Silicon Carbide Power Semiconductors Market - Forecast(2024 - 2030)

Report Code: ESR 30533 Report Format: PDF + Excel

Silicon Carbide Power Semiconductors Market Overview

Silicon Carbide Power Semiconductors Market is forecast to reach $2.6 billion by 2026, growing at a CAGR 27.1% from 2021 to 2026. Silicon carbide is a semiconductor formed by a combination of silicon and carbon. It has a hardness level that is roughly equal to that of a diamond, which allows SiC semiconductors to work under intense conditions. SiC (silicon carbide) is used for high-powered applications due to the wide bandgap semiconductor provided. Semiconductors also use SiC for reduced energy losses and longer life solar and wind power converters. Photovoltaic energy mainly requires high power, low-loss, faster switching and reliable semiconductor devices to improve performance, power density and reliability. SiC devices such as Insulated gate bipolar transistors(IGBTs), MOSFETs provide a promising solution to photovoltaic energy requirements through chemical vapor deposition in order to meet the rising demand for energy. Growing number of modern applications requiring SiC power supply provides lucrative business opportunities. In the automotive industry, traction inverters in electric vehicles are subjected to high thermal and load cycles. SiC has improved reliability and performance, ability to work at higher temperatures, reduced size and higher voltage capabilities, making it suitable for use in the electrical vehicle industry.

Silicon Carbide Power Semiconductors Market Report Coverage

The report: “Silicon Carbide Power Semiconductors Market – Forecast (2021-2026)”, by IndustryARC covers an in-depth analysis of the following segments of Silicon Carbide Power Semiconductors Market.

By Power Module: Power Product, Discrete Product, Others
By Device: Module, Silicon Carbide (SiC) Bare Die Devices, Metal-Oxide-Semiconductor Field-Effect Transistor (MOSFET), Insulated Gate  Bipolar Transistor (IGBT) and Others
By Wafer Size: 2 inch, 4inch, 6 inch & Above
By End-User: IT & Telecom, Aerospace and Defense, Industrial, Power Electronics, Automotive, Healthcare, Others
By Geography - North America (U.S, Canada, Mexico), Europe (Germany, UK, France, Italy, Spain, Russia, Netherlands and Others), APAC(China, Japan India, SK, Australia, Indonesia and Others), South America(Brazil, Argentina, Chile, Colombia and others), and RoW (Middle East and Africa).

Key Takeaways

  • The growing adoption of the SiC power semiconductor in plug-in hybrid (PHEV) and all-electric vehicles (xEV) is one of the main factors driving the growth in the automotive industry.
  • Asia-Pacific is expected to dominate the global SiC semiconductor market primarily as the region dominates the global semiconductor market, further supported by government policies that favor semiconductor production.
  • The outbreak of COVID-19 impacted the overall semiconductor industry on the demand side and the supply side. The nationwide shutdowns and closure of semiconductor plants further fuelled the supply shortage trend, which mainly emerged in 2019. These effects were also reflected in the demand for SiC power semiconductors. 

Silicon Carbide Power Semiconductors Market, By Region, 2020

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Silicon Carbide Power Semiconductors Market Segment Analysis - By Wafer Size

The 4 inch segment is expected to grow at a higher CAGR 46.5% during the forecast period. 4-inch silicon wafers are commonly used in the research field due to their improved reactivity compared to standard nano/micron-sized particles. They are expected to grow with good rate during the forecast period. Growth is due to the growing use of 4-inch silicon carbide wafers in a range of products, such as optoelectronics, high-power devices, high-temperature devices and high-frequency power devices. IGBTs, MOSFETs and other semiconductor components utilize wide bandgap SiC material which is set to drive the market.

Silicon Carbide Power Semiconductors Market Segment Analysis - By End-User

The Automotive industry is expected to grow at a higher CAGR 30.2% during the forecast period. The increasing adoption of the SiC power semiconductor in plug-in hybrid (PHEV) and all-electric vehicles (xEV) is one of the key factors driving the growth of the segment. Currently, most of the power electronics in vehicles are based on silicon. However, the latest EV designs require improvements in efficiency and power density, with SiC emerging as the preferred material to resolve the performance of the silicon plateau. Features such as low switching losses, high switching frequency and high temperature capability make SiC suitable for EV requirements. Market vendors, such as Infineon Technologies and NXP, are betting big on SiC power semiconductors for the automotive market. Recently in 2020, Infineon introduced its EasyPACK module with CoolSiC automotive MOSFET technology, a 1200 V half-bridge module with a current rating of 8 m ? /150 A. In addition, amid declining automotive sales worldwide, the rise in the number of power semiconductors per vehicle factor has attracted a number of semiconductor manufacturers to the automotive sector of SiC power products.

