Due to the Russian-Ukrainian war, automotive factories currently located in Russia have shut down successively and stopped importing vehicles, TrendForce asserts. In addition, Russia has stated that if foreign-funded enterprises choose to permanently suspend business or withdraw from the market during this period, the Russian government will nationalize their business assets. Most automotive brands have factories in Russia and now face the dual pressures of international public opinion and corporate losses. According to TrendForce investigations, after Renault-Nissan acquired the Russian brand LADA, its market share reached 32%, making it the largest automotive brand in Russia followed by Hyundai-Kia at 23% and Volkswagen at 12%.
According to TrendForce, since Renault is the largest shareholder of local automaker AVTOVAZ and Russia is the company’s second largest market, whether AVTOVAZ is nationalized or sales are lost, the overall impact on Renault cannot be underestimated. In addition, even if production can continue, the depreciation of the ruble will greatly increase the cost of importing components.
Soaring costs not conducive to automotive industry recovery
The large number of components and the long supply chain inherent in the automotive industry makes mitigating geopolitical risk difficult. Almost all international or regional events will affect the normal operation of this industry. The Russian-Ukrainian war will not only affect automaker assets, supply chains, sales, and revenue in Russia and around the world in the short term but, in the long term, geopolitics will influence business planning, competiveness, and technology options. More broadly, geopolitical and economic conflicts are derailing automakers’ plans to recover from the pandemic and chip shortages.
According to TrendForce, there are three major factors impeding the recovery of the automotive industry and these factors will further affect automobile sales in 2022. First, the production of vehicle components in Ukraine has halted, affecting the production of complete vehicles. Volkswagen indicated that it intends to move production capacity to North America and China due to the shortage of vehicle wiring harnesses. Second, Russia produces various upstream raw materials such as nickel and palladium for vehicle manufacturing. Due to supply constraints, various costs have risen sharply and some car manufacturers have begun to increase the price of complete vehicles. Third, inflationary pressures have risen sharply, leading to rising costs of living and a reduction of consumer spending power.
In 2021, total sales of new energy vehicles (NEVs including battery electric vehicles, plug-in hybrid electric vehicles, and fuel cell vehicles) reached 6.473 million units, with annual growth rate reaching 122%, the highest growth rate since the development of vehicle electrification, according to TrendForce’s research. Battery electric vehicles (BEV) accounted for approximately 71.6% of total sales and plug-in hybrid electric vehicles (PHEV) accounted for approximately 28.1%, while the scale of fuel cell vehicles remained small.
Tesla ranked first among BEV brands with total global sales exceeding 930,000 vehicles and a 20.2% market share. SAIC-GM-Wuling ranked second, posting strong sales numbers for their low-priced mini electric vehicles in 2021. Other BEV brands such as Ora and Chery have also greatly increased sales performance on the backs of mini-vehicle products. The significance of this segment in the NEV market is considerable. On the whole, a reinvigorated BEV market has birthed a number of new brands that have further fractured market share. The concentration of market share among the top ten BEV brands dropped from 64.4% in 2020 to 57% in 2022, indicating an escalation of market competition.
BYD ranked first in PHEV sales with 273,000 vehicles sold in 2021, accounting for 15% of the market. Both BYD and seventh ranked Li Auto posted multifold growth, suggesting China’s reduced PHEV subsidy policy exerted minimum impact on the market. In addition to a number of luxury European brands holding their spots on the sales ranking, TOYOTA moved swiftly into fifth place while Jeep, a part of the Stellantis group and known for its performance cars, ranked 10th with the lion’s share of sales coming from the United States and Europe.
From a regional perspective, NEV sales in China once again exceeded half of the global total in 2021 while NEVs accounted for 19.3% of China’s overall auto market. TrendForce states, in addition to fierce competition, the Chinese market also includes numerous new brands, accelerated mass production, joint venture brands adjusting strategies, and overseas deployment of domestic brands targeting Europe, the Middle East, and Southeast Asia.
