Europe Sic Power Semiconductor Market
Tamaño del mercado en miles de millones de dólares
Tasa de crecimiento anual compuesta (CAGR) :
% 
 Período de pronóstico |
1 –0 |
 Tamaño del mercado (año base) |
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 Tamaño del mercado (año de pronóstico) |
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 Tasa de crecimiento anual compuesta (CAGR) |
% |
| Jugadoras de los principales mercados |
>Mercado europeo de semiconductores de potencia de SiC, por tipo (MOSFETS, módulos híbridos, diodos de barrera Schottky (SBDS), IGBT, transistor de unión bipolar (BJT), diodo pin, FET de unión (JFET) y otros), rango de voltaje (301-900 V, 901-1700 V, por encima de 1701 V), tamaño de oblea (6 pulgadas, 4 pulgadas, 2 pulgadas, por encima de 6 pulgadas), tipo de oblea (obleas epitaxiales de SiC, obleas de SiC en blanco), aplicación (vehículos eléctricos (VE), fotovoltaica, fuentes de alimentación, variadores de motor industriales, infraestructura de carga de EV, dispositivos de RF y otros), vertical (automotriz, servicios públicos y energía, industrial, transporte, TI y telecomunicaciones, electrónica de consumo, aeroespacial y defensa, comercial y otros) Tendencias de la industria y pronóstico hasta 2030.
Análisis y tamaño del mercado europeo de semiconductores de potencia de SiC
Los semiconductores de potencia de SiC son los semiconductores más comunes y se consideran la mejor opción para la electrónica. Estos semiconductores de potencia de SiC se aplican en los sectores doméstico, comercial e industrial y en otras áreas. Los semiconductores de potencia de SiC están disponibles en dos tipos de dispositivos, como dispositivos discretos de SiC y chips de SiC. Debido a los avances tecnológicos, la prevalencia de los dispositivos discretos de SiC ha aumentado más rápido. La propiedad más importante de los semiconductores de potencia de SiC es su alta conductividad térmica, junto con otras que utilizan la electricidad de manera eficiente. Los semiconductores de potencia de SiC se utilizan en telecomunicaciones, energía y electricidad, generación de energía renovable y en varios otros lugares. Los semiconductores de potencia de SiC se utilizan en la electrónica de potencia y están ganando popularidad entre las personas. La demanda de semiconductores de potencia de SiC en el mercado europeo de semiconductores de potencia de SiC está aumentando a un ritmo mayor. Para ello, varios actores del mercado están introduciendo nuevos productos y formando asociaciones para expandir su negocio en el mercado europeo de semiconductores de potencia de SiC.
Data Bridge Market Research analiza que se espera que el mercado europeo de semiconductores de potencia de SiC alcance un valor de 1.099.688,01 mil dólares en 2030, con una tasa compuesta anual del 26,5 % durante el período de pronóstico. El informe sobre el mercado europeo de semiconductores de potencia de SiC también cubre de forma exhaustiva el análisis de precios, el análisis de patentes y los avances tecnológicos.
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Métrica del informe |
Detalles |
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Período de pronóstico |
2023 a 2030 |
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Año base |
2022 |
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Años históricos |
2021 (Personalizable para 2020-2016) |
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Unidades cuantitativas |
Ingresos en miles de USD, volúmenes en unidades, precios en USD |
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Segmentos cubiertos |
By Type (MOSFETS, Hybrid Modules, Schottky Barrier Diodes (SBDS), IGBT, Bipolar Junction Transistor (BJT), Pin Diode, Junction FET (JFET), and Others), Voltage Range (301-900 V, 901-1700 V, Above 1701 V), Wafer size (6 Inch, 4 Inch, 2 Inch, Above 6 Inch), Wafer type (SiC Epitaxial Wafers, Blank SiC Wafers), Application (Electric Vehicles (EV), Photovoltaics, Power Supplies, Industrial Motor Drives, EV Charging Infrastructure, RF Devices, and Others), Vertical (Automotive, Utilities and Energy, Industrial, Transportation, IT and Telecommunication, Consumer Electronics, Aerospace and Defense, Commercial, and Others). |
|
Countries Covered |
Germany, U.K., Italy, France, Spain, Switzerland, Netherlands, Belgium, Russia, Turkey, Poland, Sweden, Denmark, Rest of Europe. |
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Market Players Covered |
WOLFSPEED, INC., STMicroelectronics, ROHM CO., LTD., Fuji Electric Co., Ltd., Mitsubishi Electric Corporation, Texas Instruments Incorporated, Infineon Technologies AG, Semikron Danfoss, Renesas Electronics Corporation, TOSHIBA ELECTRONIC DEVICES & STORAGE CORPORATION, Microchip Technology Inc., Semiconductor Components Industries, LLC, NXP Semiconductors, UnitedSiC, SemiQ Inc., Littlefuse, Inc., Allegro MicroSystems, Inc., Hitachi Power Semiconductor Device, Ltd. (A Subsidiary of Hitachi Group), and GeneSiC Semiconductor Inc. among others |
Market Definition
SiC power semiconductor refers to the type of semiconductor that contains carbon and silicon and operates at very high voltage and temperature. SiC power semiconductors can be used in producing a strong as well as a very hard material. SiC power semiconductors can be implemented in various sectors such as telecommunication, energy and power, automotive, renewable power generation, and in different other areas. They are basically considered due to higher maximum thermal conductive properties that have widened the area of application. SiC power semiconductors are devices that are considered high-frequency power devices that are majorly applicable in wireless communications. SiC semiconductor offers ten times the dielectric breakdown field strength, three times the thermal conductivity, and three times the bandgap as compared to a silicon semiconductor. The SiC semiconductor has taken over the market because of its high performance and efficiency. The SiC power semiconductor offers to work at high voltage and current and offers low on-resistance in addition to being efficient at high temperatures. The combination of silicon carbide has thus proved to be a better and optimum choice of semiconductor.
