Smartphones are essential to people’s daily lives and constitute a basic necessity. TrendForce therefore expects the smartphone industry to rebound and post marginal growth next year, assuming that economic activities worldwide will mostly return to normal by then. The main trend drivers in the smartphone market next year are still going to be the usual device replacement cycle and the additional demand from emerging markets. TrendForce expects annual smartphone production for 2022 to reach about 1.39 billion units and the YoY growth rate hitting 3.8%.

Expanding market share will be very challenging for smartphone brands due to fierce competition

Samsung’s smartphone production for 2022 is expected to reach 276 million units, a 1.1% YoY growth. The company continues to reorganize and extend its product series. The integration of the Galaxy Note series with the Foldable series, the continuation of the S-Pen, etc. are some of the moves that Samsung has taken to maintain its market share in the high-end segment. Moreover, Samsung has increased the outsourcing portion of its device manufacturing in order to make its mid-range and low-end models more cost competitive. However, advances in device design and manufacturing will only intensify the competition in developed markets. In the emerging markets, demand will continue to concentrate on entry-level models. Hence, Samsung will have increasing difficulty in growing its market share as most of its offering do not target the demand for entry-level products. This also means that retaining market share will become more challenging for the brand.

Apple is set to release the latest model in its iPhone SE lineup (i.e., the third-generation SE), featuring a 4.7-inch display, A15 SoC, and 5G support, by the end of 1Q22. Other than these features, the rest of the new SE’s hardware specifications will be similar to those of the second-gen SE. In this regard, the new SE can be seen as an invaluable asset with which Apple attempts to enter the mid-range 5G smartphone segment. In 2H22, the company will keep to its tradition of announcing four new models, two of which will feature a 6.1-inch display, while the other two will feature a 6.7-inch display. Although the release of these five new handsets will likely help Apple increase its market share next year, this increase will be constrained by the fact that Apple will have to raise the retail price of its smartphones in order to keep up with rising component prices and ensure some profitability. TrendForce therefore expects Apple’s smartphone production for 2022 to reach 243 million units, representing a 5.4% YoY growth and the second highest volume among all smartphone brands.

Given that demand will unlikely increase by a significant margin in the domestic Chinese smartphone market next year, the three major Chinese brands, including OPPO, Xiaomi, and Vivo, will primarily depend on overseas sales for their smartphone market share growths. It should be pointed out that TrendForce’s calculation of Xiaomi’s production volume also includes handsets released by the brand’s subsidiaries Mi, Redmi, POCO, and Black Shark. Thanks to Xiaomi’s relatively early expansion in the overseas markets, as the global spread of the COVID-19 pandemic is gradually brought under control, Xiaomi is expected to benefit the growth of its overseas sales and register a smartphone production of 220 million units, representing a 15.8% YoY growth and the third highest volume among all brands.

Fourth-ranked OPPO sells its smartphones globally under three brands: OPPO, Realme, and OnePlus. TrendForce expects OPPO group’s annual smartphone production for 2022 to reach 208 million units, a 2.5% YoY growth. Regarding product planning, OPPO is relatively similar compared with Xiaomi, as both of these brands differentiate between various markets and client bases through subsidiaries. Likewise, OPPO has in recent years actively expanded its peripheral ecosystem businesses, such as software services and additional consumer items, in order to improve its profitability for the year. Finally, Vivo will take the fifth rank next year by producing almost 150 million handsets, a 6.4% YoY growth. This brand depends heavily on its customers’ cyclical replacement demand for its sales. Therefore, while the Chinese smartphone market, which is Vivo’s primary sales region, becomes increasingly saturated, the brand’s room for growth next year will also be relatively limited. In addition, as HONOR will also aggressively look to capture market shares in China, the production volumes of OPPO and Vivo will be further constrained next year.

Annual 5G smartphone production for 2022 is expected to reach about 660 million units despite slowing growth rate

Thanks to the Chinese government’s active push for 5G commercialization for the past two years, the global market share of 5G smartphones will likely hit 37.4% in 2021, with about 500 million units produced throughout the year. Going forward, now that the market share of 5G smartphones has surpassed 80% in China, the smartphone industry will shift its focus of 5G development to other regional markets. However, because countries vary in the progress of 5G infrastructure build-out, and 5G service plan fees are higher than 4G fees, the growth of 5G market share now appears to be slowing. As such, TrendForce expects 5G smartphone production for 2022 to reach about 660 million units, translating to a market share of 47.5% for 5G handsets in the overall smartphone market.

On the other hand, the growing market share of 5G smartphones also generates a corresponding growing demand for components. Given the increased shipment in servers, IoT devices, and EVs, foundries will find it even harder to manufacture enough components for 5G handsets since foundry capacities are already stretched to their limits. What this also means is that the market share of smartphone brands will depend on how successful they are in booking foundry capacities. Smartphone brands’ scramble for foundry capacities, however, may in turn result in overbookings or uneven allocation of capacities to components, thereby further exacerbating the mismatched availability of smartphone components. Hence, if the actual demand from smartphone buyers falls short of expectations, TrendForce believes that smartphone brands may be forced to adjust their inventories once again in 2H22.

