The compound semiconductor market has been flourishing in recent years thanks to the strong demand from markets such as electric vehicles and renewable energy. This has led to an increase in M&A as companies race to establish their position in the industry.

The market has seen a significant surge in M&A deals over the last few years: from 2006 to 2017, there was only one deal every two years, but since 2018, there have been six deals annually, surpassing historical data.

While SiC and GaN are the top categories for M&A, 21 of the transactions are directly related to SiC. This is because after its development over 20 years, SiC has been able to be mass-produced for market demands, particularly in the automotive industry where SiC has become the mainstream technology.

Vertical Integration driven by Industry Titans

Industry leaders in the US and Europe, such as Wolfspeed, On Semi, II-VI, ST, and Infineon, have started accelerating vertical integration in recent years, as reflected in the frequency of M&A.

The United States has led 12 M&A deals, with only four of them occurring before 2018, and Wolfspeed contributed to three of them. Over the past three years, On-Semi, II-VI, and Macom have led several deals with a focus on SiC’s vertical integration to meet market demands.

In Europe, there were eight M&A deals in total, all of which took place in 2018 and beyond, with ST and Infineon being the major players. Both companies have been accumulating technical strength through strategic acquisition to maintain their leading ground in the SiC power device market.

In 2019 and 2020, ST acquired Norstel AB to bolster its SiC wafer manufacturing capabilities and Exgan to improve the GaN power device design expertise. Similarly, Infineon acquired Siltectra GMbH in 2018 to gain control of the crucial SiC wafer cold split process technology and recently acquired GaN Systems to reinforce its presence in the GaN market.

It’s evident from the cases that the high frequency of M&As in the US and Europe is mainly driven by leading companies in the industry, gradually defining the landscape of the market.

Wolfspeed, which has grown into a leading company after a long period of time, has accumulated enough capital for M&A and gradually been transforming into a platform-type company. Meanwhile, Onsemi, ST, and Infineon, which have traditionally been platform-type companies with established expertise in the field of compound semiconductors, are now ramping up their M&A activities to expand market presence and generate strong growth momentum.

Market Landscape Continues to Change

M&A deals among semiconductor equipment companies are also receiving attention. Recently, ASM and Veeco have successively acquired LPE and Epiluvac, indicating that equipment manufacturers have also realized the huge potential of the SiC market and are accelerating their investment.

Given the rapid technology breakthroughs, the overall SiC power device market is predicted to grow at an annual rate of 41.4% to reach $2.28 billion by 2023 and $5.33 billion by 2026 at 35% annual growth, according to TrendForce’s latest report.

However, with the current market boom comes a new challenge – the supply shortage. One of the biggest obstacles to industry growth is the scarcity of SiC substrate material, despite efforts from companies like STM and Onsemi to ramp up their production.

Manufacturers are now on the hunt for both internal and external sources to keep the supply flowing. While most of the SiC substrate suppliers are expanding, only a few, like Wolfspeed, are controlling the manufacturing capacity for high-end SiC substrates used in automotive main inverters, which worsens the bottleneck in SiC devices’ production for cars.

With that being said, major players must quickly address technology hurdles and supply issues to bridge the market gap. This will inevitably drive intense competition and industry consolidation, and only the ones that can adapt quickly will be thriving in the long run.

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At present, the materials with the most development potential are Wide Band Gap (WBG) semiconductors with high power and high frequency characteristics, including silicon carbide (SiC) and gallium nitride (GaN), which are mainly used in electric vehicles (EV) and the fast charging battery market. TrendForce research estimates, the output value of third generation power semiconductors will grow from US$980 million in 2021 to US$4.71 billion in 2025, with a CAGR of 48%.

SiC is suitable for high-power applications, such as energy storage, wind power, solar energy, EVs, new energy vehicles (NEV) and other industries that utilize highly demanding battery systems. Among these industries, EVs have attracted a great deal of attention from the market. However, most of the power semiconductors used in EVs currently on the market are Si base materials, such as Si IGBT and Si MOSFET. However, as EV battery power systems gradually develop to voltage levels greater than 800V, compared with Si, SiC will produce better performance in high-voltage systems. SiC is expected to gradually replace part of the Si base design, greatly improve vehicle performance, and optimize vehicle architecture. The SiC power semiconductor market is estimated to reach US$3.39 billion by 2025.