Silicon Carbide Power Semiconductors Market Segment Analysis - By Geography

APAC is expected to dominate the global Silicon Carbide Power Semiconductors market with a share of more than 34.5% in the forecast period. Asia-Pacific is expected to dominate the global SiC semiconductor market mainly as the region dominates the global semiconductor market, further supported by government policies that favor semiconductor development. The area is also the largest producer and consumer of consumer electronics, and there is an exponential growth in demand for smart consumer electronics. The growing need for wide bandgap IGBT semiconductors will drive the market. The region is also one of the world's leading automotive and EV markets. China is the main producer of electric vehicles. Electric vehicles accounted for roughly 4 per cent of the total Chinese vehicle industry as of 2018. Approximately 45% of electric cars deployed worldwide were in China, compared with 39% in 2017. The growing production and infrastructure of electric vehicles in the Asia-Pacific region coupled with favorable industrial regulations in countries such as China, India and South Korea is also expected to drive the production of SiC power semiconductors in the region.

Silicon Carbide Power Semiconductors Market Drivers

Advantages of Compound Semiconductors (SiC) Over Silicon-based Technology

Electronic properties of silicon carbide semiconductors are superior to those of silicon. They have a higher saturated electron velocity and mobility of electrons. SiC power semiconductors are relatively less affected by overheating due to their wider range of energy. They also appear to produce less noise in electronic circuits than silicone systems, resulting in a reduced loss of power. These enhanced properties promote the increased use of compound semiconductors, such as SiC power products in satellite communications, cell phones, microwave connections and high-frequency radar systems. Thus, this dominance of silicon carbide semiconductors over silicon drives market growth.

Increase in demand for power electronics modules across various industry verticals

Power electronics is a branch of electronics which deals with the control and conversion of electrical power. The characteristics of silicone carbide semiconductors, such as higher electrical field strength breakdown and wider band gap, allow their use in power electronics. These devices play an extremely important role in the regulation of automotive electronics such as electrical power steering, key inverter for hydroelectric vehicles, seat control, braking system and others. SiC control electronics also facilitates the conversion of energy to aircraft-integrated generators and actuators. In addition to automobile and aircraft, the growth of power electronics is driven by its growing use in a variety of applications, such as industrial motors, electrical grid stabilization and consumer electronics. Consequently, its efficient power control and management role for industrial operations or the operation of electrical/electronic devices makes it ideal for different vertical industries.

Silicon Carbide Power Semiconductors Market Challenges

High Wafer Cost of Silicon Carbide Semiconductors

The high wafer cost is a major obstacle to the development of SiC-based power devices. The price of the SiC semiconductors is higher than the silicon semiconductors they are expected to replace. High-purity SiC powder and high-purity silane (SiH4) are the essential precursors for the processing of SiC layers in chips, IGBTs and MOSFETs. High purity SiC powder is currently available from a limited number of suppliers and is relatively costly. The smaller suppliers of these raw materials needed for the production of wide bandgap silicon carbide wafers have resulted in higher costs. In addition, SiC wafers and substrates are supplied by major firms, such as Cree, Inc. and Dow Corning, which are primarily involved in the manufacture of semiconductor products. As a result, the increased bargaining power of silicon carbide wafer suppliers hinders the large-scale adoption of silicon carbide wafers.

Silicon Carbide Power Semiconductors Market Landscape

Technology launches, acquisitions, and R&D activities are key strategies adopted by players in Silicon Carbide Power Semiconductors Market. Silicon Carbide Power Semiconductors Market is expected to be dominated by major companies such as Infineon Technologies AG, Microsemi Corporation, General Electric, Power Integrations, Toshiba Corporation, Fairchild Semiconductor, STMicroelectronics, NXP Semiconductors, Tokyo Electron Limited, Renesas Electronics Corporation, ROHM, Cree, Inc, Others. 

Acquisitions/Technology Launches

  • In Feb 2020, Infineon Technologies AG extended its extensive product range of Silicon Carbide (SiC) with 650 V products. With the newly launched CoolSiC MOSFETs, Infineon is addressing the increasing demand for energy efficiency, power density and robustness in a wide range of applications. Among them are server, telecom, and industrial SMPS, solar energy systems, energy storage, and battery formation, UPS, motor drives, and EV-charging.
  • In January 2020, STMicroelectronics NV announced the signing of a multi-year supply agreement for silicon carbide (SiC) wafers with SiCrystal, a company of the ROHM Group. Under the deal, SiCrystal is to supply over 120 million dollars of silicon carbide wafers to STMicroelectronics. The company aims to leverage the demand ramp-up for silicon carbide power devices across various industries, including industrial and automotive markets.