In addition, with the European Union strongly promoting electrification, the penetration rate of NEVs in several leading countries such as Germany and France is expected to reach 20~25% in 2022. In terms of the currently trailing US market, the Biden administration’s many policy incentives have focused the actions of brands and supply chains which include the introduction of ever-popular (in the U.S. market) battery electric pickups by a number of automakers. In addition, many new brands such as Rivian, Lucid Motors, Fisker, and Lordstown Motors have successively entered the mass production and assembly stage of vehicle manufacturing or plan to enter mass production in 2022, making the future of the U.S. electric vehicle market worth observing in terms of quantity and competition.
As the global trend of energy conservation and carbon reduction remains unchanged and automakers shift greater proportions of their product lines to electric vehicles, the total number of NEVs is forecast to exceed 10 million in 2022. However, the international situation is turbulent, and the Russia-Ukraine conflict has caused the price of crude oil to rise. In addition, Ukraine supplies neon gas for the semiconductor process and Russia is a producer of nickel ore. Nickel is a key material for electric vehicle batteries. Once the war heats up, the automotive industry will bear the brunt of rising costs and unstable supply chains, which are variables for the development of NEVs in 2022.
Exponential demand growth for remote and unmanned terminals in smart home, logistics, manufacturing and other end-user applications has driven iterative updates in Wi-Fi technology. Among the current generations of technologies, Wi-Fi 5 (802.11ac) is mainstream while Wi-Fi 6 and 6E (802.11ax) are at promotional stages, according to TrendForce’s investigations. In order to meet the connection requirements of industry concepts such as the Metaverse, many major manufacturers have trained their focus on the faster and more stable next generation 802.11be Wi-Fi standard amendment, commonly known as Wi-Fi 7. Considering technical characteristics, maturity, and product certification status, Wi-Fi 6 and 6E are expected to surpass Wi-Fi 5 to become mainstream technology in 2022, with global market share expected to reach 58%.
TrendForce states, in common residential applications of Wi-Fi, Wi-Fi 6E supports 6GHz and expands bandwidth by at least 1200MHz, delivering higher efficiency, throughput, and security than Wi-Fi 6, and can optimize remote work, VR/AR, and other user experiences. Moreover, in terms of the vertical IoT sector with the highest output value, smart manufacturing still mostly employs Ethernet and 4G/5G mobile networks as the central communication technologies in current smart factories. However, as early as 2019, major British aerospace equipment manufacturer, Mettis Aerospace, and the Wireless Broadband Alliance (WBA) conducted phased testing of the practicality of Wi-Fi 6 in factories, and they believe that Wi-Fi 6 can be widely adopted for manufacturing.
Market not yet mature, practical application of Wi-Fi 7 must wait until the end of 2023 at the earliest
TrendForce believes that the introduction of Industry 4.0 technology tools will become more common and the degree of digitalization within companies will increase in the post-pandemic era, with 5G and Wi-Fi expected to bring complementary and synergistic effects to the manufacturing field. The primary reason for this is that 5G characteristics include wide connection, large bandwidth, and low latency. In addition, multi-access edge computing (MEC) and standalone (SA) network slicing can improve computing power and flexibility, all of which significantly upgrade smart manufacturing tools. Although the transmission range of Wi-Fi is small, it resists interference and enhances the physical penetration of wireless signals at smart manufacturing locations. Wi-Fi also reduces the cost of 5G distributed antennas and small base stations while extending communications range and improving equipment battery life.
Looking forward to next generation Wi-Fi 7, companies such as MediaTek, Qualcomm, and Broadcom, are already laying the groundwork for their forays into this standard. TrendForce believes, even though focus is currently shifting to Wi-Fi 7, scheduled application of Wi-Fi 7 is expected to fall between the end of 2023 and the beginning of 2024. Challenges remain in terms of overall development and issues such as equipment investment, spectrum usage, deployment cost, and terminal equipment penetration must all be overcome in order to demonstrate the technical benefits of Wi-Fi 7.