Europe SiC Power Semiconductor Market Dynamics
This section deals with understanding the market drivers, advantages, opportunities, restraints, and challenges. All of this is discussed in detail below:
Drivers
- Advent Of SiC Power Semiconductors
There are very useful properties of SiC as a semiconductor material. In applications such as inverters, motor drives, and battery chargers, silicon carbide (SiC) devices offer many advantages, such as improved power density, reduced cooling requirements, and reduced overall system cost. These advantages are enough to make SiC power semiconductors at the high efficient stage.
The energy lost by SiC during the reverse recovery phase is only 1% of the energy lost by silicon which creates a huge difference in the efficiency of the material. The virtual absence of a tail current allows a faster turn‑off, and it makes lower losses. Since there is less energy to dissipate, a SiC device able to switch at higher frequencies and improve efficiency. The more efficient, small size, and lower weight of SiC as compared to other materials can create a higher-rated solution or a smaller design with reduced cooling requirements. Thus, the advent of SiC power semiconductors is a major factor expected to drive the growth of the Europe SiC power semiconductor market.
- Rising Penetration of Electronic Vehicles
The world is changing so fast, and it is turning towards renewable energy. All sectors, market players, and government institutes are making more focus to build electric vehicle infrastructure and generate more demand for electric vehicles.
As per the information from International Energy Agency (IEA), 16.5 million electric cars were on the road in 2021, a tripling in just three years, and this is a big number as compared to 2020. Electric car sales increased and doubled in China, continued to increase in Europe, and picked up in the U.S. in 2021. This data shows that there is a tremendous increase in the penetration of EVs in the market, which may positively affect the environment as well as the Europe SiC power semiconductor market. SiC is highly efficient at high voltages, enabling fast battery charging times that are comparable to filling the tank of conventional vehicles. Silicon carbide power electronics are enabling a surge in 800-volt drive systems, paving the way for lighter EVs with greater range.
Opportunity
- Strategic Partnership and Acquisition by SiC Manufacturers
There are various organizations and market players which are creating strategic partnerships and acquisitions. This partnership creates a huge positive impact on the growth of the Europe SiC power semiconductor market. This collaboration results in cooperation, becoming a low-cost route for new competitors to gain technology and market access.
A joint venture involves two or more businesses pooling their resources and expertise to achieve a particular goal. There are many organizations that collaborate with each other's and create a positive impact on the growth of the Europe SiC power semiconductor market.
Restraint/Challenge
- Issues Related With SiC Wafer Manufacturing
A SiC wafer is a semiconductor material that has excellent electrical and thermal properties. It is a high-performance semiconductor that is ideal for a wide variety of applications. In addition to its high thermal resistance, it also features a very high level of hardness. There is a lot of fabrication challenge faced by SiC wafer manufacturers. The main defects that can occur during the manufacturing of SiC substrates are crystalline stacking faults, micro pipes, pits, scratches, stains, and surface particles. These factors are adversely affecting the performance of SiC devices which have been detected more frequently on 150-mm wafers than on 100-mm wafers. This is because SiC is the third-hardest composite material in the world and is also very fragile, and its production poses complex challenges related to cycle time, cost, and dicing performance. It is effective to predict that even switching to 200-mm wafers will entail significant issues. In fact, it will be necessary to guarantee the same quality of the substrate, facing an inevitably higher density of defects.
