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The Worldwide VCSEL Industry is Expected to Reach $3.3 Billion by 2026 at a CAGR of 18.8% from 2021

·11-min read

Dublin, July 20, 2021 (GLOBE NEWSWIRE) -- The "VCSEL Market with COVID-19 Impact Analysis by Type, Material (GaAs, InP), Wavelength, Application (Sensing, Data Communication, Industrial Heating & Printing, Emerging), Data Rate, Industry, and Region - Global Forecast to 2026" report has been added to ResearchAndMarkets.com's offering.

The VCSEL market is expected to grow from USD 1.4 billion in 2021 and is projected to reach USD 3.3 billion by 2026; it is expected to grow at a CAGR of 18.8% during the forecast period.

VCSELs play an important role in 3D sensing applications in smartphones. Cameras that scan and render objects in 3D have now become a standard feature in high-end smartphones resulting in an increase in the adoption of VCSELs in 3D sensing applications in the market. The increased adoption is creating growth opportunities for manufacturers of wafers, equipment providers, metal-organic chemical vapor deposition (MOCVD) system providers, and foundries, testing & inspection companies; among others. With the entire VCSEL ecosystem is gaining market traction, it is expected to offer growth opportunities during the forecast period.

Market for multimode VCSELs to grow at higher CAGR during the forecast period

The multimode VCSEL segment is projected to register a higher CAGR during the forecast period. In 2017, with the release of the Apple iPhone X, its 3D sensing module and multimode VCSELs witnessed an increased production, becoming more prevalent in the market. They are also increasingly used for high-power 3D ToF sensing, industrial, illumination, and LiDAR applications. The integration of 3D sensing by more smartphone manufacturers and the future applications of VCSELs in automotive LiDAR is projected to account for this growth.

Market for GaAs based VCSELs to grow at highest CAGR during the forecast period

The GaAs segment is projected to register the highest CAGR during the forecast period. The high adoption of GaAs-based VCSELs in the production of smartphones and consumer devices is the primary growth driver in the market. In addition, the use of GaAs-based VCSELs in LiDAR applications is projected to create growth opportunities in the long term for the players operating in the ecosystem. Technological innovations in consumer electronics besides smartphones, such as AR/VR devices, are projected to further increase the demand for GaAs-based VCSELs in 3D sensing applications.

Market in the automotive industry to grow at highest CAGR during the forecast period

The high growth in the automotive segment is attributed to the increase in the use of VCSELs in automobiles for driver monitoring and infotainment systems. As the automotive industry is moving toward the evolution of autonomous vehicles, VCSELs are finding increased applications in systems, such as advanced driver assistance systems (ADAS), to support this evolution. LiDAR is the latest technology used in automotive safety developments and solutions that are being developed to make solid-state LiDARs using VCSELs. The increase in transition toward the adoption of autonomous vehicles in the long term is projected to drive the growth of the segment. The increase in the importance of VCSEL for LiDAR, in-cabin monitoring/driver monitoring, and gesture recognition are expected to be the primary growth drivers during the forecast period.

Market in APAC to grow at highest CAGR during the forecast period

APAC has a large consumer electronics industry, including countries such as China, Japan, and South Korea, which is the largest manufacturer and end-user of consumer devices. South Korea is a key country for manufacturing portable consumer devices, while China is the manufacturer and consumer of consumer electronics devices. Players such as Samsung (South Korea), Huawei (China), Oppo (China), and Xiaomi (China) are already using VCSELs in their smartphones. Significant investments in new vehicle technologies, including electric vehicles, LiDAR, and autonomous vehicles, are expected to create a demand for VCSELs. Countries in APAC such as China and South Korea have led to the adoption of 5G communication technology, which would further provide opportunities for penetration of VCSELs in data communication. Hence, for consumer electronics, the market in APAC is projected to continue to grow as markets in North America and Europe continue to stagnate over time.

Key Topics Covered:

1 Introduction

2 Research Methodology

3 Executive Summary
3.1 Realistic Scenario
3.2 Optimistic Scenario
3.3 Pessimistic Scenario

4 Executive Summary
4.1 Attractive Opportunities in the Vcsel Market
4.2 Vcsel Market, by Type
4.3 Vcsel Market, by Material
4.4 Vcsel Market, by Wavelength
4.5 Vcsel Market, by Data Rate
4.6 Vcsel Market, by Application
4.7 Vcsel Market in APAC, by Industry Vs. Country
4.8 Vcsel Market, by Country