According to TrendForce’s estimates, the global automotive market will sell 88.6 million vehicles in 2022, growing 10.1% YoY. This estimate includes deferred demand due to automakers’ production cuts in 2021. However, numerous uncertainties still bedevil the overall automobile market in terms of production while supply chain issues and the COVID-19 pandemic are expected to continue impeding automobile sales. In addition to supply chain issues, global inflation caused by rising energy and upstream raw material costs has also become a hidden economic burden in various countries. When the overall cost of living increases, the automotive market will experience the ensuing negative impact.
NEVs expected to exceed 8 million units in 2022 as competition intensifies
The penetration of electric vehicles into the automotive market is accelerating. The estimated combined sales of BEV and PHEV in 2022 will be in excess of 8 million units. Regulations also remain an important driving force for the market. There is fierce competition among automakers and automakers of disparate types and backgrounds have distinct future development priorities. However, accelerating capacity expansion is the primary developmental focus for all types of automakers. The years 2022-2024 will be the target for many emerging automakers to achieve mass production. This will further promote heightened competition in the electric vehicle market including in price, performance, technical specifications, etc.
In addition, after the rapid growth in sales of electric vehicles, TrendForce has articulated that retired batteries have become another business opportunity. Both China and Europe have new regulations pending which place requirements on electric vehicle battery performance, recycled materials, utilization rate of recycled materials, battery second-life (echelon utilization), disposal, etc. In addition, specific battery information and traceability is also commonly promoted as part of these regulations, which entail additional time pressure on automotive companies and the supply chain due to various management measures required in the battery life cycle. A multitude of demands spur car manufacturers and supply chains to seek external partnerships and increased investment to meet regulatory requirements.
（Image credit: Pixabay）
Owing to the EV market’s substantial demand for longer driving ranges and shorter charging times, automakers’ race towards high-voltage EV platforms has noticeably intensified, with various major automakers gradually releasing models featuring 800V charging architectures, such as the Porsche Taycan, Audi Q6 e-tron, and Hyundai Ioniq 5. According to TrendForce’s latest investigations, demand from the global automotive market for 6-inch SiC wafers is expected to reach 1.69 million units in 2025 thanks to the rising penetration rate of EVs and the trend towards high-voltage 800V EV architecture.
The revolutionary arrival of the 800V EV charging architecture will bring about a total replacement of Si IGBT modules with SiC power devices, which will become a standard component in mainstream EV VFDs (variable frequency drives). As such, major automotive component suppliers generally favor SiC components. In particular, Tier 1 supplier Delphi has already begun mass producing 800V SiC inverters, while others such as BorgWarner, ZF, and Vitesco are also making rapid progress with their respective solutions.
At the moment, EVs have become a core application of SiC power devices. For instance, SiC usage in OBC (on board chargers) and DC-to-DC converters has been relatively mature, whereas the mass production of SiC-based VFDs has yet to reach a large scale. Power semiconductor suppliers including STM, Infineon, Wolfspeed, and Rohm have started collaborating with Tier 1 suppliers and automakers in order to accelerate SiC deployment in automotive applications.
It should be pointed out that the upstream supply of SiC substrate materials will become the primary bottleneck of SiC power device production, since SiC substrates involve complex manufacturing processes, high technical barriers to entry, and slow epitaxial growth. The vast majority of n-Type SiC substrates used for power semiconductor devices are 6 inches in diameter. Although major IDMs such as Wolfspeed have been making good progress in 8-inch SiC wafer development, more time is required for not only raising yield rate, but also transitioning power semiconductor fabs from 6-inch production lines to 8-inch production lines. Hence, 6-inch SiC substrates will likely remain the mainstream for at least five more years. On the other hand, with the EV market undergoing an explosive growth and SiC power devices seeing increased adoption in automotive applications, SiC costs will in turn directly determine the pace of 800V charging architecture deployment in EVs.
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