The impact on display panel production in China caused by the ongoing power outage has been manageable, although assembly plants in the downstream supply chain and component makers（for metal and plastic parts, for example）in the upstream supply chain have had to suspend operations as a result. Nevertheless, assuming these work stoppages conclude by the end of September, the aforementioned companies in the downstream/upstream supply chains will likely be able to make up for their lost production capacities by issuing overtime work. Hence, the power outage’s impact on their operations is ultimately expected to be rather limited.

In addition, it appears that the power outage will NOT affect the installation of new production capacities at all. However, given that power outages have continually taken place in cities including Guangzhou and Suzhou, attention needs to be paid to whether such power outages become a regular, cyclical occurrence for various cities in the future, especially without prior warning. Frequent, unannounced power outages may pose a challenge to panel manufacturers’ capacity allocation efforts.

（Image credit: Unsplash）

As growing vaccination rates worldwide starting in July lead to a gradual easing of lockdowns, the overall demand for notebook computers has also experienced a corresponding slowdown, with Chromebook demand dropping by as much as 50%, according to TrendForce’s latest investigations. However, factors such as a wave of replacement demand for commercial notebooks in Europe and North America due to the return to physical workplaces, as well as brands’ aggressive efforts to rush out their 4Q21 shipments ahead of time due to global port congestions, became the primary drivers of notebook demand in 3Q21. Hence, annual notebook shipment for 2021 will likely reach 240 million units, a 16.4% YoY increase.

TrendForce further indicates that 4Q21 will welcome both the gradual release of new models equipped with Intel’s next-gen CPUs and a wave of replacement demand for notebooks featuring Windows 11. Even so, overall notebook shipment in 4Q21 will depend on the status of the COVID-19 pandemic and the demand for commercial notebooks. As vaccinations become even more widespread in 2022, pandemic-related spending is expected to decline as a result. TrendForce therefore expects global notebook shipment to decline by 7-8% YoY next year and reach approximately 220 million units, although this still represents a growth of 60 million units over the shipment volume for 2019, prior to the emergence of the pandemic.

Annual Chromebook shipment for 2021 is expected to reach about 36 million units in light of waning demand, while HP and Samsung suffer the brunt of the decline

Chromebook became the primary driver of overall notebook shipment in 1H21. Nevertheless, increased vaccinations in Europe, North America, and Japan in 2H21 have led to a slowdown of Chromebook demand, which mostly arose in response to the needs of distance education. Furthermore, given the relatively high penetration rate of Chromebooks, Chromebook shipment subsequently fell by more than 50% within a single month in 2H21. In particular, as Chromebooks occupy a relatively high share of notebook shipments by HP and Samsung, these companies’ notebook shipment is expected to decline by 10-20% in 2H21 compared to the first half of the year. However, the US FCC released the Emergency Connectivity Fund, which totals US$7.17 billion, in July in order to facilitate the purchase of such equipment as notebooks, tablets, and network connectivity devices by schools and libraries. This fund will likely sustain the demand for Chromebooks for the next year. For 2021, Chromebook shipment is expected to reach 36 million units.

As the workforce in Europe and North America returns to physical workplaces in 2H21, a wave of replacement demand for commercial notebooks is expected to emerge as well, with Dell benefitting the most, since commercial notebooks occupy a higher share of Dell’s notebook portfolio compared to any other brand. Dell’s average monthly shipment of commercial notebooks in 2H21 is expected to surpass 1H21 figures by about 20%. As previously mentioned, it remains to be seen whether the demand for commercial notebooks will persist in 4Q21. Furthermore, the release of new models featuring Windows 11 support and Intel’s next-gen CPUs will also generate yet another wave of replacement demand. Taking these factors into account, TrendForce expects overall notebook shipment for 4Q21 to remain relatively unchanged from 3Q21 figures in the best-case scenario, and momentum driving notebook shipment will likely persist through the end of the year.

