Wi-Fi Chipset Market on the Rise: Expected to Surge to $48.40 Billion by 2030 with a 6.44% CAGR | Credence Research

May 20 13:35 2024
Wi-Fi Chipset Market on the Rise: Expected to Surge to $48.40 Billion by 2030 with a 6.44% CAGR | Credence Research
The global Wi-Fi chipset market is experiencing strong growth and is set to continue this trend. In 2022, it was valued at USD 29.27 billion and is expected to reach USD 48.40 billion by 2030, showcasing a robust compound annual growth rate (CAGR) of 6.44%.


The global Wi-Fi chipset market is on an impressive trajectory, poised for substantial growth in the coming years. Valued at USD 29.27 billion in 2022, the market is projected to surge to USD 48.40 billion by 2030, reflecting a significant compound annual growth rate (CAGR) of 6.44%. This comprehensive report delves into the key aspects driving this market growth, the challenges faced, and a detailed regional and segmentation analysis.

Major Driving Factors for Wi-Fi Chipset Market

The Wi-Fi chipset market is propelled by several critical factors, which include:

Growing Need for Wireless Internet Access

The ubiquity of laptops, tablets, smartphones, and other wireless devices has driven up the demand for Wi-Fi chipsets. As these devices become more integral to daily life for communication, entertainment, and business purposes, the need for robust and efficient Wi-Fi connectivity becomes paramount. This growing dependence on wireless devices directly correlates with the increasing demand for advanced Wi-Fi chipsets.

Growing Adoption of the Internet and Data Use

High-speed and dependable Wi-Fi connections are in high demand due to the increasing global internet penetration and the growing trend of data consumption brought on by online gaming, streaming services, and other bandwidth-intensive activities. This surge in data use necessitates advanced Wi-Fi chipsets capable of handling large volumes of data efficiently, ensuring smooth and uninterrupted user experiences.

Growth of the Internet of Things (IoT)

The expansion of IoT devices, such as wearables, smart home devices, and industrial IoT applications, is a significant driver of the Wi-Fi chipset market. These devices require efficient and dependable wireless communication to function optimally, and as the number of IoT devices continues to grow, so does the demand for sophisticated Wi-Fi chipsets that can support their connectivity needs.

Adoption of Wi-Fi 6 (802.11ax)

One major factor driving the Wi-Fi chipset market is the switch to Wi-Fi 6, the newest Wi-Fi standard that offers greater data rates, more capacity, and improved performance in crowded locations. Wi-Fi 6’s enhanced features make it a preferred choice for modern applications, boosting its adoption across various sectors, from residential to commercial and industrial.

Initiatives for Smart Homes and Cities

The demand for sophisticated Wi-Fi chipsets is fueled by the growing implementation of wirelessly connected smart home and smart city solutions. These initiatives rely heavily on reliable and high-performance Wi-Fi networks to support a wide range of applications, from home automation to urban infrastructure management. As more cities and households adopt smart technologies, the need for advanced Wi-Fi chipsets increases.

Upgrades to the Business Wi-Fi Network

Businesses are continually upgrading their Wi-Fi networks to enable greater data rates, denser device counts, and more security features. This trend drives the demand for enterprise-grade Wi-Fi chipsets designed to meet the rigorous requirements of modern business environments, ensuring seamless connectivity and robust network performance.

Development of Telecommunication Infrastructure

The market for Wi-Fi chipsets is growing as a result of the development of public Wi-Fi networks and hotspots, as well as other telecommunications infrastructure. These developments enhance connectivity options for users, thereby increasing the demand for advanced Wi-Fi chipsets that can support high-speed and reliable internet access in public and private spaces.

Trends in Remote Work

The increased use of home Wi-Fi networks due to remote and flexible work arrangements is driving up demand for Wi-Fi chipsets with improved performance and dependability. As more people work from home, the need for stable and fast internet connections becomes crucial, further stimulating market growth. Enhanced Wi-Fi networks are essential for supporting video conferencing, cloud applications, and other remote work tools.