Post-COVID-19 Impact on Europe SiC Power Semiconductor Market
The SiC power semiconductor industry noted a gradual decrease in demand due to the lockdown and COVID-19 governmental laws, as manufacturing facilities and services were closed. Even private and public development was called off. Moreover, the industry was also affected by the halt of the supply chain, especially of raw materials used in the manufacturing process of SiC power semiconductors. Stringent government regulations for different industries and restrictions on trade & transportation were some of the top factors that caused a dent in the growth of the market for SiC power semiconductors around the world in 2020 and in the first two quarters of 2021. As the SiC power semiconductor production slowed down owing to the restrictions by governments across the globe, the production was not meeting the demand in the first three quarters of 2020. Moreover, high demand/requirement for SiC power semiconductor products in the automotive and defense industry, in the medical sector, and in hydraulics applications has been witnessed. The resumption of production of the oil and gas industry and automotive; further fuelled the rising demand for SiC power semiconductors across the globe. Thus, this not only led to a hike in demand but also increased the cost of the product.
Recent Developments
- En diciembre de 2022, STMicroelectronics y Soitec (Euronext Paris), en el diseño y la fabricación de materiales semiconductores innovadores, anunciaron la siguiente etapa de su cooperación en sustratos de carburo de silicio (SiC), con la cualificación de la tecnología de sustrato de SiC de Soitec por parte de ST prevista para los próximos 18 meses. El objetivo de esta cooperación es la adopción por parte de ST de la tecnología SmartSiC de Soitec para su futura fabricación de sustratos de 200 mm, alimentando su negocio de fabricación de dispositivos y módulos, con una producción en volumen prevista a medio plazo. Esta colaboración ayudará a la empresa a impulsar sus finanzas, así como el crecimiento del mercado europeo de semiconductores de potencia de SiC.
- En julio de 2022, Semikron Danfoss y la empresa ROHM Semiconductor, con sede en Kioto, llevan más de diez años colaborando en la implementación de carburo de silicio (SiC) en módulos de potencia. Recientemente, la cuarta generación de MOSFET de SiC de ROHM ha sido homologada por completo en los módulos eMPack de SEMIKRON para uso en automoción. De este modo, ambas empresas atienden las necesidades de clientes de todo el mundo. Esta colaboración mejoró las finanzas de la empresa y tuvo un impacto positivo en el crecimiento del mercado europeo de semiconductores de potencia de SiC.
Alcance del mercado europeo de semiconductores de potencia de SiC
El mercado europeo de semiconductores de potencia de SiC está segmentado en función del tipo, rango de voltaje, tamaño de oblea, tipo de oblea, aplicación y vertical. El crecimiento entre estos segmentos le ayudará a analizar segmentos de crecimiento reducido en las industrias y brindará a los usuarios una valiosa descripción general del mercado y conocimientos del mercado para ayudarlos a tomar decisiones estratégicas para identificar las principales aplicaciones del mercado.
Por tipo
- MOSFET
- Módulos híbridos
- Diodos de barrera Schottky (SBDS)
- Transistor bipolar de transistores (IGTB)
- Transistor de unión bipolar (BJT)
- Diodo pin
- Transistor de transistores de unión (JFET)
- Otros
Según el tipo, el mercado europeo de semiconductores de potencia de SiC está segmentado en MOSFETS, módulos híbridos, diodos de barrera Schottky (SBDS), IGBT, transistores de unión bipolar (BJT), diodos Pin, FET de unión (JFET) y otros.
Por rango de voltaje
- 301-900 voltios
- 901-1700 voltios
- Por encima de 1701 V
Sobre la base del rango de voltaje, el mercado europeo de semiconductores de potencia de SiC está segmentado en 301-900 V, 901-1700 V y más de 1701 V.
Por tamaño de oblea
- 6 pulgadas
- 4 pulgadas
- 2 pulgadas
- Más de 6 pulgadas
Sobre la base del tamaño de la oblea, el mercado europeo de semiconductores de potencia de SiC está segmentado en 6 pulgadas, 4 pulgadas, 2 pulgadas y más de 6 pulgadas.
Por tipo de oblea
- Obleas epitaxiales de SiC
- Obleas de SiC en blanco
Sobre la base del tipo de oblea, el mercado europeo de semiconductores de potencia de SiC está segmentado en obleas epitaxiales de SiC y obleas de SiC en blanco.
Por aplicación
- Vehículos eléctricos (VE)
- Fotovoltaica
- Fuentes de alimentación
- Accionamientos de motores industriales
- Infraestructura de carga de vehículos eléctricos
- Dispositivos de RF
- Otros
Sobre la base de la aplicación, el mercado europeo de semiconductores de potencia SIC está segmentado en vehículos eléctricos (VE), energía fotovoltaica, fuentes de alimentación, accionamientos de motores industriales, infraestructura de carga de VE, dispositivos de RF y otros.