It should be noted that the availability of semiconductor components throughout the supply chain remains limited. For instance, the persistent shortage of Wi-Fi module IC, Type C PD IC, and PMIC has created a bottleneck for notebook manufacturing, while mainstream 14-inch and 15.6-inch FHD IPS panels are also in tight supply. Conversely, demand for entry-level and mid-range 14-inch and 15.6-inch HD TN panels is gradually being met, and 11.6-inch notebook panels are starting to experience a price drop due to oversupply. As notebook demand plateaus while panel supply increases, the supply and demand of notebook panels is expected to reach an equilibrium in 4Q21.

For more information on reports and market data from TrendForce’s Department of Display Research, please click here, or email Ms. Vivie Liu from the Sales Department at vivieliu@trendforce.com

As seen from the market, components of power semiconductors are mostly used in industrial fields, including motor control, rail transit, wireless power supply, energy control, and smart grid, which occupy more than 30% in the long run that is expected to arrive at 35% in 2021, followed by automotive applications at 29% that will gradually expand the automotive and high voltage MOSFET markets alongside the development of NEVs and EVs. In addition, consumer electronics also account for 18% of the elevated demand for notebooks, smartphones, wearable, and quick chargers. Communication and computing each take up 10% and 7%.

Demand for Consumer Electronics Applications: Quick Charging

The faster transmission of 5G smartphones compared to that of 4G requires additional radio frequency components, thus an increase in power consumption and the speed of battery drainage becomes inevitable. Brands have been releasing USB-PD quick charging products that are currently most adopted with Type-C under the rising requirements of consumers in charging efficiency, and a support of transmission voltage from higher specifications will require an integration with synchronous rectification MOSFET that is essential in adjusting optimization, as well as an increase in the quantity of MOSFET. In terms of materials, small chargers of high power density are steadily becoming market mainstream amidst the development and popularization of GaN technology, as well as the ever-changing market of USB Type-C PD chargers, and GaN that has a low calorific value and small dimension has become the optimal material for MOSFET pertaining to quick charging.

Demand for Communication Applications: 5G Base Station

5G base stations, adopted with the Massive MIMO technology, and require multi-channel architectures such as 32 channels (32T32R) and 64 channels (64T64R), are the core equipment of 5G network, and an increase in channel density will also lead to an increment in power consumption and cost for 5G base stations at the same time. 5G base stations consume double the power than 4G, while the demand for lowering power consumption has risen the demand for low depletion and high thermostability. In addition, the establishment of 5G network has elevated the scale of data centers and cloud services, while the installation of servers has also stimulated the demand for power management modules such as AC/DC converters and DC/DC converters. Hence, communication MOSFET is now one of the major demands.

Demand for Automotive Applications: NEV

The transition of the existing automotive industry that marches from traditional fossil fuel vehicles to NEVs requires extra power semiconductor components such as MOSFET to operate synergistically. For traditional fossil fuel vehicles, various power supply components are powered by the battery, which usually comes in either 24V or 12V. The voltage for the power battery of NEVs is usually 336V or 384V and can go up to 580-600V for large electric passenger cars, which is why power semiconductor components are necessary between high and low voltage systems of NEVs to implement voltage adjustments and achieve flowing of current between two systems that allow each electronic component to function.

The electronic components that complement the battery system of a NEV operate at different voltage levels, so voltage conversion is required as electric power moves through different components. As a MOSFET continuously switches, it gradually raises or lowers the voltage. Hence, the important considerations in MOSFET designs include current strength and withstand voltage. Additionally, different applications have their own design needs with respect to switching frequency, switching noise, oscillation damping, and DPM.

As the number of electronic components in a car increases, the number of automotive applications grows for power semiconductor components such as MOSFETs. Originally, a car with a traditional ICE has at least 90 MOSFET chips. As for NEVs, the number of MOSFET chips per vehicle is usually around 200 but can reach up to around 400 for high-end models. With more functions and features being added into a NEV, the chip number is expected to rise further in the future.