Improvements in Wireless Security

Recent developments in Wi-Fi security features and protocols, along with an increasing focus on cybersecurity, encourage the adoption of newer Wi-Fi chipsets that provide enhanced defense against possible threats. These advancements make Wi-Fi networks more secure and reliable, boosting user confidence and demand. Enhanced security measures are particularly important in protecting sensitive data and ensuring privacy in both residential and commercial settings.

Innovation and the Competitive Environment

Market dynamics are influenced by the intense competition among chipset manufacturers, which fosters ongoing innovation in terms of performance, power efficiency, and new features. Continuous improvements and technological advancements in Wi-Fi chipsets drive market growth and expansion. Manufacturers are constantly innovating to differentiate their products and meet the evolving demands of consumers and businesses.


For more detailed insights and comprehensive data on the global Wi-Fi chipset market, including in-depth regional and segmentation analysis, please visit our report at Credence Research. – https://www.credenceresearch.com/report/wifi-chipset-market


Major Restraints for Wi-Fi Chipset Market

Despite the positive outlook, the Wi-Fi chipset market faces several challenges:

Volatility in Raw Material Prices

The prices of raw materials used in manufacturing Wi-Fi chipsets, such as semiconductors and other electronic components, are subject to fluctuations. These price variations can impact production costs and, subsequently, the pricing of the end products, affecting market growth. Manufacturers must navigate these fluctuations carefully to maintain profitability and competitiveness.

Strict Regulations and Compliance Standards

The Wi-Fi chipset industry is governed by stringent regulations and compliance standards to ensure safety, security, and interoperability. Adhering to these regulations can be complex and costly, posing a challenge for manufacturers and potentially slowing down market expansion. Compliance with international standards and local regulations requires significant investment in research, development, and testing.

Regional Analysis

Asia Pacific: A Dominant Force

In 2021, the Asia Pacific region held a major market share in terms of both value and volume. The region’s dominance is expected to continue during the forecast period, driven by factors such as:

  • Robust Manufacturing Base: Countries like China, Taiwan, and South Korea are key manufacturing hubs for electronic components, including Wi-Fi chipsets. The presence of leading manufacturers and favorable production conditions bolster market growth. These countries have established themselves as leaders in the electronics manufacturing industry, providing a strong foundation for the Wi-Fi chipset market.
  • Rising Consumer Electronics Market: The increasing demand for consumer electronics, such as smartphones, laptops, and smart home devices, fuels the need for advanced Wi-Fi chipsets. As consumer electronics become more integrated into daily life, the demand for reliable and high-performance Wi-Fi connectivity grows.
  • Technological Adoption: The rapid adoption of new technologies and the deployment of advanced Wi-Fi networks in commercial and industrial sectors contribute to the market’s expansion. The Asia Pacific region is at the forefront of technological innovation, driving the development and adoption of cutting-edge Wi-Fi solutions.

North America and Europe

North America and Europe are also significant markets for Wi-Fi chipsets. The presence of tech giants, high adoption rates of advanced technologies, and substantial investments in research and development drive the market in these regions. The mature markets in these regions are characterized by a high level of technological sophistication and consumer demand for the latest Wi-Fi solutions.

Emerging Markets

Emerging markets in Latin America, the Middle East, and Africa are witnessing steady growth in Wi-Fi chipset adoption. Increasing internet penetration, rising disposable incomes, and the expansion of the IT sector in these regions present lucrative opportunities for market players. These regions offer untapped potential for Wi-Fi chipset manufacturers to expand their market presence and capture new customer bases.

Segmentation Analysis

The global Wi-Fi chipset market is segmented based on MIMO configuration, band, IEEE standard, vertical, and end-use application.

By MIMO Configuration


Single-User Multiple Input Multiple Output (SU-MIMO) is a configuration where a single user is served at a time. This configuration is commonly used in consumer-grade devices and smaller networks, offering a straightforward approach to enhancing Wi-Fi performance for individual users.


Multi-User Multiple Input Multiple Output (MU-MIMO) allows multiple users to be served simultaneously, enhancing network efficiency and performance. This configuration is gaining traction in enterprise environments and large-scale deployments, where multiple devices require concurrent and high-speed access to the network.