GaN is suitable for high-frequency applications, including communication devices and fast charging for mobile phones, tablets, and laptops. Compared with traditional fast charging, GaN fast charging has higher power density, so charging speed is faster within a smaller package that is easier to carry. These advantages have proven attractive to many OEMs and ODMs and several have started rapidly developing this material. The GaN power semiconductor market is estimated to reach US$1.32 billion by 2025.

TrendForce emphasizes that third generation power semiconductor substrates are more difficult to manufacture and more expensive compared to traditional Si bases. Taking advantage of the current development of major substrate suppliers, companies including Wolfspeed, II-VI, and Qromis successively expanded their production capacity and will mass-produce 8-inch substrates in the 2H22. Output value of third generation power semiconductors is estimated to have room for continued growth in the next few years.

The third-generation semiconductor industry was impaired by the US-China trade war and the COVID-19 pandemic successively from 2018 to 2020, according to TrendForce’s latest investigations. During this period, the semiconductor industry on the whole saw limited upward momentum, in turn leading to muted growth for the 3rd gen semiconductor segment as well. However, this segment is likely to enter a rapid upturn owing to high demand from automotive, industrial, and telecom applications. In particular, the GaN power device market will undergo the fastest growth, with a $61 million revenue, a 90.6% YoY increase, projected for 2021.

TrendForce expects three factors to drive the rapid growth of the GaN and SiC markets in 2021: First, widespread vaccinations are projected to drastically curb the spread of the pandemic, thereby galvanizing a stable increase in the demand for base station components, as well as for components used in industrial energy transition, such as power inverters and converters. Secondly, as Tesla began adopting SiC MOSFET designs for its in-house inverters used in Model 3 vehicles, the automotive industry has started to place increasing importance on 3rd gen semiconductors. Finally, China will invest enormous capital into its 14th five-year plan starting this year and expand its 3rd gen semiconductor production capacity to ultimately achieve semiconductor independence.

Resurging demand from EV, industrial, and telecom sectors will bring about a corresponding increase in 3rd gen semiconductor device revenue

Although certain foundries, such as TSMC and VIS, have been attempting to manufacture GaN devices with 8-inch wafers, 6-inch wafers are still the mainstream. As the pandemic shows signs of a slowdown, the demand for RF front end in 5G base stations, for smartphone chargers, and for automotive on-board chargers has now gradually risen. As such, total yearly revenue from GaN RF devices is projected to reach US$680 million, a 30.8% increase YoY, in 2021, whereas GaN power device revenue is projected to reach $61 million, which is a 90.6% increase YoY.

In particular, the remarkable increase in GaN power device revenue can primarily be attributed to the release of fast chargers from smartphone brands, such as Xiaomi, OPPO, and Vivo, starting in 2018. These chargers enjoyed excellent market reception thanks to their effective heat dissipation and small footprint. Some notebook computer manufacturers are currently looking to adopt fast charging technology for their notebook chargers as well. Going forward, TrendForce expects more smartphone and notebook chargers to feature GaN power devices, leading to a peak YoY increase in GaN power device revenue in 2022, after which there will be a noticeable slowdown in its upward trajectory as GaN power devices become widely adopted by charger manufacturers.

On the other hand, 6-inch wafer capacities for SiC devices have been in relative shortage, since SiC substrates are widely used in RF front end and power devices. TrendForce expects yearly SiC power device revenue to reach $680 million, a 32% increase YoY, in 2021. Major substrate suppliers, including Cree, II-VI, and STMicroelectronics, are planning to manufacture 8-inch SiC substrates, but the short supply of SiC substrates will unlikely be resolved until 2022.

For more information on reports and market data from TrendForce’s Department of Semiconductor Research, please click here, or email Ms. Latte Chung from the Sales Department at lattechung@trendforce.com