Demand for Industrial Applications: Automation and Charging Piles for NEVs

The industrial segment of the market for power semiconductor components has the widest range of applications. Most kinds of industrial equipment contain MOSFETs. At the same time, many manufacturing and processing sectors are adopting automation technologies in order to shorten process cycle time, reduce production costs, and minimize equipment idling. Besides the ongoing trend toward Industry 4.0, the shock of the COVID-19 pandemic has accelerated the progress in industrial automation during recent years because manufacturers have been compelled to find ways to keep their production lines running with limited manpower.

Compared with traditional Si-based MOSFETs and IGBTs, SiC-based MOSFETs have significant advantages in the industrial segment of the power semiconductor market because they are able to withstand higher voltages, perform faster switching, and offer lower on-resistance. Furthermore, the adoption of SiC can contribute to a reduction in power consumption and a more compact system. Hence, SiC-based solutions have become the focus of product development for power component suppliers.

Regarding charging piles for NEVs, these are considered industrial equipment and therefore have to conform to the certifications of the major industry bodies. Playing a key role in the proliferation of NEVs, charging piles are being developed to provide a shorter charging period as well as higher-power charging in different scenarios. In this application field, power semiconductor components are essential to electric power conversion. Electromechanical devices including AC/DC converter and DC/DC converter are the key parts of a charging pile because they perform voltage and frequency conversions. Due to the demand for an ever shorter charging period, power components have to achieve a higher standard in terms of withstand voltage. Hence, SiC-based MOSFETs are trickling into the charging pile market as component suppliers develop solutions that minimize both thermal resistance and switching loss that occurs during high-frequency switching.

（Image credit: Unsplash）

The latest analysis of the NAND Flash market from TrendForce finds that shipments have been below expectations for consumer electronics such as smartphones, Chromebooks, and TVs during this second half of the year. At the same time, demand remains sluggish for retail storage products including memory cards and USB drives. Data centers and enterprise servers represent the only applications that show relatively strong demand. With the inventory level of the demand side steadily rising, the procurement momentum of NAND Flash buyers will become more constrained going forward. The gradual weakening of demand is also relieving the shortage of NAND Flash controller ICs. Taking account of these factors, TrendForce forecasts that quotes for NAND Flash products will begin to fall in 4Q21, and NAND Flash contract prices will register QoQ declines of 0-5% for that period.

For 4Q21, Contract Prices of Client SSDs Will Drop by 3-8% QoQ, Whereas Contract Prices of Enterprise SSDs Will Rise Slightly by 0-5% QoQ

Countries in North America and Europe are gradually lifting COVID-19 restrictions as their vaccination rates rise. Consequently, schools and businesses in those countries have also reopened and resumed normal operation. Due to this development, the demand for Chromebooks, which are mainly purchased by academic institutions, has started to slide rapidly. The demand for consumer notebook (laptop) computers has slowed down as well. Among different types of notebook computers, only commercial models continue to experience growing demand. On the side of device manufacturers, the shortages of other types of non-memory ICs are disrupting the operations of ODMs. In particular, the prolonged nationwide lockdown in Malaysia has aggravated the undersupply situation for PMICs. This problem not only impacts the production of PCs and notebook computers but also affects the product assembly capacity of some SSD suppliers.

Additionally, NAND Flash suppliers are rapidly raising production capacity for NAND Flash products that are 128 or higher in layer count. As a result, supply is gradually outpacing demand for SSDs. TrendForce believes that suppliers will become increasingly proactive in pricing in order to raise the consumption of their production output by customers and thus prevent excess inventory. Hence, contract prices of client SSDs are forecasted to make a downward turn in 4Q21 and register QoQ declines of 3-8%.

Regarding enterprise SSDs, customers in the data center segment have raised the volumes of their orders for two quarters straight, and their inventories have been climbing steadily as well. Therefore, the demand for enterprise SSDs will start to weaken in 4Q21. The procurement of enterprise SSDs by server OEMs will continue to be sustained by server shipments to medium and small enterprises in 4Q21. However, the total server shipments for the same period will be impacted by the ongoing IC shortage. Server shipments are forecasted to drop by nearly 9% QoQ for 4Q21, and the demand bits related to enterprise SSDs will also fall by 7% QoQ for the same period.

