Global Automotive Silicon Carbide Market 2022-2027

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    GLOBAL AUTOMOTIVE SILICON CARBIDE MARKET

     

    INTRODUCTION

    Silicon carbide, abbreviated SiC, is a semiconductor base material made up of pure silicon as well as pristine carbon. To make an n-type semiconductor, dope SiC with nitrogen or phosphorus, or dope it with beryllium, boron, aluminium, or gallium to make a p-type microelectronics.

     

    Iron and carbon inclusions are frequent in heavier, relatively common types of silicon carbide, while pure SiC crystals are colourless and form when silicon carbide sublimes at 2700 degrees Celsius.

     

    The combination of SiC’s high specific heat capacity, low coefficient of thermal expansion, as well as high maximum current densities results in outstanding electrical conductivity, especially when compared to silicon, SiC’s more popular relative.

     

    SiC’s material properties make it ideal for high-power applications requiring high current, high temperatures, and high thermal conductivity. SiC has emerged as a prominent participant in the electronics industry, supplying power to MOSFETs, Schottky diodes, and power modules used in slightly elevated, high-efficiency systems.

     

     

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    Even though more costly than silicon MOSFETs, which generally have breakdown voltages of 900V, SiC enables for voltage sensitivities.

     

    SiC has grown in popularity in the automobile industry due to the sector’s requirement for high quality, dependability, and effectiveness. SiC has the ability to meet high voltage needs with ease.

     

    Silicon carbide has the potential to expand electric car vehicle performance by improving overall efficiency of the system, particularly inside the inverter system, which improves overall power preservation whilst lowering the weight and volume of energy storage technologies.

     

    GLOBAL AUTOMOTIVE SILICON CARBIDE MARKET DEVELOPMENTS AND INNOVATIONS

    S No Overview of Development Development Detailing Region of Development Possible Future Outcomes
    1 STMicroelectronics Drives the Future of EVs and Industrial Applications with New Silicon-Carbide Devices ST’s latest-generation silicon-carbide (SiC) power devices extend leadership in performance and reliability for e-mobility and energy-efficient industry. It is introducing its third generation of STPOWER silicon-carbide (SiC) MOSFETs Global Scale This would enhance better Technologies and production

     

    GLOBAL AUTOMOTIVE SILICON CARBIDE MARKET DYNAMICS

    Considering the increased focus of semiconductors integrated and composition made of SiC in the industrial market.

     

    The Automakers have been focusing on the On-Board Battery charging equipment and Plug in charging hubs. Currently, automakers are focusing on vehicle electrification as a very effective approach to cut passenger vehicle pollutants as well as minimize severe financial consequences.

     

    Vehicle types with varying degrees of digitalization have already been introduced commercially, including mild-hybrid electric cars, complete hybrid cars, and plug-in hybrid electric vehicles, as well as zero-emission Battery Electric Vehicles and Fuel-Cell Electric Vehicles.

     

    Previously, it was thought that the shift to battery – electric vehicles would be sluggish and piecemeal. This was mostly attributable to the expensive cost of batteries and the low driving range of electric cars.

     

    A quicker adoption of electric cars is being witnessed as a result of exponentially growing battery technology, reduced battery production costs, distribution network convergence, and a variety of other variables.

     

    As during current scale of modernization, Asia Pacific is likely to lead the silicon carbide industry. Due to the increasing need for advanced and updated technologies throughout numerous industries such as manufacturing, automobile, and military vehicle integrations in nations such as China, India, and Japan, the region’s demand for silicon carbide has been expanding.

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    The area dominates the semiconductors business, which is aided by government schemes, and demand for silicon carbide is expected to rise substantially. China is indeed a significant consumer of semiconductors and is attempting to increase semiconductor output.

     

    The Government of India unveiled two new plans to boost microelectronic technology in India: the Scheme for Promoting Manufacturing of Electronic Components and Semiconductors and the Scheme for Modified Electronics Manufacturing Hubs.

     

    GLOBAL AUTOMOTIVE SILICON CARBIDE MARKET SEGMENTATION

    The Global Automotive Silicon Carbide Market can be segmented into following categories for further analysis.

    By Application

    • Passenger Vehicles
    • Commercial Vehicles
    • Industrial Vehicles
    • Military Vehicles

     

    By Product Type

    • Green SiC
    • Black SiC

     

    By Technology Focus Type

    • SiC Discrete Device
    • SiC Bare Die
    • SiC Module Sets

     

    By Operation Wafer Size Type

    • 2 Inch Wafer
    • 4 Inch Wafer
    • 6 Inch and Above Wafer

     

    By Usage Component Type

    • Semiconductor Sheets
    • Battery Module Devices
    • ECU Components

     

    By Regional Classification

    • Asia Pacific Region – APAC
    • Middle East and Gulf Region
    • Africa Region
    • North America Region
    • Europe Region
    • Latin America and Caribbean Region

     

    RECENT TECHNOLOGICAL TRENDS IN GLOBAL AUTOMOTIVE SILICON CARBIDE MARKET

    SiC is found in several EV components, including that of the traction inverters, DC-DC transformation, and on-board recharging. The recharging infrastructure sector, which would be rapidly expanding, is very interested in SiC.

     

    Indeed, the efficiency improvements and periodicity of SiC can assist high-power charging. High-voltage SiC power converters are indeed critical in enabling the fast-charging facilities that would remove the very last significant impediment to widespread EV customer perception.

     

    SiC is extremely efficient at high voltages, enabling fast battery charging times roughly equivalent to processing a standard car’s tank. Whenever it relates to a combination of high temperatures, high – power density, and higher switching frequencies, silicon carbide outperforms silicon.

     

    These are in addition to calculated network cost reductions for the main inverter and onboard charging. Increased energy productivity has become one of the technological advantages of silicon carbide over IGBTs.