5 Market Overview
5.1 Introduction
5.2 Market Dynamics
5.2.1 Drivers
5.2.1.1 Growing Adoption of 3D Sensing Applications in Smartphones
5.2.1.2 Increasing Application of Vcsels in Data Communication
5.2.1.3 Increased Market Investment for Vcsel Manufacturing
5.2.2 Restraints
5.2.2.1 Limited Data Transmission Range
5.2.2.2 Limitations of Semiconductor Material Hampering the Performance of Vcsels
5.2.3 Opportunities
5.2.3.1 Use of Vcsels in Lidar Systems for Automotive Applications
5.2.3.2 Growing IoT Market and Data Processing Across Commercial and Government Sectors
5.2.3.3 Growing Adoption of Vcsels in Consumer Electronic Devices
5.2.4 Challenges
5.2.4.1 Manufacturing Defects in Vcsels
5.2.4.2 Impact of COVID-19 on the Smartphone and Automotive Industry
5.3 Tariffs and Regulations
5.3.1 Tariffs Related to Vcsels
5.4 Regulations
5.5 Case Studies
5.6 Average Selling Price of Vcsels for Various End-Products

6 Industry Trends
6.1 Introduction
6.2 Value Chain Analysis
6.3 Ecosystem/Market Map
6.3.1 Manufacturers
6.3.2 Suppliers
6.3.3 Distributors
6.3.4 OEMs
6.4 Technology Analysis
6.4.1 Key Technologies
6.4.1.1 3D Camera
6.4.1.2 Lidar
6.4.2 Adjacent Technology
6.4.2.1 Eels
6.5 Technology Trends
6.5.1 New Materials Used in Manufacturing of Vcsels
6.5.2 Miniaturization of Vcsels
6.5.3 Under Display Vcsels
6.6 Patent Analysis
6.7 Trade Data
6.7.1 Trade Data
6.8 Porter's Five Forces Model
6.8.1 Degree of Competition
6.8.2 Bargaining Power of Suppliers
6.8.3 Bargaining Power of Buyers
6.8.4 Threat from Substitutes
6.8.5 Threat of New Entrants
6.9 Vcsel Market: Supply Chain
6.10 Yc-Ycc Shift

7 Vcsel Fabrication Methods
7.1 Introduction
7.2 Selective Oxidization
7.2.1 Selectively Oxidized Vcsels Contain An Oxide Aperture in the Laser Cavity, Which Produces Strong Electrical and Optical Confinement
7.3 Ion Implantation
7.3.1 Ion Implantation Provides a Highly Controlled Aperture That Leads to Higher and Stable Productivity of Vcsels

8 Application of Vcsel Technology in Smartphones
8.1 Introduction
8.2 Dot Projector
8.2.1 A Dot Projector is a Key Component That Enables a Smartphone's Facial Recognition Feature
8.3 Time-Of-Flight (Tof)
8.3.1 A Time-Of-Flight Module Uses Vcsels to Release Infrared Light and Used for Proximity Sensing
8.3.2 Proximity Sensing
8.4 Flood Illuminator
8.4.1 Flood Illuminators Use Vcsels to Project the Infrared Light Used to Illuminate the Face of the User

9 Vcsel Market, by Type
9.1 Introduction
9.2 Single-Mode
9.2.1 Single-Mode Vcsels Are Mainly Used for Low Power Applications
9.3 Multimode
9.3.1 Multimode Vcsels Are Increasingly Used for High Power Applications
9.4 Impact of COVID-19 on Different Types of Vcsels
9.4.1 Most Impacted Type
9.4.2 Least Impacted Type

10 Vcsel Market, by Material
10.1 Introduction
10.2 Gallium Argeside (Gaas)
10.2.1 Gaas-Based Vcsels to Register the Highest CAGR During Forecast Period
10.3 Indium Phosphide (InP)
10.3.1 Inp is More Expensive Than Gaas Due to Material Costs and Small Wafer Size
10.4 Others
10.4.1 Vcsels in the Swir Band Have Wavelength Between 1,400Nm and 3,000Nm

11 Vcsel Market, by Wavelength
11.1 Introduction
11.2 Red
11.2.1 Vcsels in the Red Band Have Wavelength in Between 650Nm and 750Nm
11.3 Near-Infrared (Nir)
11.3.1 Vcsels in the Nir Band Have Wavelength Between 750Nm and 1,400Nm
11.4 Shortwave Infrared (Swir)
11.4.1 Vcsels in the Swir Band Have a Wavelength Between 1,400Nm and 3,000Nm