Turning to the supply side of the enterprise SSD market, lead time has been prolonged for the enterprise SSD controller ICs from Intel because Intel’s main base for packaging and testing this kind of chip is located in Malaysia, which is now a COVID-19 hotspot. The situation is not expected to improve in 4Q21, so bit shipments of enterprise SSDs from Intel will shrink from 3Q21. Since Intel’s market share for enterprise SSDs is fairly large, the effect of the recent COVID-19 outbreaks in Malaysia on contract prices of enterprise SSDs will be significant. TrendForce currently forecasts that contract prices of enterprise SSDs will rise by 0-5% QoQ for 4Q21. The hike will be mainly caused by the lack of components on the supply side rather than an increase in demand.

5-10% Reduction Projected for eMMC Prices amidst Significant Drop of End Demand

The demand for major consumer products, such as TVs and tablets, has started to weaken after the conclusion of the traditional peak season of stocking, as well as the gradual withdrawal of subsidization policy from the US. The continuous elevation of the vaccination rate in European and American countries, followed by a progressive mitigation of lockdown measures in various countries and successive resumption of school operations, have yielded an apparent impact to the demand for notebooks and tablets related to education purposes, while the aggravated stocking from the buyers during 1H21 in fear of shortages in NAND Flash controller IC has increased the inventory level and further suppressed eMMC orders. Despite stable capacity for low density 2D MLC NAND, as well as confined supply of NAND Flash controller due to the full load capacity of 28/40nm processes from foundries, the prices have been deprived of support owing to the sizable depletion in end demand, where a prominent decrement of 5-10% is expected for relevant products during 4Q21 after the substantial increase in 2Q21.

0-5% Reduction Projected for UFS Prices amidst Enhanced Supply and Diminished Demand

TrendForce has downward revised the projections to the annual production of smartphones under the fluctuating COVID-19 pandemic status in Southeast Asia. In addition, the stocking demand for new iPhones and flagships of various brands will gradually decelerate upon entering 4Q21, while the peak season of stocking is soon to be transitioned to the imminent off season. Purchase dynamics of UFS are expected to further subside. Regarding supply, mobile clients are currently using similar layers in products to that of PC OEMs after the spontaneous incorporation of 1xxL by different brands during 1Q21, and the provision of products with higher layers is expected to amplify under PC products’ expansion of market satisfaction and the unmitigated component gaps of ODMs. UFS quotations are estimated to deteriorate by 0-5% in 4Q21 under enhanced supply and diminished demand.

NAND Flash Wafer Prices to Sustain the Largest Quarterly Decrease of 10-15% amidst Subsided Demand for Major Applications

The demand performance for retail end products has been sluggish since the beginning of 2021 aside from the temporal nourishment from the related demand for a storage-based cryptocurrency (Chia) between April and May. Memory cards and USB flash drives have been sluggish in sales since 2Q21 due to the successive exacerbation of the pandemic status in India and Southeast Asia, and the sales of retail SSD from channels have been impeded owing to the shortages of graphics cards, which obstructs the bundling with assembled computers. The fluctuation of cryptocurrency prices, for which the plummeting had slightly improved the shortages of graphics cards at one time, has triggered another recovery in the demand for mining, and further inhibits the sales volume of SSD. It is worth noting that the diverted tendency between end products and upstream components has manifested considerable pressure to module houses.

Pressure from the sales of NAND Flash wafer inventory is expected to gradually magnify for suppliers under the worse-than-expected demand for products such as notebooks, smartphones, and TVs. Few suppliers have signaled their willingness in active provision during 4Q21, though the continuously enlarging void of PMIC has instead entangled the shipment of finished enterprise SSD, which intensifies the sales pressure of NAND Flash wafer. Furthermore, YMTC, WDC, and Micron have initiated an active supply of 128, 112, and 176L product samples to module houses for testing and incorporation. The incorporation of higher layers will further refine shipment cost that will obtain additional room in price reduction for suppliers. 3D NAND wafer is expected to sustain the largest depletion among all product categories at 10-15% during 4Q21.

