the main contents of each chapter:
Chapter 1 first introduces the product overview, market scope, product classification, application, and regional division, and then summarizes the global Fiber Optic MEMS Switches market size in terms of revenue, sales volume, and average price.
Chapter 2 analyzes the main companies in the Fiber Optic MEMS Switches industry, including their main businesses, products/services, sales, prices, revenue, gross profit margin, and the latest developments/updates.
Chapter 3 is an analysis of the competitive environment of Fiber Optic MEMS Switches market participants. This mainly includes the revenue, sales, market share, and average price of the top players, along with the market concentration ratio in 2022 and the players' M&A and expansion in recent years.
Chapter 4 is an analysis of the Fiber Optic MEMS Switches industrial chain, including raw material analysis, manufacturing cost structure, distributors, and major downstream buyers.
Chapter 5 focuses on Fiber Optic MEMS Switches market dynamics and marketing strategy analysis, which include opportunities, challenges, industry development trends under inflation, industry news and policies analyzed by region, Porter's Five Forces analysis, as well as direct and indirect marketing, and the development trends of marketing channels.
Chapters 6-8 have segmented the Fiber Optic MEMS Switches market by type, application, and region, with a focus on sales and value from 2018 to 2023 from both vertical and horizontal perspectives.
Chapters 9-11 provide detailed Fiber Optic MEMS Switches market forecast data for 2023-2028, broken down by type and application, region, and major countries to help understand future growth trends.
Chapter 12 concludes with an explanation of the data sources and research methods. Verify and analyze through preliminary research to obtain final quantitative and qualitative data.
Fiber Optic MEMS Switches is to engrave a number of tiny mirrors on the silicon crystal. Through the action of electrostatic force or electromagnetic force, the micromirror array is rotated, thereby changing the propagation direction of the input light to realize the function of turning on and off the optical path.
Application of Fiber Optic MEMS Switches in Optical Fiber Communication
Optical fiber communication is a communication method in which light waves are used as carriers and optical fibers are used as transmission media to transmit information from one place to another. Today, optical fiber is far superior to the transmission of cable and microwave communication because of its transmission frequency bandwidth, high anti-interference and low signal attenuation, and has become the main transmission method in world communication. With the rapid development of optical fiber communication networks, there is an increasing demand for optical passive devices including optical switches, which are used to reconfigure optical networks or increase their reliability. At present, there are mainly mechanical optical switches, thermo-optic switches, acousto-optic switches, electro-optic switches, magneto-optic switches, liquid crystal optical switches and Fiber Optic MEMS Switches on the market. People use MEMS (Micro-Electro-Mechanical Systems) technology in the manufacture of optical switches, because using MEMS technology can improve the performance of optical switches, while reducing the size and cost of the device. In general, the continuous expansion of the optical fiber communication market will be one of the important driving factors for the development of the industry.
High technical barriers in the industry
MEMS are a new field of research and development that must consider the mixing of multiple physical fields at the same time. Compared with traditional machinery, their dimensions are smaller, the largest is no more than a centimeter, and some are even only a few microns, and their thickness is even smaller. Therefore, the development and manufacture of MEMS products need to include expertise in physics, chemistry, biology, etc. Second, MEMS require multiple process development techniques. The MEMS foundry business needs to handle multiple process development projects in parallel and utilize all engineering resources in the most efficient manner possible. Therefore, the production of Fiber Optic MEMS Switches has the characteristics of capital-intensive, technology-intensive and intelligence-intensive, which puts forward extremely high requirements on the company's financial strength, R&D investment, and technology accumulation. High technical barriers in the industry are one of the challenges facing market development.
