다양한 애플리케이션(xEV, xEV charging infrastructure, PFC/power supply, PV, UPS, motor drives, wind, and rail)에서 SiC 침투에 대한 깊은 이해
최신 SiC 기반 장치, 모듈, 전력 스택의 검토(각각의 제품 차트)
SiC Power의 산업 환경에 대한 설명 (재료에서 시스템까지)
SiC 전력 디바이스 시장 가치 전망 2024(트랜지스터/다이오드 분할과 베어다이 시장, 애플리케이션별 디바이스 시장 분할, 디스크리트/모듈 분할과 디바이스 시장)
SiC 전력 시장의 역학에 대한 심층 분석
SiC 전력 장치 전압 분석
SiC 웨이퍼 및 에피웨이퍼 시장의 가치 및 볼륨 예측 2024
SiC 전력 산업 로드맵
SiC 전력 산업에 대한 명확한 이해 제공: 웨이퍼에서 디스크리트 및 모듈 레벨에 이르는 시장(유닛 및 $M의 평가)
SiC 전력 산업의 시장 드라이버 및 병목 현상 분석: 다양한 최종 애플리케이션 및 공급망에서 SiC의 채택 연구
SiC 전력 장치 기술의 상태 요약
산업 환경 및 시장 역학 설명
- 목 차-
총괄 개요 9
시장 예측 47
시장 동향 61
전기 충전 인프라
PFC 및 전원 공급 장치
무정전 전원 공급 장치
모터 드라이브 시장
풍력 터빈용 전력 변환기
다른 SiC 애플리케이션
시장 점유율과 공급망 143
기술 동향 176
SiC 전력 장치
SiC 장치 – 신뢰성 상태
SiC 전력 장치 – 상용 상태
SiC 웨이퍼 및 에피웨이퍼
전망과 결론 232
DRIVEN BY THE EV MARKET, THE SIC POWER DEVICE MARKET IS PROSPERING
The 2018 – 2019 SiC power device market is notable for Tesla’s adoption of SiC in its main inverter. The discussion concerning whether other automotive players will also adopt (or not) is THE topic of the year. Recently, the automotive industry has committed more than $300B investment towards xEV development, causing the xEV market to explode. This is in stark contrast to the traditional combustion engine car market, which is suffering through a slowdown. The xEV market is the primary market driver for Si power devices, and it is the source of excitement for SiC – which is not surprising at all.
Ranging from conservative to optimistic, industrial players offer very different forecasts in terms of market value for SiC in the xEV market. These forecasts range from several hundred million dollars to $3B in 2025, the latter estimated by STMicroelectronics. Everyone agrees that EV is the market of highest potential, but perceptions differ regarding how it will grow and how SiC will penetrate into the automotive market. These perceptions are based on the data that each player has collected and the arguments that derive from their interpretation of the data.
Based on our discussions with different players, Yole sees a prospering SiC power device market. In fact, we expect the SiC power semiconductor market’s value to approach $2B by 2024, with a compound annual growth rate (CAGR) of 29% for 2018 – 2024. The automotive market is undoubtedly the foremost driver, and as such will hold around 50% of total device market share in 2024.
This report provides an overview of various SiC power device markets, including electric and hybrid electric vehicles (EV/HEV), charging infrastructure, PV, power supply, rail, motor drives, uninterruptible power supplies (UPS), and wind, along with Yole Développement’s analysis and insights regarding SiC adoption.
AUTOMOTIVE MARKET GROWTH IS RESHAPING THE SIC MARKET’S DYNAMICS AND ECOSYSTEM
In the Si world, power modules are typically used for high power-rating applications (i.e. EV main inverter and rail), while discrete modules are employed for lower power-rating applications. As indicated in the illustration below, some players (i.e. Infineon) participate in both the discrete and module sides, while other players (i.e. Danfoss and Semikron) are pure module packagers. There are also discrete packagers, among them several different OSATs. Just like in Si IGBT, for SiC we expect the module to play a key role. But what form will a full SiC module take? Even though some manufacturers use standard silicon packaging, most players have developed their own module for SiC. For example, the SiC device used by Tesla: it is either a very small module or an advanced discrete, depending on your interlocutor.
From our understanding, Tesla has succeeded in structuring its SiC supply chain with its own module-design intellectual property, which was codeveloped with STMicroelectronics and Boschman – with STMicroelectronics manufacturing the devices. As volume increases, we believe there will be a second packaging source, likely an OSAT in Asia that in the past was more of a discrete player. Indeed, the automotive market is not only driving the SiC power device market, it is also refashioning the market’s dynamics and ecosystem. The influence is profound.
This report provides an overview of SiC device technology, including descriptions of discrete and module development, along with the status of commercial products and their reliability. We also furnish a comprehensive summary of the SiC power industry, covering the entire value chain: from material to epitaxy to module. Moreover, this report outlines Yole Développement’s understanding of the market’s current dynamics and future evolution.
WILL THE WAFER SHORT-SUPPLY CONTINUE?
In the last two or three years, the transition from 4” to 6” wafers, coupled with increasing wafer demand, led to a wafer short-supply. This was one of the most frequently discussed topics in the SiC power industry, and was a substantial bottleneck as of 2018.
Faced with increasing demand, wafer players are investing heavily. Already the SiC wafer market leader, Cree is further strengthening its leadership. The company has announced $450M for materials expansion and the development of a materials megafactory, as well as build-out of a second crystal-growth factory. These steps will result in a 30x increase in SiC wafer fabrication in fiscal year 2024, compared to Q1 of fiscal year 2017. With different long-term wafer supply agreements in place, Cree has secured important revenue that its materials business can use in the coming years. But Cree is not the only player investing – other companies like II-VI and Tankeblue are following suit, and some new players are very active, especially GTAT.
In our opinion, the wafer suppliers’ efforts have paid off, and supply is in much better shape for 2019. At the epiwafer level, the situation is also evolving quickly. For example, we have seen Showa Denko expand its capacity in 2015, 2016, and 2018, as technology matures and outsourcing ratio increases.
We invite you to explore our analysis of the wafer supply situation, as well as our forecasts for the wafer and epiwafer markets and the impact of different investments.
- Table of Contents -
Executive Summary 9
Market Forecast 47
Market Trends 61
Electrified Vehicle Market
Electrified Charging Infrastructure
PFC and Power Supply
Rail Traction Market
Uninterruptible Power Supplies
Motor Drive Market
Power Converters for Wind Turbines
Other SiC Applications
Market Share and Supply Chain 143
Technology Trends 176
SiC Power Devices
SiC Device – Reliability Status
SiC Power Device – Commercial Status
SiC Wafer and Epiwafer
Outlook and Conclusions 232
Alstom, Ascatron, Aymont, Bombardier, Basic Semiconductor, Brückwell Technology, Caly Technology, Clas-SiC Wafer Fab, CREE, CRRC, Danfoss, Delphi, DENSO, Dow Corning, Epiworld, Episil, Fraunhofer IISB, Fuji Electric, GE, GeneSiC, Global Power Device, Global Power Technology, Hestia Power, Hitachi, IBS, II-VI, Infineon, MicroSemi, Mitsubishi Electric, Norstel, Northrop Grumman, NXP, ON Semiconductor, Panasonic, Philips, Powerex, Raytheon, RENESAS, ROHM, Sanrex, Schneider Electric, Semikron, Shindengen, SICC, Siemens, SMA, STMicroelectronics, Toshiba, Toyota, United Silicon Carbide, WeEn, Wolfspeed, X-Fab, Yaskawa, and more.
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