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

Apple recently unveiled its newest lineup of 14.2-inch and 16.2-inch MacBook Pros, which represent the company’s latest effort to extend its application of display backlights with Mini LED technology from the 12.9-inch iPad Pro to the MacBook Pro range. TrendForce’s latest investigations indicate that, in light of Apple’s foray into the high-end notebook computer market with the latest generation of MacBook Pro, annual shipment of notebook computers equipped with Mini LED backlight for 2022 will likely reach five million units, a 213% YoY increase.

It should be pointed out that, due to OLED supplier Samsung’s aggressive efforts to capture shares in the notebook market this year, annual shipment of notebooks with OLED panels for 2021 will likely reach 2.5 to 2.7 million units, which represents a penetration rate of about 1.1%. OLED displays compete directly with Mini LED displays in the high-end notebook market, meaning the adoption of Mini LED displays by non-Apple notebook manufacturers has consistently been limited. In addition, Apple waited until 4Q21 to release the new MacBook Pro models. Taking these factors into account, TrendForce is therefore revising its forecast of annual shipment of notebooks with Mini LED backlight for 2021 from 2.4 million units down to 1.65 million units.

TrendForce indicates that Apple’s product planning regarding the newest MacBook Pro lineup marks a departure from its previous strategy of having only a 13.3-inch model for the entry-level segment and a 16.2-inch model for the high-end segment, since the newest 14.2-inch MacBook is positioned as a product for the mid-range segment. Regarding pricing, the 14.2-inch model at base configuration costs US$500 more than the 13.3-inch model and US$500 less than the 16.2-inch model, assuming all aforementioned models are equipped with a 512GB SSD. Regarding technical specs, not only do the new models feature an improvement in CPU/GPU, but their backlight has also been upgraded to Mini LED technology. With these advancements in both computing power and display performance, Apple will likely be able to erase any doubts from consumers regarding the merit of the price hike.

Both of the new MacBook Pro models are equipped with a Mini LED backlight, with about 8,000-11,000 Mini LED chips divided across 2,000-2,600 local dimming zones, resulting in a 1,000,000:1 contrast ratio. Mainstream Mini LED backlight-equipped notebooks from other manufacturers, on the other hand, generally feature about 240-512 local dimming zones, thereby showing Apple’s relative superiority in display technology. Furthermore, despite being a step up in terms of display size from the 13.3-inch model, the 14.4-inch model maintains a similar thin and light profile even though it contains a direct-lit Mini LED backlight, which requires additional clearance for light mixing and additional PCB substrate thickness.

Along with Apple’s continued adoption of Mini LED backlight technology, a plethora of new participants are expected to enter the Mini LED supply chain in 2022, in turn making this technology much more cost-effective and benefitting companies that are not part of Apple’s supply chain as well. Companies that are set to benefit next year include Mini LED chip suppliers (e.g., Ennostar and Osram), testing and sorting service providers (e.g., FitTech, Saultech, and YTEC), SMT suppliers (e.g., TSMT and Yenrich), backplane PCB suppliers (e.g., Zhen Ding Tech, Tripod Technology, and Apex), driver IC suppliers (e.g., Parade, TI, Novatek, and Macroblock), light source module suppliers (e.g., Radiant/ROE and GIS), and OEMs (e.g., Quanta and Foxconn).

For more information on reports and market data from TrendForce’s Department of Optoelectronics Research, please click here, or email Ms. Grace Li from the Sales Department at graceli@trendforce.com

（Image credit: Apple）

Apple recently unveiled its 140W MagSafe charger for the new MacBook Pro, marking the first time that Apple is adopting GaN technology. As such, 100+ watt fast charge products have thus entered a period of growth, in turn accelerating the adoption of third-generation semiconductor devices in consumer applications, according to TrendForce’s latest investigations. While GaN power transistor prices have dropped to nearly US$1 as of now, and GaN fast charge technologies continue to mature, TrendForce expects GaN solutions to reach a 52% penetration rate in the fast charge market in 2025.

TrendForce also indicates that the vast majority of GaN fast chargers’ peak power fell within the 55W-65W range in 2020. GaN fast chargers with 55W-65W of peak power accounted for 72% of all GaN fast charger sales last year, with 65W being the mainstream, whereas GaN fast chargers with 100W and more in peak power accounted for only 8%. Even so, the outlook for these high-power fast chargers appears relatively promising, as more and more companies release their own high-power fast chargers in response to consumers’ increasing energy consumption demand. Fast chargers with a peak power of 140W are the most powerful solution currently available.

