Recently, it was reported that Huawei filed a patent infringement lawsuit against MediaTek in a Chinese local court. According to a report from TechNews, in response, MediaTek and its subsidiaries, HFI Innovation and MTK Wireless, have initiated countermeasures by filing a lawsuit against Huawei in a UK court, accusing Huawei of patent infringement.

MediaTek has stated that the case against Huawei is now in the judicial process and has declined to comment further. On the other hand, Huawei has not publicly responded to the matter.

A report from Chinese media outlet YiCai further cited sources, revealing that the dispute between MediaTek and Huawei over patent fees has been continuing for two to three years, yet the two parties are still unable to reach an agreement due to pricing issues.

On July 18, a report from Nikkei indicated that Huawei had filed a patent infringement lawsuit against MediaTek in a Chinese local court, drawing industry attention. On July 19, MediaTek issued an announcement stating that the lawsuit has no significant impact on the company, that it has entered the judicial process, and that the company will not comment further.

Industry sources cited by TechNews further suggest that Huawei’s lawsuit against MediaTek for patent infringement likely involves 5G (and possibly 4G, 3G, etc.) cellular network mobile communication technology. Reportedly, the reason for the lawsuit is that Huawei proposed a corresponding fee to MediaTek based on terminal patent licensing prices, but MediaTek considered the price too high, leading to the impasse.

Notably, both Huawei and MediaTek hold a large number of related patents. As of the end of 2022, Huawei possessed over 120,000 validly authorized patents worldwide. According to another report from YiCai, it owns 20% of the world’s 5G and Wi-Fi 6 patents, 10% of 4G patents, and 15% of NB-IoT and LTE-M patents.

As for MediaTek, it held over 13,000 patents globally by the end of 2022, with 1,200 patents granted in that year alone. These figures only include granted patents, excluding pending applications. Additionally, MediaTek ranks first among Taiwanese companies in the number of global patents for 5G, Wi-Fi, and HEVC/VVC technologies.

Industry sources cited by the Commercial Times also note that in recent years, China’s technological capabilities have significantly improved, and companies have been actively applying for patents domestically and internationally. With the support of the Chinese government, they have also started to frequently engage in patent litigation. Last year, Chinese courts received 5,062 technical intellectual property and monopoly cases.

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(Photo credit: MediaTek)

Wi-Fi 6E was commercialized in 2021 and, in addition to supporting the 5 GHz and 2.4 GHz bands, it can also operate in the 6 GHz band. According to TrendForce research, Wi-Fi 6E is designed to reduce network congestion and interference through more numerous, wider, and non-overlapping channels (transmission channels for signals in communication systems), while Wi-Fi 6 and 6E’s regular wake-up mechanism (Target Wake Time) effectively coordinates network traffic and maximizes the battery life of smartphones. By 2025, the market share of smartphones supporting Wi-Fi 6 and 6E is estimated to surpass 80%.

TrendForce further indicates that the market share of Wi-Fi 6 and 6E will reach 58% in 2022, officially surpassing Wi-Fi 5 technology. This adoption is primarily driven by the fact that countries such as the United States, Britain, Germany, France, South Korea, Japan, and Taiwan have already used the 6GHz frequency band for Wi-Fi technology, as well as the support from the two major mobile phone camps, iOS and Android, and the active deployment of related industrial chains.

In addition, since high-quality Wi-Fi in devices such as mobile phones, laptops, tablets and wireless access bridges (Access Point) require more efficient and reliable connection requirements and video, telemedicine, and navigation systems require larger bandwidth, the demand for lower latency is driving growth in connected traffic, in addition to the greater amount of automotive, IoT, and AR/VR solutions expected to enter the consumer market this year.

At the same time, Wi-Fi technology is also expanding into the commercial, industrial, and household sectors with the largest growth coming in the demand for smart home and smart lighting. Shipments of Wi-Fi-based smart home equipment will grow at a CAGR of 18% from 2021-2026, connecting home devices through Wi-Fi into a core home network and driving applications such as AR/VR, cloud gaming, 4K video conferencing and 8K streaming media. The continuous development of smart home networking technology has further bolstered the promotion of smart lighting connectivity. The appeal of smart lighting is convenience, safety, and energy efficiency. Currently, voice assistants such as Alexa, Cortana, and Siri can synchronize with smart lighting applications and enable voice commands to control functions such as the light switch, brightness, and color tone. Thus, smart lighting can also be used outside the home in factories, offices, and even outdoors.

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.