Por vertical
- Automotor
- Servicios públicos y energía
- Industrial
- Transporte
- Informática y telecomunicaciones
- Electrónica de consumo
- Aeroespacial y defensa
- Comercial
- Otros
Sobre la base de la vertical, el mercado europeo de semiconductores de potencia de SiC está segmentado en automoción, servicios públicos y energía, industrial, transporte, TI y telecomunicaciones, electrónica de consumo, aeroespacial y defensa, comercial y otros.
Análisis y perspectivas regionales del mercado europeo de semiconductores de potencia de SiC
Se analiza el mercado europeo de semiconductores de potencia SiC y se proporcionan información y tendencias sobre el tamaño del mercado por región, tipo, rango de voltaje, tamaño de oblea, tipo de oblea, aplicación y vertical como se menciona anteriormente.
Los países cubiertos en el informe del mercado de semiconductores de potencia de SiC de Europa son Alemania, Reino Unido, Italia, Francia, España, Suiza, Países Bajos, Bélgica, Rusia, Turquía, Polonia, Suecia, Dinamarca y el resto de Europa.
Se espera que en 2023 Alemania domine el mercado europeo de semiconductores de potencia de SiC debido a la alta demanda de productos relacionados con semiconductores de potencia de SiC. Además, se espera que la alta demanda de módulos de potencia y dispositivos relacionados actúe como un factor impulsor del crecimiento del mercado.
La sección de regiones del informe también proporciona factores individuales que impactan en el mercado y cambios en la regulación del mercado que afectan las tendencias actuales y futuras del mercado. Los puntos de datos como el análisis de la cadena de valor ascendente y descendente, las tendencias técnicas y el análisis de las cinco fuerzas de Porter, los estudios de caso son algunos de los indicadores utilizados para pronosticar el escenario del mercado para países individuales. Además, la presencia y disponibilidad de marcas europeas y sus desafíos afrontados debido a la gran o escasa competencia de las marcas locales y nacionales, el impacto de los aranceles nacionales y las rutas comerciales se consideran al proporcionar un análisis de pronóstico de los datos de la región.
Análisis del panorama competitivo y de la cuota de mercado de semiconductores de potencia de SiC en Europa
El panorama competitivo del mercado europeo de semiconductores de potencia de SiC proporciona detalles por competidor. Los detalles incluidos son una descripción general de la empresa, las finanzas de la empresa, los ingresos generados, el potencial de mercado, la inversión en investigación y desarrollo, las nuevas iniciativas de mercado, la presencia en Europa, los sitios e instalaciones de producción, las capacidades de producción, las fortalezas y debilidades de la empresa, el lanzamiento de productos, la amplitud y variedad de productos y el dominio de las aplicaciones. Los puntos de datos anteriores proporcionados solo están relacionados con el enfoque de las empresas en relación con el mercado europeo de semiconductores de potencia de SiC.
Algunos de los principales actores que operan en el mercado europeo de semiconductores de potencia de SiC son WOLFSPEED, INC., STMicroelectronics, ROHM CO., LTD., Fuji Electric Co., Ltd., Mitsubishi Electric Corporation, Texas Instruments Incorporated, Infineon Technologies AG, Semikron Danfoss, Renesas Electronics Corporation, TOSHIBA ELECTRONIC DEVICES & STORAGE CORPORATION, Microchip Technology Inc., Semiconductor Components Industries, LLC, NXP Semiconductors, UnitedSiC, SemiQ Inc., Littlefuse, Inc., Allegro MicroSystems, Inc., Hitachi Power Semiconductor Device, Ltd. (una subsidiaria de Hitachi Group) y GeneSiC Semiconductor Inc., entre otros.