Within the 100+ watt product category, GaN fast chargers have reached a penetration rate of 62%. These chargers are primarily supplied by Navitas and Innoscience. With a market share of more than 70%, Navitas’ GaN chips are used in products from Baseus, Lenovo, and Sharge, among others. On the other hand, PFC+LLC combo controllers have become the mainstream solution for 100+ watt fast chargers as these controllers allow for higher efficiency and smaller physical dimensions. The combination of SiC diodes and GaN switches results in increased PFC (power factor correction) frequency. As such, major manufacturers have quickly adopted the GaN+SiC wide bandgap semiconductor combo for their fast chargers.

For instance, Baseus released the world’s first ever 120W GaN (supplied by Navitas) + SiC (supplied by APS) fast charger in 2020 and saw excellent reception from the market. SiC power device suppliers, including Global Power Technology, Maplesemi, and onsemi, have also been ramping up their shipments to PD (power delivery) fast charger manufacturers. It should be pointed out that the fast charge interface has gradually become a standard feature in cars. In light of the rise of the high-power in-car charging market, the power consumption and maximum battery capacity of electronic products will propel the widespread application of third-generation semiconductors, including GaN and SiC, going forward.

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

Apple’s latest AirPods 3 still feature an optical in-ear detection mechanism, according to TrendForce’s 2021 Infrared Sensing Market Trend – 3D Sensing, LiDAR, SWIR LED report. Through the integration of PPG (photoplethysmography) technology, the AirPods 3 contain an improved in-ear detection mechanism based on skin-detect sensors that are equipped with four SWIR (short-wave infrared) LED chips that have two different wavelengths, as well as two InGaAs photodiodes. Industry insiders indicate that the AirPods 3’s skin-detect sensors may potentially detect the water content in the wearer’s skin, giving them the ability to differentiate between human skin and other surfaces. TrendForce expects annual AirPods shipment for 2022 to reach 85 million sets, a 3.7% YoY increase.

While the demand for these end-products rises, the relevant suppliers will stand to benefit as a result. Such companies include SWIR LED chip suppliers Epistar and DOWA; InGaAs photodiode suppliers DOWA and II-VI/Finisar; and module assembler USI.

SWIR wavelengths range from 1,050-2,500 nm, which encompasses the optical properties of compounds such as water, sugar, and alcohol. While SWIR technologies gradually mature, and prices begin to reach feasible levels, wearables manufacturers are expected to officially integrate SWIR technologies into their products in 2H21. With improvements in their algorithm, wearables are increasingly likely to feature PPG-based biosensing functions, which can measure not only heart rate and blood oxygen levels, but also other variables including body hydration as well as blood glucose, blood lipid, and blood alcohol levels in the future.

For more information on reports and market data from TrendForce’s Department of Optoelectronics Research, please click here, or email Ms. Grace Li from the Sales Department at graceli@trendforce.com

Apple is set to unveil the successors to its current device lineups at this year’s fall product launch on September 14. Please see below for some of TrendForce‘s latest data pertaining to the global consumer electronics market:

1. Although the tight supply of certain components due to complications resulting from the COVID-19 pandemic remains Apple’s primary production-related challenge, iPhone production will unlikely be drastically affected. Total iPhone production for 2021 is expected to reach 229.5 million units, a 15.6% YoY increase, with the upcoming iPhone 13 models accounting for about 37%-39% of Apple’s annual iPhone production. In addition, iPhones are also expected to account for about 77% of total annual production of 5G smartphones in 2021, making them the market leader in this segment and representing a drastic increase from 39% in 2020.
2. Regarding technical specifications, the Pro model of iPhone 13 is expected to include 1TB storage capacity as an optional upgrade. Other improvements over previous models include the adoption of A15 processors manufactured with TSMC’s 5nm+ process technology. All four iPhone 13 models will feature flexible AMOLED + On-cell designs for their display panels, while the Pro series will also feature a 120Hz refresh rate as well as LTPO technology for reduced power consumption. Furthermore, all four models’ primary cameras will be equipped with sensor shift image stabilization. The Pro model, in particular, will have its ultra-wide camera upgraded to a 6P lens, with the addition of autofocus capability as well. Much like the iPhone 12, LiDAR functionality is available only for the Pro model of the iPhone 13 lineup.
3. In view of the lackluster sales performances of the iPhone 12 mini, which reached EOL ahead of time, the iPhone 13 mini is expected to account for less than 10% of total iPhone 13 production, since Apple will focus its sales efforts on the other three models. TrendForce indicates that the global economy, markets, and personal incomes are all still experiencing the effects of the COVID-19 pandemic, which has also led to price hikes for electronic components and transportation services, thereby compounding Apple’s difficulties in setting retail prices for the new iPhone models. TrendForce expects Apple to continue the aggressive pricing strategy that it adopted for last year’s models in order to attract smartphone buyers, raise its revenue from services via increased handset sales, and make up for the aggressive prices via increased service revenue.

（Cover image source: Apple official website）