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1. Silicon Carbide Power Semiconductor Market Overview
    1.1 Definitions and Scope
2. Silicon Carbide Power Semiconductor Market - Executive Summary
    2.1 Market Revenue, Market Size and Key Trends by Company
    2.2 Key trends By End User
    2.3 Key trends segmented by Geography
3. Silicon Carbide Power Semiconductor Market – Market Landscape
    3.1 Comparative Analysis
        3.1.1 Product/Company Benchmarking-Top 5 Companies
        3.1.2 Top 5 Financial Analysis
        3.1.3 Market Value Split by Top 5 Companies
        3.1.4 Patent Analysis
        3.1.5 Pricing Analysis (Comparison of General Price of Industry Solutions)
4. Silicon Carbide Power Semiconductor Market – Industry Market Entry Scenario Premium (Premium)
    4.1 Regulatory Scenario
    4.2 Ease of Doing Business Index
    4.3 Case Studies
    4.4 Customer Analysis
5. Silicon Carbide Power Semiconductor Market – Startup Company Scenario (Premium)
    5.1 Venture Capital and Funding Scenario
    5.2 Startup Company Analysis
6. Silicon Carbide Power Semiconductor Market - Market Forces
    6.1 Market Drivers
    6.2 Market Constraints
    6.3 Porters five force model
        6.3.1 Bargaining power of suppliers
        6.3.2 Bargaining powers of customers
        6.3.3 Threat of new entrants
        6.3.4 Rivalry among existing players
        6.3.5 Threat of substitutes
7. Silicon Carbide Power Semiconductor Market – By Strategic Analysis (Market Size -$Million/Billion)
    7.1 Value Chain Analysis
    7.2 Opportunities Analysis
    7.3 Product Life Cycle/Market Life Cycle Analysis
8. Silicon Carbide Power Semiconductor Market – By Power Module (Market Size -$Million/Billion)
    8.1 Power
    8.2 Discrete
    8.3 Others
9. Silicon Carbide Power Semiconductor Market – By Device (Market Size -$Million/Billion)
    9.1 Module
    9.2 SIC Bare Die Device
    9.3 MOSFET
    9.4 IGBT
    9.5 Others
10. Silicon Carbide Power Semiconductor Market – By Wafer Size (Market Size -$Million/Billion)
    10.1 2 Inch
    10.2 4 Inch
    10.3 6 Inch
    10.4 Others
11. Silicon Carbide Power Semiconductor Market – By End User (Market Size -$Million/Billion)
    11.1 Power Electronics
    11.2 Automotive
    11.3 Aerospace and Defense
    11.4 Healthcare
    11.5 IT and Telecom
    11.6 Industrial
    11.7 Others
12. Silicon Carbide Power Semiconductor Market - By Geography (Market Size -$Million/Billion)
    12.1 North America
        12.1.1 U.S
        12.1.2 Canada
        12.1.3 Mexico
    12.2 Europe
        12.2.1 Germany
        12.2.2 France
        12.2.3 UK
        12.2.4 Italy
        12.2.5 Spain
        12.2.6 Russia
        12.2.7 Netherlands
        12.2.8 Others
    12.3 APAC
        12.3.1 China
        12.3.2 Japan
        12.3.3 South Korea
        12.3.4 India
        12.3.5 Australia
        12.3.6 Indonesia
        12.3.7 Malaysia
        12.3.8 Others
    12.4 South America
        12.4.1 Brazil
        12.4.2 Argentina
        12.4.3 Chile
        12.4.4 Colombia
        12.4.5 Others
    12.5 RoW
        12.5.1 Middle East
        12.5.2 Africa
13. Silicon Carbide Power Semiconductor Market - Market Entropy
    13.1 New product launches
    13.2 M&A's, collaborations, JVs and partnerships
14. Silicon Carbide Power Semiconductor Market – Industry Competitive Landscape (Premium)
    14.1 Market Share – Global
    14.2 Market Share by Region
    14.3 Market Share By Power Module
15. Silicon Carbide Power Semiconductor Market – Key Company List by Country Premium (Premium)
16. Silicon Carbide Power Semiconductor Market - Company Analysis
    16.1 Company 1
    16.2 Company 2
    16.3 Company 3
    16.4 Company 4
    16.5 Company 5
    16.6 Company 6
    16.7 Company 7
    16.8 Company 8
    16.9 Company 9
    16.10 Company 10