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Tabla de contenido
1 INTRODUCTION
1.1 OBJECTIVES OF THE STUDY
1.2 MARKET DEFINITION
1.3 OVERVIEW OF THE EUROPE SIC POWER SEMICONDUCTOR MARKET
1.4 CURRENCY AND PRICING
1.5 LIMITATIONS
1.6 MARKET COVERED
2 MARKET SEGMENTATION
2.1 MARKETS COVERED
2.2 YEARS CONSIDERED FOR THE STUDY
2.3 GEOGRAPHIC SCOPE
2.4 DBMR TRIPOD DATA VALIDATION MODEL
2.5 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS
2.6 DBMR MARKET POSITION GRID
2.7 VENDOR SHARE ANALYSIS
2.8 MULTIVARIATE MODELLING
2.9 TYPE CURVE
2.1 MARKET APPLICATION COVERAGE GRID
2.11 SECONDARY SOURCES
2.12 ASSUMPTIONS
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
5 MARKET OVERVIEW
5.1 DRIVERS
5.1.1 ADVENT OF SIC POWER SEMICONDUCTORS
5.1.2 RISING PENETRATION OF ELECTRONIC VEHICLES
5.1.3 INCREASING USAGE OF PHOTOVOLTAIC TECHNOLOGIES
5.1.4 RISING GROWTH OF SEMICONDUCTOR INDUSTRY
5.1.5 RISING DEPLOYMENT OF WBG POWER SEMICONDUCTORS IN DATA CENTERS
5.2 RESTRAINTS
5.2.1 HIGH COST ASSOCIATED WITH SIC SUBSTRATES
5.3 OPPORTUNITIES
5.3.1 STRATEGIC PARTNERSHIP AND ACQUISITION BY SIC MANUFACTURERS
5.3.2 GROWING SUPPLY CHAIN CAPABILITIES IN NORTH AMERICA AND EUROPE
5.3.3 IMPLEMENTATION OF SIC TECHNOLOGY IN THE ENERGY SECTOR
5.3.4 STRONG INITIATIVES AND INVESTMENTS TAKEN BY THE GOVERNMENT/COMPANIES TO BOOST SEMICONDUCTOR MARKET.
5.4 CHALLENGES
5.4.1 ISSUES RELATED WITH SIC WAFER MANUFACTURING
5.4.2 SHORTAGE OF SILICON CARBIDE SEMICONDUCTORS DUE TO DISRUPTED SUPPLY CHAIN
6 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY TYPE
6.1 OVERVIEW
6.2 MOSFETS
6.3 HYBRID MODULES
6.4 SCHOTTKY BARRIER DIODES (SBDS)
6.5 IGBT
6.6 BIPOLAR JUNCTION TRANSISTOR (BJT)
6.7 PIN DIODE
6.8 JUNCTION FET (JFET)
6.9 OTHERS
7 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE
7.1 OVERVIEW
7.2 301-900 V
7.3 901-1700 V
7.4 ABOVE 1701 V
8 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE
8.1 OVERVIEW
8.2 6 INCH
8.3 4 INCH
8.4 2 INCH
8.5 ABOVE 6 INCH
9 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE
9.1 OVERVIEW
9.2 SIC EPITAXIAL WAFERS
9.3 BLANK SIC WAFERS
10 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION
10.1 OVERVIEW
10.2 ELECTRIC VEHICLES
10.3 PHOTOVOLTAICS
10.4 POWER SUPPLIES
10.5 INDUSTRIAL MOTOR DRIVES
10.6 EV CHARGING INFRASTRUCTURE
10.7 RF DEVICES
10.8 OTHERS
11 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL
11.1 OVERVIEW
11.2 AUTOMOTIVE
11.3 UTILITIES AND ENERGY
11.4 INDUSTRIAL
11.5 TRANSPORTATION
11.6 IT AND TELECOMMUNICATION
11.7 CONSUMER ELECTRONICS
11.8 AEROSPACE AND DEFENSE
11.9 COMMERCIAL
11.1 OTHERS
12 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY REGION
12.1 EUROPE
12.1.1 GERMANY
12.1.2 FRANCE
12.1.3 U.K
12.1.4 NETHERLANDS
12.1.5 ITALY
12.1.6 SPAIN
12.1.7 SWITZERLAND
12.1.8 RUSSIA
12.1.9 TURKEY
12.1.10 BELGIUM
12.1.11 POLAND
12.1.12 SWEDEN
12.1.13 DENMARK
12.1.14 REST OF EUROPE
13 EUROPE SIC POWER SEMICONDUCTOR MARKET, COMPANY LANDSCAPE
13.1 COMPANY SHARE ANALYSIS: EUROPE
14 SWOT ANALYSIS
15 COMPANY PROFILINGS
15.1 STMICROELECTRONICS
15.1.1 COMPANY SNAPSHOT
15.1.2 REVENUE ANALYSIS
15.1.3 COMPANY SHARE ANALYSIS
15.1.4 PRODUCT PORTFOLIO
15.1.5 RECENT DEVELOPMENTS
15.2 INFINEON TECHNOLOGIES AG
15.2.1 COMPANY SNAPSHOT
15.2.2 REVENUE ANALYSIS
15.2.3 COMPANY SHARE ANALYSIS
15.2.4 PRODUCT PORTFOLIO
15.2.5 RECENT DEVELOPMENTS
15.3 WOLFSPEED INC.
15.3.1 COMPANY SNAPSHOT
15.3.2 REVENUE ANALYSIS
15.3.3 COMPANY SHARE ANALYSIS
15.3.4 PRODUCT PORTFOLIO
15.3.5 RECENT DEVELOPMENTS
15.4 ROHM CO., LTD.
15.4.1 COMPANY SNAPSHOT
15.4.2 REVENUE ANALYSIS
15.4.3 COMPANY SHARE ANALYSIS
15.4.4 PRODUCT PORTFOLIO
15.4.5 RECENT DEVELOPMENTS
15.5 SEMICONDUCTOR COMPONENTS INDUSTRIES LLC
15.5.1 COMPANY SNAPSHOT
15.5.2 REVENUE ANALYSIS
15.5.3 COMPANY SHARE ANALYSIS
15.5.4 PRODUCT PORTFOLIO
15.5.5 RECENT DEVELOPMENTS
15.6 ALLEGRO MICROSYSTEMS, INC.
15.6.1 COMPANY SNAPSHOT
15.6.2 REVENUE ANALYSIS
15.6.3 COMPANY SHARE ANALYSIS
15.6.4 PRODUCT PORTFOLIO
15.6.5 RECENT DEVELOPMENTS
15.7 FUJI ELECTRIC CO. LTD.
15.7.1 COMPANY SNAPSHOT
15.7.2 REVENUE ANALYSIS
15.7.3 PRODUCT PORTFOLIO
15.7.4 RECENT DEVELOPMENTS
15.8 GENESIC SEMICONDUCTOR INC.
15.8.1 COMPANY SNAPSHOT
15.8.2 PRODUCT PORTFOLIO
15.8.3 RECENT DEVELOPMENTS
15.9 HITACHI POWER SEMICONDUCTOR DEVICE, LTD.
15.9.1 COMPANY SNAPSHOT
15.9.2 PRODUCT PORTFOLIO
15.9.3 RECENT DEVELOPMENTS
15.1 LITTLEFUSE, INC.
15.10.1 COMPANY SNAPSHOT
15.10.2 REVENUE ANALYSIS
15.10.3 PRODUCT PORTFOLIO
15.10.4 RECENT DEVELOPMENTS
15.11 MICROCHIP TECHNOLOGY INC.
15.11.1 COMPANY SNAPSHOT
15.11.2 REVENUE ANALYSIS
15.11.3 PRODUCT PORTFOLIO
15.11.4 RECENT DEVELOPMENTS
15.12 MITSUBISHI ELECTRIC CORPORATION
15.12.1 COMPANY SNAPSHOT
15.12.2 REVENUE ANALYSIS
15.12.3 PRODUCT PORTFOLIO
15.12.4 RECENT DEVELOPMENTS
15.13 NXP SEMICONDUCTORS
15.13.1 COMPANY SNAPSHOT
15.13.2 REVENUE ANALYSIS
15.13.3 DESIGN PORTFOLIO
15.13.4 RECENT DEVELOPMENTS