Development of all-optical network
All Optical Network (AON, All Optical Network) refers to the fact that the network transmission and switching process are all realized through optical fibers, that is, the data transmission process from the source node to the destination node is carried out in the optical domain, and the electrical/optical transmission is only performed when entering and leaving the network. and light/electricity conversion. Because there is no need to implement electro-optical and photoelectric conversion in it, the network speed can be greatly improved. The main technologies of all-optical network include optical fiber technology, SDH, WDM, optical switching technology, OXC, passive optical network technology, optical fiber amplifier technology, etc. Among the various equipment and devices of all-optical network, optical cross-connect equipment (OXC) and optical add-drop multiplexing equipment (OADM) can be said to be the core device technologies of all-optical networking. Optical switches and optical switch arrays are the core technologies of OXC and OADM. The new optical switch made by MEMS technology is small in size, light in weight, low in energy consumption, compatible with large-scale integrated circuit manufacturing process, easy to mass-produce, integrated, convenient to expand, and conducive to cost reduction. Therefore, with the development of all-optical networks, the market demand for Fiber Optic MEMS Switches will continue to increase. Therefore, the development of all-optical network will be an opportunity for industry development.
Region Overview:
In 2021, the share of the Fiber Optic MEMS Switches market in North America stood at 31.40%.
.
Company Overview:
HYC
HYC was founded in Shenzhen, China in 2000. HYC is an influential ODM/JDM manufacturer of passive optical communication devices in the industry, focusing on providing customers with design, R&D, manufacturing, sales and service of passive basic optical components for optical communication. The company mainly produces and sells optical passive basic components such as optical fiber connectors (high-density optical connection products for data centers), WDM wavelength division multiplexers, PLC optical splitters, MEMS optical switches, high-speed module internal connection components, and optical backplane products. , widely used in fiber-to-the-home, 4G/5G mobile communications, Internet data centers, defense communications and other fields.
II-VI Incorporated
II-VI Incorporated is an American manufacturer of optical materials and semiconductors. The company's products include optical components such as lenses, windows and mirrors for CO2 laser manufacturers and users. II-VI Incorporated develops innovative products for diverse applications in the industrial, optical communications, military, life sciences, semiconductor equipment and consumer markets.
HYC is one of the major players operating in the Fiber Optic MEMS Switches market, holding a share of 12.93% in 2022.
Segmentation Overview:
By type, Single-mode Switches segment accounted for the largest share of market in 61.18%.
According to the applicable fiber types, it is divided into Single-mode Switches and Multimode Switches. Generally speaking, single-mode fiber can only allow one beam of light to propagate, so single-mode fiber has no mode dispersion characteristics. Multimode fiber allows multiple beams of light to propagate simultaneously in the fiber.
Application Overview:
The market's largest segment by application is the segment Fiber Optical Communication System, with a market share of 81.23% in 2021.
Fiber Optical Communication System
This application refers to the application of the product to various fiber optical communication system equipment. For example, it includes OXC (optical cross-connect) equipment, Dense Wavelength Division Multiplexing system equipment, and the like.
Test Equipment
This application refers to the application of the product to the test instrument. For example, including optical time domain reflectometry and so on.
This report elaborates on the market size, market characteristics, and market growth of the Fiber Optic MEMS Switches industry between the year 2018 to 2028, and breaks down according to the product type, downstream application, and consumption area of Fiber Optic MEMS Switches. The report also introduces players in the industry from the perspective of the value chain and looks into the leading companies.