     

    SiC’s effectiveness could also reflect into additional room inside a car. Through another use, automobile integrated recharging, silicon carbide may effectively contribute to greater storage.

     

    This implies that power levels for onboard charging must be increased, otherwise the batteries will not be able to be fully charged up overnight.

     

    Furthermore, there are an increasing number of use cases that necessitate bi-directional recharging, also including vehicle-to-grid charging.

     

     

    NEW PRODUCT LAUNCH GLOBAL AUTOMOTIVE SILICON CARBIDE MARKET

     

    McLaren Applied has unveiled its new silicon carbide inverter, which will enable faster charging, improved efficiency, and longer range in the next generation of electric vehicles. IPG5 is an 800V Silicon Carbide (SiC) inverter with ultra-fast charging and high power density to improve powertrain efficiency.

     

    It was created for automotive applications, such as direct drive, that require the efficient operation of high-speed motors while adhering to ISO 26262 ASIL-D regulations. By progressing to the engineering verification phase, the company is getting closer to full production of the Inverter Platform Generation 5 (IPG5).

     

    McLaren Applied is already giving clients and partners with production intent design hardware for further development and testing. Using IPG5, automakers may create automobiles with longer ranges, faster charging times, and better acceleration at a lower cost, while also improving sustainability.

     

    The 800V architecture is designed to accommodate the next generation of electric vehicles by allowing for lighter electric wiring and ultra-quick charging. SiC technology enables for a faster, more efficient, and lighter powertrain, including inverter, motor, and battery systems, by allowing for a large increase in switching frequency.

     

    Increased drivetrain efficiency allows for a smaller battery, which is often the most expensive component in a battery electric vehicle, resulting in further cost, weight, and sustainability benefits.

     

    COMPETITIVE LANDSCAPE

    SiC technology and components economic growth in the electric vehicle/hybrid electric vehicle (EV/HEV) industry stalled during the first half of the decade owing to shutdown procedures and decreased production levels across both OEMs and SiC vendors’ facilities.

     

    SiC transistors nevertheless face certain technical and economical obstacles, despite the usefulness they provide. Together with EV applications, SiC is of considerable interest to the charging infrastructure business, which would be increasing considerably.

     

    Wolfspeed Inc is a leading integrator of silicon carbide technology within vehicle applications. It has been focusing on better and optimised requirements of increasing efficiencies and adoptions.

     

    It has launched the Silicon carbide focused MOFSETs which are to be integrated for on board and off board EV Chargers. Silicon Carbide (SiC) MOSFETs have led the transition from silicon-to-silicon carbide in EVs.

     

    EV designers, no longer restricted by the restrictions of Si devices, welcomed the quicker switching rates and higher power density that only Silicon Carbide MOSFETs and Schottky diodes enable, resulting in minimal, lightweight, and much more effective motors.

     

    Lowering energy loss by roughly 80% decreases users’ range anxiety through increasing driving distance by up to 10%. vehicle-grade E-Series, a ruggedized semiconductor series that includes the first commercially available Silicon Carbide MOSFETs and diodes that are AEC-Q101 automobile rated and PPAP compatible.

     

    For both on-board and off-board vehicle energy conversion systems, this same E-Series provides the highest possible power density and therefore can withstand the roughest circumstances.

     

    Infineon Technologies is also involved in development of the MOSFET Solutions in the market. They are focused on integrating energy efficiency-based technology into the industrial environment.

     

    Infineon has unveiled the ground-breaking CoolSiC MOSFET innovation, allowing completely new product lines. The Silicon Carbide (SiC) MOSFET has several benefits over standard Silicon-based switches such as IGBTs and MOSFETs.

     

    Solar converters, charging infrastructure, energy storage, motor drives, UPS, auxiliary power supply, and SMPS are all applications for CoolSiC MOSFET devices in 1700 V, 1200 V, and 650 V.

     

    For system designers, Silicon Carbide CoolSiC MOSFETs offer the finest efficiency, dependability, and convenience of being used. CoolSiC MOSFETs in standalone modules are appropriate for tough and reverberant architectures such as power factor correction (PFC) circuits, bi-directional designs, and DC-DC conversions or DC-AC inverters. Its remarkable resistance to undesirable spurious turn-on impacts establishes a new standard in low dynamic loss, even at zero-volt turn-off.

     

    COMPANIES PROFILED

    Sl no Topic
    1 Market Segmentation
    2 Scope of the report
    3 Abbreviations
    4 Research Methodology
    5 Executive Summary
    6 Introduction
    7 Insights from Industry stakeholders
    8 Cost breakdown of Product by sub-components and average profit margin
    9 Disruptive innovation in theIndustry
    10 Technology trends in the Industry
    11 Consumer trends in the industry
    12 Recent Production Milestones
    13 Component Manufacturing in US, EU and China
    14 COVID-19 impact on overall market
    15 COVID-19 impact on Production of components
    16 COVID-19 impact on Point of sale
    17 Market Segmentation, Dynamics and Forecast by Geography, 2022-2027
    18 Market Segmentation, Dynamics and Forecast by Product Type, 2022-2027
    19 Market Segmentation, Dynamics and Forecast by Application, 2022-2027
    20 Market Segmentation, Dynamics and Forecast by End use, 2022-2027
    21 Product installation rate by OEM, 2022
    22 Incline/Decline in Average B-2-B selling price in past 5 years
    23 Competition from substitute products
    24 Gross margin and average profitability of suppliers
    25 New product development in past 12 months
    26 M&A in past 12 months
    27 Growth strategy of leading players
    28 Market share of vendors, 2022
    29 Company Profiles
    30 Unmet needs and opportunity for new suppliers
    31 Conclusion
    32 Appendix
     
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