15.14 RENESAS ELECTRONICS CORPORATION
15.14.1 COMPANY SNAPSHOT
15.14.2 REVENUE ANALYSIS
15.14.3 PRODUCT PORTFOLIO
15.14.4 RECENT DEVELOPMENTS
15.15 SEMIKRON DANFOSS
15.15.1 COMPANY SNAPSHOT
15.15.2 PRODUCT PORTFOLIO
15.15.3 RECENT DEVELOPMENTS
15.16 SEMIQ INC.
15.16.1 COMPANY SNAPSHOT
15.16.2 PRODUCT PORTFOLIO
15.16.3 RECENT DEVELOPMENTS
15.17 TEXAS INSTRUMENTS INCORPORATED
15.17.1 COMPANY SNAPSHOT
15.17.2 REVENUE ANALYSIS
15.17.3 PRODUCT PORTFOLIO
15.17.4 RECENT DEVELOPMENTS
15.18 TOSHIBA ELECTRONIC DEVICES AND STORAGE CORPORATION
15.18.1 COMPANY SNAPSHOT
15.18.2 PRODUCTS PORTFOLIO
15.18.3 RECENT DEVELOPMENTS
15.19 UNITEDSIC
15.19.1 COMPANY SNAPSHOT
15.19.2 PRODUCT PORTFOLIO
15.19.3 RECENT DEVELOPMENTS
15.2 XIAMEN POWERWAY ADVANCED MATERIAL CO. LTD.
15.20.1 COMPANY SNAPSHOT
15.20.2 PRODUCT PORTFOLIO
15.20.3 RECENT DEVELOPMENTS
16 QUESTIONNAIRE
17 RELATED REPORTS
Lista de Tablas
TABLE 1 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 2 EUROPE MOSFETS IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 3 EUROPE HYBRID MODULES IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 4 EUROPE SCHOTTKY BARRIER DIODES (SBDS) IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 5 EUROPE IGBT IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 6 EUROPE BIPOLAR JUNCTION TRANSISTOR (BJT) IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 7 EUROPE PIN DIODE IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 8 EUROPE JUNCTION FET (JFET) IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 9 EUROPE OTHERS IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 10 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 11 EUROPE 301-900 V IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 12 EUROPE 901-1700 V IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 13 EUROPE ABOVE 1701 V IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 14 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 15 EUROPE 6 INCH IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 16 EUROPE 4 INCH IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 17 EUROPE 2 INCH IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 18 EUROPE ABOVE 6 INCH IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 19 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 20 EUROPE SIC EPITAXIAL WAFERS IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 21 EUROPE BLANK SIC WAFERS IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 22 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 23 EUROPE ELECTRIC VEHICLES (EV) IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 24 EUROPE PHOTOVOLTAICS IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 25 EUROPE POWER SUPPLIES IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 26 EUROPE INDUSTRIAL MOTOR DRIVES IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 27 EUROPE EV CHARGING INFRASTRUCTURE IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 28 EUROPE RF DEVICES IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 29 EUROPE OTHERS IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 30 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 31 EUROPE AUTOMOTIVE IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 32 EUROPE UTILITIES AND ENERGY IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 33 EUROPE INDUSTRIAL IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 34 EUROPE TRANSPORTATION IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 35 EUROPE IT AND TELECOMMUNICATION IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 36 EUROPE CONSUMER ELECTRONICS IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 37 EUROPE AEROSPACE AND DEFENSE IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 38 EUROPE COMMERCIAL IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 39 EUROPE OTHERS IN SIC POWER SEMICONDUCTOR MARKET, BY REGION, 2021-2030 (USD THOUSAND)
TABLE 40 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY COUNTRY, 2021-2030 (USD THOUSAND)
TABLE 41 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 42 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 43 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 44 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 45 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 46 EUROPE SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 47 GERMANY SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 48 GERMANY SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 49 GERMANY SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 50 GERMANY SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 51 GERMANY SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 52 GERMANY SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 53 FRANCE SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 54 FRANCE SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 