Key Points this Global Fiber Optic MEMS Switches Market Report Include:
Market Size Estimates: Fiber Optic MEMS Switches market size estimation in terms of revenue and sales from 2018-2028
Market Dynamic and Trends: Fiber Optic MEMS Switches market drivers, restraints, opportunities, and challenges
Macro-economy and Regional Conflict: Influence of global inflation and Russia & Ukraine War on the Fiber Optic MEMS Switches market
Segment Market Analysis: Fiber Optic MEMS Switches market revenue and sales by type and by application from 2018-2028
Regional Market Analysis: Fiber Optic MEMS Switches market situations and prospects in major and top regions and countries
Fiber Optic MEMS Switches Market
Competitive Landscape
and Major Players: Analysis of 10-15 leading market players, sales, price, revenue, gross, gross margin, product/service profile and recent development/updates, etc.Fiber Optic MEMS Switches Industry Chain: Fiber Optic MEMS Switches market raw materials & suppliers, manufacturing process, distributors by region, downstream customers
Fiber Optic MEMS Switches Industry News, Policies by regions
Fiber Optic MEMS Switches Industry Porters Five Forces Analysis
Key players in the global Fiber Optic MEMS Switches market are covered in Chapter 2:
Thorlabs
II-VI Incorporated
Accelink
Sercalo Microtechnology
HYC
HUBER+SUHNER
GLsun Science and Tech
Agiltron (Photonwares)
EXFO
DiCon Fiberoptics
O-Net
HYGJ Communication
Gezhi Photonics
Pickering Interfaces
ADAMANT
Flyin Optronics
In Chapter 6 and Chapter 9, on the basis of types, the Fiber Optic MEMS Switches market from 2018 to 2028 is primarily split into:
Single-mode Switches
Multimode Switches
In Chapter 7 and Chapter 10, on the basis of applications, the Fiber Optic MEMS Switches market from 2018 to 2028 covers:
Fiber Optical Communication System
Test Equipment
Geographically, the detailed analysis of consumption, revenue, market share and growth rate of the following regions from 2018 to 2028 are covered in Chapter 8 and Chapter 11:
United States
Europe
China
Japan
India
Southeast Asia
Latin America
Middle East and Africa
Others
In summary, this report relies on sources from both primary and secondary, combines comprehensive quantitative analysis with detailed qualitative analysis, and pictures the market from a macro overview to micro granular segment aspects. Whatever your role in this industry value chain is, you should benefit from this report with no doubt.
Chapter Outline
This report consists of 12 chapters. Below is a brief guideline to help you quickly grasp the main contents of each chapter:
Chapter 1 first introduces the product overview, market scope, product classification, application, and regional division, and then summarizes the global Fiber Optic MEMS Switches market size in terms of revenue, sales volume, and average price.
Chapter 2 analyzes the main companies in the Fiber Optic MEMS Switches industry, including their main businesses, products/services, sales, prices, revenue, gross profit margin, and the latest developments/updates.
Chapter 3 is an analysis of the competitive environment of Fiber Optic MEMS Switches market participants. This mainly includes the revenue, sales, market share, and average price of the top players, along with the market concentration ratio in 2022 and the players' M&A and expansion in recent years.
Chapter 4 is an analysis of the Fiber Optic MEMS Switches industrial chain, including raw material analysis, manufacturing cost structure, distributors, and major downstream buyers.
Chapter 5 focuses on Fiber Optic MEMS Switches market dynamics and marketing strategy analysis, which include opportunities, challenges, industry development trends under inflation, industry news and policies analyzed by region, Porter's Five Forces analysis, as well as direct and indirect marketing, and the development trends of marketing channels.
Chapters 6-8 have segmented the Fiber Optic MEMS Switches market by type, application, and region, with a focus on sales and value from 2018 to 2023 from both vertical and horizontal perspectives.
Chapters 9-11 provide detailed Fiber Optic MEMS Switches market forecast data for 2023-2028, broken down by type and application, region, and major countries to help understand future growth trends.
Chapter 12 concludes with an explanation of the data sources and research methods. Verify and analyze through preliminary research to obtain final quantitative and qualitative data.
Years considered for this report:
Historical Years:
2018-2022Base Year:
2022Estimated Year:
2023Forecast Period:
2023-2028Frequently Asked Questions
This market study covers the global and regional market with an in-depth analysis of the overall growth prospects in the market. Furthermore, it sheds light on the comprehensive competitive landscape of the global market. The report further offers a dashboard overview of leading companies encompassing their successful marketing strategies, market contribution, recent developments in both historic and present contexts.
- By product type
- By End User/Applications
- By Technology
- By Region
The report provides a detailed evaluation of the market by highlighting information on different aspects which include drivers, restraints, opportunities, and threats. This information can help stakeholders to make appropriate decisions before investing.
