The silicon carbide semiconductor market is anticipated to register a significant CAGR of 21.35% during the review period. The silicon carbide semiconductor market is driven by a few factors that contributes towards its rising interest from a few businesses.
Silicon carbide semiconductor have predominant power dealing with abilities which makes it appropriate for high power applications like sustainable power frameworks, electric vehicle, and different modern hardware. Also, the silicon carbide semiconductors can productively deal with high temperatures and voltage and consequently it is broadly utilized un-Clinical Gadgets, Energy and Power, gadgets. The developing market of shopper Clinical Gadgets, Energy and Power, is making the Clinical Gadgets, Energy and Power, producers to utilize superior execution parts, for example, silicon carbide semiconductor, to meet the changing necessities of the markets.
Silicon carbide semiconductors are additionally vital in sustainable power frameworks like breeze and solar power inverters. The developing accentuation on mechanical progressions will encourage exorbitant interest for this sort of semiconductor as its phenomenal warm execution and special credits will help in making imaginative electronic gadgets.
Silicon carbide semiconductors shows wide bandgap which empowers them to work at high temperatures and voltages. This trademark brings about lower exchanging misfortunes and further developed influence effectiveness. In applications, for example, electric vehicles and aviation where weight and size contemplations are basic, the silicon carbide semiconductors offer significant benefits, further empowering the improvement of energy effective and superior execution frameworks.
Semiconductors are one of the essential parts utilized in different advances. In electronic gadgets, semiconductors go about as a structure block and deal exact command over the electrical signs. Semiconductors give energy effective answers for electronic gadgets. Their capacity to switch among on and off states with the negligible power utilization is vital for improving the energy effectiveness in various applications. The raising interest for semiconductors for satisfying the reasons for different ventures is setting out critical development open doors and need for profoundly productive semiconductors and this variable is helping the interest in silicon carbide semiconductors.
Market Segmentation
The market for silicon carbide semiconductors has been divided into segments, including industrial drives, solar energy systems, EV charging, telecommunication (UPS), and others.
The market for silicon carbide semiconductors has been divided into five segments based on component type: integrated circuits, rectifiers/diodes, power modules, Schottky diodes, FET/MOSFET transistors, and others.
The silicon carbide semiconductor market has been divided into the following segments: automotives, consumer electronics, aerospace & defense, medical devices, energy & power, and others. These divisions are based on the end-use industry.
Regional Insights
By region, the worldwide market is fragmented into North America, Europe, Rest of Latin America, Asia Pacific, Brazil and Argentina. Among these, the Asia Pacific arose as the main portion with a portion of 53.5%. The portion is projected to arrive at a worth of USD 365.2 million toward the forecast time frame's end. The Asia Pacific region saw the quickest section with a sound CAGR of 22.13%.
Major Players
Key Companies in the Silicon Carbide Semiconductor Market are Infineon Technologies AG, ROHM Co., Ltd., ALLEGRO MICROSYSTEMS, INC, STMicroelectronics N.V., WOLFSPEED, INC., ON SEMICONDUCTOR CORPORATION, TT Electronics plc., Mitsubishi Electric Corporation, Powerex Inc., Gene Sic Semiconductor, Toshiba Corporation, and FUJI ELECTRIC CO., LTD.
TABLE OF CONTENTS
TABLE OF CONTENTS
1 EXECUTIVE SUMMARY
2 MARKET INTRODUCTION
2.1 DEFINITION
2.2 SCOPE OF THE STUDY
2.3 RESEARCH OBJECTIVE
2.4 MARKET STRUCTURE
3 RESEARCH METHODOLOGY
3.1 OVERVIEW
3.2 DATA FLOW
3.2.1 DATA MINING PROCESS
3.3 PURCHASED DATABASE:
3.4 SECONDARY SOURCES:
3.4.1 SECONDARY RESEARCH DATA FLOW:
3.5 PRIMARY RESEARCH:
3.5.1 PRIMARY RESEARCH DATA FLOW:
3.5.2 PRIMARY RESEARCH: NUMBER OF INTERVIEWS CONDUCTED
3.5.3 PRIMARY RESEARCH: REGIONAL COVERAGE
3.6 APPROACHES FOR MARKET SIZE ESTIMATION:
3.6.1 TRADE ANALYSIS APPROACH
3.7 DATA FORECASTING
3.7.1 DATA FORECASTING TECHNIQUE
3.8 DATA MODELING
3.8.1 MICROECONOMIC FACTOR ANALYSIS:
3.8.2 DATA MODELING:
3.9 TEAMS AND ANALYST CONTRIBUTION
4 MARKET DYNAMICS
4.1 INTRODUCTION
4.2 DRIVERS
4.2.1 GROWING DEMAND OF SILICON CARBIDE SEMICONDUCTOR FROM SEMICONDUCTOR INDUSTRIES
4.2.2 EXCELLENT PROPERTIES ASSOCIATED WITH SILICON CARBIDE SEMICONDUCTOR
4.3 RESTRAINTS
4.3.1 FLUCTUATION IN THE PRICES OF RAW MATERIAL
4.4 OPPORTUNITY
4.4.1 RISING INVESTMENT IN GLOBAL SILICON CARBIDE SEMICONDUCTOR MARKET
4.4.2 GROWING MARKET OF ELECTRIC VEHICLES
4.5 IMPACT ANALYSIS OF COVID-19
4.5.1 IMPACT ON SUPPLY CHAIN OF SILICON CARBIDE SEMICONDUCTOR
4.5.2 IMPACT ON MARKET DEMAND OF SILICON CARBIDE SEMICONDUCTOR