55 FRANCE SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 56 FRANCE SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 57 FRANCE SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 58 FRANCE SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 59 U.K. SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 60 U.K. SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 61 U.K. SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 62 U.K. SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 63 U.K. SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 64 U.K. SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 65 NETHERLANDS SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 66 NETHERLANDS SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 67 NETHERLANDS SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 68 NETHERLANDS SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 69 NETHERLANDS SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 70 NETHERLANDS SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 71 ITALY SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 72 ITALY SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 73 ITALY SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 74 ITALY SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 75 ITALY SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 76 ITALY SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 77 SPAIN SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 78 SPAIN SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 79 SPAIN SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 80 SPAIN SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 81 SPAIN SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 82 SPAIN SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 83 SWITZERLAND SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 84 SWITZERLAND SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 85 SWITZERLAND SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 86 SWITZERLAND SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 87 SWITZERLAND SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 88 SWITZERLAND SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 89 RUSSIA SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 90 RUSSIA SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 91 RUSSIA SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 92 RUSSIA SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 93 RUSSIA SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 94 RUSSIA SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 95 TURKEY SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 96 TURKEY SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 97 TURKEY SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 98 TURKEY SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 99 TURKEY SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 100 TURKEY SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 101 BELGIUM SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 102 BELGIUM SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 103 BELGIUM SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 104 BELGIUM SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 105 BELGIUM SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 106 BELGIUM SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 107 POLAND SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 108 POLAND SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 109 POLAND SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 110 POLAND SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 111 POLAND SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 112 POLAND SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 113 SWEDEN SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 114 SWEDEN SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 115 SWEDEN SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 116 SWEDEN SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 117 SWEDEN SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 118 SWEDEN SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 119 DENMARK SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
TABLE 120 DENMARK SIC POWER SEMICONDUCTOR MARKET, BY VOLTAGE RANGE, 2021-2030 (USD THOUSAND)
TABLE 121 DENMARK SIC POWER SEMICONDUCTOR MARKET, BY WAFER SIZE, 2021-2030 (USD THOUSAND)
TABLE 122 DENMARK SIC POWER SEMICONDUCTOR MARKET, BY WAFER TYPE, 2021-2030 (USD THOUSAND)
TABLE 123 DENMARK SIC POWER SEMICONDUCTOR MARKET, BY APPLICATION, 2021-2030 (USD THOUSAND)
TABLE 124 DENMARK SIC POWER SEMICONDUCTOR MARKET, BY VERTICAL, 2021-2030 (USD THOUSAND)
TABLE 125 REST OF EUROPE SIC POWER SEMICONDUCTOR MARKET, BY TYPE, 2021-2030 (USD THOUSAND)