12 Vcsel Market, by Application
12.1 Introduction
12.2 Sensing
12.2.1 3D Sensing
12.2.1.1 Tof Camera
12.2.1.1.1 Proximity Sensing
12.2.1.1.1.1 Proximity Sensing is Widely Used in Smartphones
12.2.1.2 Structured Light Illumination
12.2.1.2.1 Increasing Adoption of Face Recognition Technologies in Smart Devices Creates Lucrative Growth Opportunities
12.2.1.3 Facial & Gesture Recognition
12.2.1.3.1 Increase in Adoption of Biometric Technologies in Smart Devices to Drive the Market Growth
12.2.2 Gas Sensing
12.2.2.1 Single-Mode Vcsels Are Used for Gas Sensing in Industrial Environments
12.2.3 Optical Mice
12.2.3.1 Vcsel-Based Optical Mouse Enables Operations on a Wide Range of Surfaces and Offers High Resolution and Low Power Consumption
12.3 Data Communication
12.3.1 Optical Transceivers & Active Optical Cables
12.3.1.1 Growing Adoption of High Data Rate Optical Components in Data Centers to Drive the Market Growth
12.4 Industrial Heating & Laser Printing
12.4.1 Additive Manufacturing
12.4.1.1 in Additive Manufacturing, Vcsel Heating Reduces the Thermal Gradient
12.4.2 Laser Printing
12.4.2.1 Laser Printing Mainly Requires Low-Cost, Single-Mode Vcsels
12.5 Emerging & Other Applications
12.5.1 Lidar
12.5.1.1 Rising Trends in Autonomous Vehicles to Create Significant Applications in Automotive Lidars
12.5.2 In-Cabin Sensing
12.5.2.1 Innovations in Vehicle Infotainment Systems Driving the Demand for the In-Cabin Sensing Application Segment
12.5.3 Atomic Clock & Gps
12.5.3.1 Vcsels Offer Compact & Low-Cost Solutions for Use in Atomic Clocks
12.5.4 Magnetometer
12.5.4.1 Highly Accurate Detection of Magnetic Fields is Made Possible with the Use of Vcsel-Based Magnetometers
12.5.5 Infrared Illumination for Surveillance
12.5.5.1 Vcsels Offer Improved Performance and Visibility in Security & Surveillance Applications
12.5.6 Pulse Oximetry
12.5.6.1 Vcsels Provide Benefits of Narrower Spectral Linewidth Emission for Pulse Oximetry Application

13 Vcsel Market, by Data Rate
13.1 Introduction
13.2 Up to 10 Gbps
13.2.1 Vcsels with Data Rates Up to 10 Gbps Are Primarily Used in Data Communication Applications
13.3 10.1 to 25 Gbps
13.3.1 Vcsels with Data Rate of 10.1 to 25 Gbps Dominated the Market in 2020
13.4 Above 25 Gbps
13.4.1 Vcsels with Data Rate Above 25 Gbps to Record the Highest Growth During the Forecast Period

14 Vcsel Market, by Industry
14.1 Introduction
14.2 Consumer Electronics
14.2.1 Consumer Electronics Held a Dominant Share in the Vcsel Market in 2020
14.3 Data Center
14.3.1 Increase in Data Bandwidth in the Data Centers to Drive the Demand for Vcsels
14.4 Automotive
14.4.1 Vcsels in Automotive Lidar to Boost the Market Growth During the Forecast Period
14.5 Commercial & Industrial
14.5.1 Various Industrial Applications Using Vcsels Include Infrared Illumination, Laser Printing, and Heating
14.6 Healthcare
14.6.1 Vcsels Are Mainly Used for Scanning and Imaging Applications in the Healthcare Industry
14.7 Military
14.7.1 Vcsels Are Used for Tactical Surveillance and Obstacle Detection in Military Tasks
14.8 Impact of COVID-19 on Different Industries
14.8.1 Most Impacted Industry
14.8.2 Least Impacted Industry

15 Geographic Analysis

16 Competitive Landscape

17 Company Profiles
17.1 Key Players
17.1.1 Ii-Vi Incorporated
17.1.2 Lumentum
17.1.3 Ams
17.1.4 Trumpf
17.1.5 Broadcom
17.1.6 Leonardo Electronics
17.1.7 Mks Instruments
17.1.8 Santec
17.1.9 Vertilas
17.1.10 Vertilite
17.2 Other Key Players
17.2.1 Alight Technologies
17.2.2 Coherent
17.2.3 Flir
17.2.4 Inneos
17.2.5 Iqe
17.2.6 Thorlabs
17.2.7 Tt Electronics
17.2.8 Ushio America
17.2.9 Win Semiconductors
17.2.10 Frankfurt Laser Company

18 Appendix

For more information about this report visit https://www.researchandmarkets.com/r/vn9b91

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