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

Following the peak period of production in 3Q21, the supply of DRAM will likely begin to outpace demand in 4Q21, according to TrendForce’s latest investigations (the surplus of DRAM supply is henceforth referred to as “sufficiency ratio”, expressed as a percentage). In addition, while DRAM suppliers are generally carrying a healthy level of inventory, most of their clients in the end-product markets are carrying a higher level of DRAM inventory than what is considered healthy, meaning these clients will be less willing to procure additional DRAM going forward. TrendForce therefore forecasts a downward trajectory for DRAM ASP in 4Q21. More specifically, DRAM products that are currently in oversupply may experience price drops of more than 5% QoQ, and the overall DRAM ASP will likely decline by about 3-8% QoQ in 4Q21.

PC DRAM prices are expected to decline by 5-10% QoQ as market demand for notebook computers weakens

Although WFH and distance learning applications previously generated high demand for notebook computers, increasingly widespread vaccinations in Europe and North America have now weakened this demand, particularly for Chromebooks. As a result, global production of notebooks is expected to decline in 4Q21, in turn propelling the sufficiency ratio of PC DRAM to 1.38%, which indicates that PC DRAM will no longer be in short supply in 4Q21. However, PC DRAM accounts for a relatively low share of DRAM manufacturers’ DRAM supply bits, since these suppliers have allocated more production capacities to server DRAM, which is in relatively high demand. Hence, there will unlikely be a severe surplus of PC DRAM in 4Q21. It should also be pointed out that, on average, the current spot prices of PC DRAM modules are far lower than their contract prices for 3Q21. TrendForce therefore expects an imminent 5-10% QoQ decline in PC DRAM contract prices for 4Q21, with potential for declines that are even greater than 10% for certain transactions, as PC OEMs anticipate further price drops in PC DRAM prices in the future.

Server DRAM prices are expected to decline for the first time this year, by 0-5% QoQ due to high client-side inventory

CSPs in North America and China currently carry more than eight weeks’ worth of server DRAM inventory, with some carrying more than 10 weeks’ worth of inventory, as they procured massive amounts of server DRAM in the previous two quarters to avoid shipment issues with whole server units caused by component shortages. In view of this aggressive procurement effort, the overall demand for server DRAM has gradually slowed, although certain Tier 2 data centers are still procuring server DRAM to make up for previous gaps. As server DRAM buyers continue to gravitate towards destocking their server DRAM inventory in 4Q21, demand will likely fall short of the previous quarters. Furthermore, due to long lead times for certain key components, shipment of whole servers is also expected to undergo quarterly declines. On the supply side, the three major DRAM suppliers (Samsung, SK hynix, and Micron) reallocated some of their production capacity for mobile DRAM to server DRAM in early 2Q21, and this reallocated capacity is expected to gradually begin outputting server DRAM in 4Q21. Given the slowdown in server DRAM demand, contract negotiations for server DRAM procurement in 3Q21 lasted until early August. Although server DRAM contract prices underwent a 5-10% QoQ increase in 3Q21 due to suppliers’ best attempts during contract negotiations, further price hikes going forward are unlikely. TrendForce expects server DRAM prices to undergo a decline for the first time this year in 4Q21 with a QoQ drop of 0-5%.