Lista de figuras
FIGURE 1 EUROPE SIC POWER SEMICONDUCTOR MARKET: SEGMENTATION
FIGURE 2 EUROPE SIC POWER SEMICONDUCTOR MARKET: DATA TRIANGULATION
FIGURE 3 EUROPE SIC POWER SEMICONDUCTOR MARKET: DROC ANALYSIS
FIGURE 4 EUROPE SIC POWER SEMICONDUCTOR MARKET: REGIONAL MARKET ANALYSIS
FIGURE 5 EUROPE SIC POWER SEMICONDUCTOR MARKET: COMPANY RESEARCH ANALYSIS
FIGURE 6 EUROPE SIC POWER SEMICONDUCTOR MARKET: INTERVIEW DEMOGRAPHICS
FIGURE 7 EUROPE SIC POWER SEMICONDUCTOR MARKET: DBMR MARKET POSITION GRID
FIGURE 8 EUROPE SIC POWER SEMICONDUCTOR MARKET: VENDOR SHARE ANALYSIS
FIGURE 9 EUROPE SIC POWER SEMICONDUCTOR MARKET: MULTIVARIATE MODELLING
FIGURE 10 EUROPE SIC POWER SEMICONDUCTOR MARKET: TYPE CURVE
FIGURE 11 EUROPE SIC POWER SEMICONDUCTOR MARKET:MARKET APPLICATION COVERAGE GRID
FIGURE 12 EUROPE SIC POWER SEMICONDUCTOR MARKET: SEGMENTATION
FIGURE 13 RISING PENETRATION OF ELECTRONIC VEHICLES IN THE MARKET IS EXPECTED TO DRIVE THE EUROPE SIC POWER SEMICONDUCTOR MARKET GROWTH IN THE FORECAST PERIOD OF 2023 TO 2030
FIGURE 14 MOSFETS SEGMENT IS EXPECTED TO ACCOUNT FOR THE LARGEST SHARE OF THE EUROPE SIC POWER SEMICONDUCTOR MARKET IN 2023 & 2030
FIGURE 15 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES OF THE EUROPE SIC POWER SEMICONDUCTOR MARKET
FIGURE 16 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY TYPE, 2022
FIGURE 17 EUROPE SIC POWER SEMICONDUCTOR MARKET: VOLTAGE RANGE, 2022
FIGURE 18 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY WAFER SIZE, 2022
FIGURE 19 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY WAFER TYPE, 2022
FIGURE 20 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY APPLICATION, 2022
FIGURE 21 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY VERTICAL, 2022
FIGURE 22 EUROPE SIC POWER SEMICONDUCTOR MARKET: SNAPSHOT (2022)
FIGURE 23 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY COUNTRY (2022)
FIGURE 24 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY COUNTRY (2023 & 2030)
FIGURE 25 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY COUNTRY (2022 & 2030)
FIGURE 26 EUROPE SIC POWER SEMICONDUCTOR MARKET: BY TYPE (2023-2030)
FIGURE 27 EUROPE SIC POWER SEMICONDUCTOR MARKET: COMPANY SHARE 2022 (%)
Metodología de investigación
La recopilación de datos y el análisis del año base se realizan utilizando módulos de recopilación de datos con muestras de gran tamaño. La etapa incluye la obtención de información de mercado o datos relacionados a través de varias fuentes y estrategias. Incluye el examen y la planificación de todos los datos adquiridos del pasado con antelación. Asimismo, abarca el examen de las inconsistencias de información observadas en diferentes fuentes de información. Los datos de mercado se analizan y estiman utilizando modelos estadísticos y coherentes de mercado. Además, el análisis de la participación de mercado y el análisis de tendencias clave son los principales factores de éxito en el informe de mercado. Para obtener más información, solicite una llamada de un analista o envíe su consulta.
La metodología de investigación clave utilizada por el equipo de investigación de DBMR es la triangulación de datos, que implica la extracción de datos, el análisis del impacto de las variables de datos en el mercado y la validación primaria (experto en la industria). Los modelos de datos incluyen cuadrícula de posicionamiento de proveedores, análisis de línea de tiempo de mercado, descripción general y guía del mercado, cuadrícula de posicionamiento de la empresa, análisis de patentes, análisis de precios, análisis de participación de mercado de la empresa, estándares de medición, análisis global versus regional y de participación de proveedores. Para obtener más información sobre la metodología de investigación, envíe una consulta para hablar con nuestros expertos de la industria.
Personalización disponible
Data Bridge Market Research es líder en investigación formativa avanzada. Nos enorgullecemos de brindar servicios a nuestros clientes existentes y nuevos con datos y análisis que coinciden y se adaptan a sus objetivos. El informe se puede personalizar para incluir análisis de tendencias de precios de marcas objetivo, comprensión del mercado de países adicionales (solicite la lista de países), datos de resultados de ensayos clínicos, revisión de literatura, análisis de mercado renovado y base de productos. El análisis de mercado de competidores objetivo se puede analizar desde análisis basados en tecnología hasta estrategias de cartera de mercado. Podemos agregar tantos competidores sobre los que necesite datos en el formato y estilo de datos que esté buscando. Nuestro equipo de analistas también puede proporcionarle datos en archivos de Excel sin procesar, tablas dinámicas (libro de datos) o puede ayudarlo a crear presentaciones a partir de los conjuntos de datos disponibles en el informe.