By Band

Single & Dual Band

Single and dual-band Wi-Fi chipsets operate on one or two frequency bands (2.4 GHz and 5 GHz), offering a balance between coverage and speed. These chipsets are widely used in various consumer and enterprise applications, providing flexibility and reliability.

Tri Band

Tri-band chipsets operate on three frequency bands (2.4 GHz, 5 GHz, and 6 GHz), providing superior performance, reduced congestion, and higher speeds, making them ideal for demanding applications. Tri-band chipsets are particularly useful in environments with high device density and data traffic, such as offices and public spaces.

By IEEE Standard

802.11be (Wi-Fi 7)

Wi-Fi 7 (802.11be) represents the latest advancement in Wi-Fi technology, promising significantly higher speeds, lower latency, and improved efficiency. As the newest standard, Wi-Fi 7 is expected to drive significant innovation and performance enhancements in Wi-Fi chipsets.

802.11ax (Wi-Fi 6 and 6E)

Wi-Fi 6 (802.11ax) and its extended version, Wi-Fi 6E, offer enhanced performance, increased capacity, and better energy efficiency, making them suitable for a wide range of applications. Wi-Fi 6 and 6E are designed to handle the growing number of devices and data traffic in modern networks.

802.11ac (Wi-Fi 5)

Wi-Fi 5 (802.11ac) is a widely adopted standard known for its high speeds and reliable performance, particularly in consumer electronics. Wi-Fi 5 remains a popular choice for many devices and applications, providing a solid foundation for Wi-Fi connectivity.

802.11ad and 802.11b/g/n

Other standards such as 802.11ad and 802.11b/g/n continue to serve specific use cases, particularly in legacy devices and applications where backward compatibility is essential. These standards provide support for older devices and networks, ensuring broad compatibility and connectivity.

By Vertical


The electronics sector, encompassing consumer electronics, industrial electronics, and automotive electronics, is a major consumer of Wi-Fi chipsets. The increasing integration of Wi-Fi connectivity in electronic devices drives demand for advanced chipsets.


Enterprises utilize Wi-Fi chipsets for various applications, including office networking, communications, and cloud services. The need for reliable and high-performance Wi-Fi networks in business environments drives the demand for enterprise-grade chipsets.


In the industrial sector, Wi-Fi chipsets enable wireless communication in manufacturing plants, warehouses, and logistics operations. Industrial applications require robust and reliable Wi-Fi connectivity to support automation and real-time data exchange.


Retailers leverage Wi-Fi technology to enhance customer experience, streamline operations, and support point-of-sale systems. The adoption of Wi-Fi chipsets in retail environments improves connectivity and operational efficiency.

BFSI (Banking, Financial Services, and Insurance)

The BFSI sector uses Wi-Fi networks for secure transactions, customer service, and data management. Wi-Fi chipsets play a crucial role in ensuring secure and reliable connectivity in financial institutions.


In healthcare, Wi-Fi chipsets support critical applications such as telemedicine, patient monitoring, and medical device connectivity. Reliable Wi-Fi networks are essential for delivering high-quality healthcare services and improving patient outcomes.


The automotive industry integrates Wi-Fi chipsets for in-vehicle infotainment systems, telematics, and autonomous driving technologies. Wi-Fi connectivity enhances the driving experience and supports advanced automotive features.

Others (Government & Public Sector)

Government and public sector organizations deploy Wi-Fi networks for public safety, infrastructure management, and e-governance initiatives. The adoption of Wi-Fi chipsets in these sectors supports efficient and secure communication and data exchange.

By End-use Application

By IEEE Standard Devices

Various devices across multiple IEEE standards utilize Wi-Fi chipsets, including smartphones, laptops, and tablets. These devices rely on advanced Wi-Fi connectivity for seamless performance and user experience.


Wi-Fi-enabled cameras, including security cameras and smart cameras, rely on Wi-Fi chipsets for wireless connectivity. Wi-Fi chipsets enable remote access and control of cameras, enhancing security and convenience.