Mobile DRAM prices are expected to remain relative unchanged from 3Q21 levels despite a possible price drop ahead of time at the end of the year

In light of fluctuations in the COVID-19 pandemic, the global demand for smartphones and the supply of smartphone components are both still at the risk of experiencing declines. In addition, after smartphone brands revised down their production targets at the end of 2Q21, brands and distributors alike have been facing the pressure of high smartphone inventory levels. In response to factors such as pandemic-related uncertainties and declines in mobile DRAM prices for 2022, smartphone brands will slow down their mobile DRAM procurement and prioritize inventory reduction instead. Hence, bit demand for mobile DRAM will decline even further in 4Q21. On the whole, given the uncertain state of the pandemic in the coming winter, smartphone brands will adopt a more conservative attitude towards both smartphone production and component procurement in 4Q21. As a result, even if DRAM suppliers are willing to lower mobile DRAM prices, such an effort will only result in limited sales growths. In addition, mobile DRAM still lags behind other DRAM product categories in terms of profitability, meaning a drop in mobile DRAM prices is unlikely. Taking these factors into account, TrendForce expects prices of discrete DRAM, eMCP, and uMCP to mostly hold flat in 4Q21 compared with 3Q21.

It should be noted that, by the end of the year, DRAM suppliers may potentially start supplying mobile DRAM at 1Q22 prices ahead of time, primarily for two reasons: First, DRAM suppliers will be faced with revenue performance pressures at the end of the year; second, smartphones and DRAM suppliers will enter into new LTAs (long term agreements) for 2022. These factors are expected to impact mobile DRAM ASP for 4Q21 and bring about a price drop ahead of time.

Graphics DRAM contract prices are expected to decline by 0-5% QoQ due to excess supply

Market demand for discrete graphics cards and notebook graphics cards still remains due to the stable market for commercial notebooks and the resurging cryptocurrency mining market, which saw cryptocurrency prices rebounding from rock bottom levels within the past two months. However, severe issues with the availability of components in the graphics card supply chain currently present the most significant bottleneck in graphics card production. In particular, components such as driver IC, PMIC, and other peripheral components are all in shortage, while graphics DRAM is in relative oversupply compared to these other components. Graphics card manufacturers are therefore revising down their graphics DRAM procurement. Consequently, even though DRAM suppliers have not significantly increased their graphics DRAM production, demand from the purchasing end will remain sluggish until the shortage of other components is resolved. Demand for graphics DRAM will unlikely see a resurgence before the end of 2021. On the supply side, the three major DRAM suppliers are primarily focused on GDDR6 for their current graphics DRAM production. As well, graphics card demand from the cryptocurrency mining market is generally aimed at newer graphics cards that feature GDDR6 memory. Accordingly, both production and sales of GDDR5 memory are relatively weak, and this bearish trend is especially reflected in spot prices. As spot prices are the first to enter a downturn, and the aforementioned market conditions lead to sluggish procurement activities, graphics DRAM prices are in turn expected to plummet from previous levels in 4Q21, although this decline is projected at a minor 0-5% QoQ owing to DRAM suppliers’ efforts to keep prices constant.

QoQ decline of DDR4 Consumer DRAM prices is expected to be among the highest drops, at 5-10% as procurement activities decelerate

Gradual easing of lockdowns in Europe and North America has led to a decline in consumer spending on home entertainment applications. This, along with the severe shortage in electronic components, has adversely affected the demand for consumer electronics, such as TVs, STBs (set-top boxes), and networking devices, as well as industrial-use products, thereby also reducing the procurement demand for consumer DRAM. On the other hand, while DRAM suppliers were in the process of transitioning from DDR3 manufacturing to other products, the massive price hike of DDR3 products in 1H21 led DRAM suppliers to slow this transition. Even so, certain market conditions are now placing downward pressure on DDR3 prices, so next year the three major suppliers may potentially speed up the transition of mature DDR3 manufacturing to other products, such as CMOS image sensors or other logic ICs, instead. As server and PC manufacturers’ DRAM inventory level rises, contract prices of those DRAM products will likely decline in 4Q21. Thus, given that the movement of DDR4 consumer DRAM prices is highly correlated with PC DRAM and server DRAM and has been trending relatively high, DDR4 consumer DRAM prices are expected to decline by 5-10% QoQ in 4Q21. Likewise, although the supply of DDR3 consumer DRAM has been gradually decreasing, DDR3 consumer DRAM prices will also undergo an overall decline, particularly for 4Gb chips. DDR3 consumer DRAM prices are expected to decline by 3-8% QoQ in 4Q21.

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