Smart Home Devices

The growing smart home market incorporates Wi-Fi chipsets in devices such as smart speakers, thermostats, and lighting systems. Wi-Fi connectivity supports automation and remote control of smart home devices, improving user convenience and energy efficiency.

Gaming Devices

Gaming consoles and devices utilize high-performance Wi-Fi chipsets to ensure low-latency and high-speed connectivity. Reliable Wi-Fi networks are essential for online gaming and streaming, providing an optimal gaming experience.

AR/VR Devices

Augmented Reality (AR) and Virtual Reality (VR) devices depend on advanced Wi-Fi chipsets for immersive and interactive experiences. Wi-Fi connectivity supports high data rates and low latency, enhancing the realism and responsiveness of AR/VR applications.

Mobile Robots and Drones

Wi-Fi chipsets are essential for the remote control and operation of mobile robots and drones in various applications. Reliable Wi-Fi connectivity enables real-time communication and data exchange, supporting automation and remote monitoring.

Networking Devices

Routers, access points, and other networking devices integrate Wi-Fi chipsets to provide seamless internet connectivity. Advanced Wi-Fi chipsets enhance the performance and reliability of networking devices, supporting high-speed data transfer and network management.

mPOS (Mobile Point of Sale)

Mobile point of sale systems in retail and hospitality sectors use Wi-Fi chipsets for secure and efficient transactions. Wi-Fi connectivity supports real-time payment processing and data exchange, improving customer service and operational efficiency.

In-Vehicle Infotainment

Wi-Fi chipsets enable connectivity in in-vehicle infotainment systems, enhancing the driving experience with navigation, entertainment, and communication features. Advanced Wi-Fi connectivity supports seamless integration with mobile devices and online services.

The global Wi-Fi chipset market is poised for remarkable growth, driven by the increasing penetration of smartphones, the rising use of Wi-Fi in businesses and enterprises, and ongoing technological advancements. However, challenges such as raw material price volatility and stringent regulatory standards must be navigated carefully to sustain this growth.


For more detailed insights and comprehensive data on the global Wi-Fi chipset market, including in-depth regional and segmentation analysis, please visit our report at Credence Research. – https://www.credenceresearch.com/report/wifi-chipset-market


  Recent Developments:

  • In January 2023, MediaTek, a global leader in wireless technology, announced that its MediaTek Filogic Wi-Fi 7 and Wi-Fi 6E chips had successfully completed interoperability tests for Automated Frequency Coordination (AFC) in collaboration with Federated Wireless. The AFC system managed by Federated Wireless, which orchestrates unlicensed devices in the 6 GHz band, received conditional approval from the Federal Communications Commission (FCC).
  • By June 2023, Broadcom had launched its Wireless 7 chipsets, including the BCM6765 residential WiFi 7 access point, the BCM47722 enterprise WiFi 7 access point featuring dual IoT radios for BLE, Zigbee, Thread, and Matter protocols, and the BCM4390, a low-power combo chip for mobile devices supporting WiFi 7, Bluetooth, and 802.15.4.
  • In May 2022, MediaTek introduced two new Wi-Fi 7 chipsets: the Filogic 880 for access points, routers, and gateways, and the Filogic 380 for client devices like smartphones and laptops.
  • As of December 2021, Apple, based in Cupertino, was planning to launch its own 5G modem chips for iPhones and had started hiring engineers in Southern California to develop wireless processors aimed at replacing components from Broadcom and Skyworks Solutions.
  • In October 2020, Qualcomm unveiled its Qualcomm Immersive Home Platforms, successors to its mesh networking solutions. These platforms, designed for gigabit-speed wireless coverage across every room, employ a novel modular architecture, enhanced network packet processing technology, and integration of the latest Wi-Fi 6 and 6E standards.
  • In May 2020, Qualcomm introduced its flagship mobile connectivity systems, the FastConnect 6900 and FastConnect 6700. These systems feature the fastest Wi-Fi speeds available in mobile connectivity (up to 3.6 Gbps), VR-class low latency, and Bluetooth advancements that enhance audio experiences for both traditional and emerging LE Audio applications.


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