Wireless Charging SOCs Market size was valued at USD 1.5 Billion in 2022 and is projected to reach USD 7.5 Billion by 2030, growing at a CAGR of 22% from 2024 to 2030.
The wireless charging system-on-chip (SOC) market has witnessed substantial growth over the last few years, driven by increasing demand for efficient and convenient charging solutions across various applications. This market segment focuses on the integration of wireless charging technologies with system-on-chip solutions to enable seamless and efficient power transmission. The growing shift toward wireless technologies and the increasing adoption of electric vehicles, smartphones, wearables, and other portable electronic devices are fueling the expansion of the wireless charging SOC market. These advancements are empowering a range of industries, including mobile electronics, wearables, medical devices, and industrial applications, to incorporate wireless power transfer, offering significant convenience to end-users while improving design efficiency for manufacturers. The wireless charging SOC market is expected to continue its upward trajectory, driven by continuous innovations in power management and the expansion of smart device ecosystems.
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The mobile terminal segment is one of the most prominent and rapidly growing areas for wireless charging SOCs. With the rise of smartphones, tablets, and other mobile devices, consumers increasingly demand convenient and efficient charging solutions. Wireless charging SOCs integrated into mobile terminals eliminate the need for physical charging ports and cables, providing users with a seamless charging experience. This application leverages the advancements in wireless charging technologies such as Qi, which are widely supported by many leading mobile device manufacturers. As smartphones evolve with faster charging speeds, longer battery life, and the push towards more integrated designs, the demand for wireless charging capabilities in these devices continues to rise. Wireless charging SOCs not only improve convenience but also enhance durability by reducing wear and tear associated with traditional charging connectors.
The adoption of wireless charging in mobile terminals has expanded with the emergence of new devices and technologies. Mobile terminals are also evolving with features such as fast charging, reverse wireless charging, and energy efficiency, all of which are increasingly supported by wireless charging SOCs. As mobile devices become more advanced, wireless charging solutions are expected to evolve further, supporting higher power levels, improved efficiency, and faster charging times. Additionally, the integration of wireless charging SOCs helps to reduce the space required for charging ports and connectors, enabling thinner and more compact designs. As mobile terminals continue to be an essential part of daily life for billions of people, the adoption of wireless charging SOCs will likely become a standard feature in these devices in the near future.
Wearable devices, including smartwatches, fitness trackers, and health-monitoring devices, are among the most innovative applications for wireless charging SOCs. With the increasing adoption of wearables, the demand for compact, efficient, and user-friendly charging solutions is higher than ever. Wireless charging provides a solution to eliminate the need for traditional charging cables, which can be cumbersome and difficult to manage, especially for smaller, more portable devices. Wireless charging SOCs in wearables offer the convenience of simply placing the device on a charging pad or surface for power transfer, improving the overall user experience. Furthermore, these SOCs can help to enhance device durability by removing the risk of damaging charging ports, which is especially important for wearables designed for active users.
As wearable devices continue to advance, the need for faster, more efficient wireless charging solutions is increasing. The integration of wireless charging SOCs into these devices enables manufacturers to deliver lightweight, streamlined products with enhanced battery life. The trend toward miniaturization in wearables means that space is at a premium, and the ability to incorporate wireless charging into these devices without compromising on performance is a significant advantage. With the growing adoption of smartwatches, fitness trackers, and other wearable technologies, the wireless charging SOC market for this application is expected to continue growing. Moreover, as wearables become more sophisticated with advanced health-monitoring capabilities, the demand for advanced charging solutions, including wireless power, will likely see a sharp increase.
Industrial electronics encompass a broad range of devices used in manufacturing, automation, and other industrial processes. The integration of wireless charging SOCs into industrial applications is an emerging trend driven by the need for more efficient, durable, and maintenance-free power systems. Wireless charging offers the advantage of reducing downtime, minimizing cable wear and tear, and improving safety in industrial environments where traditional charging methods can be cumbersome. By eliminating the need for physical connectors, wireless charging SOCs also reduce the risk of electrical failures caused by damaged or worn-out cables, thus enhancing the reliability and longevity of industrial equipment. This feature is particularly crucial in environments where equipment needs to operate continuously and with minimal interruptions.
In the industrial sector, wireless charging SOCs are being integrated into robotics, sensors, and autonomous machinery to streamline energy supply while increasing operational efficiency. With the rise of Industry 4.0 and the increasing deployment of IoT-enabled devices, wireless charging technologies are becoming a vital part of industrial electronics. The application of wireless charging in industrial settings allows for greater flexibility in device placement, as there is no need for physical charging stations or complex wiring systems. As industrial electronics evolve toward more automated and connected systems, the role of wireless charging SOCs will become more critical, helping to support the operation of advanced machines without the limitation of physical power connectors.
In the medical electronics sector, the integration of wireless charging SOCs is becoming an increasingly important development. Medical devices such as implanted devices, hearing aids, and external diagnostic equipment benefit from wireless charging technologies due to the need for power solutions that are safe, reliable, and non-invasive. Wireless charging provides a hygienic, efficient method to charge medical devices, especially those that are worn or implanted in the body. For example, hearing aids can be charged wirelessly, eliminating the need for small and potentially cumbersome connectors. In addition to improving convenience, wireless charging SOCs can also help extend the lifecycle of medical devices by reducing wear on charging ports and connectors, which is crucial for ensuring the long-term performance of medical equipment.
The application of wireless charging in medical electronics is also being explored for larger medical equipment such as diagnostic machines and monitoring devices. As healthcare technologies evolve to become more portable and patient-centered, the need for wireless charging solutions will increase. Devices that require frequent charging and must maintain a high level of reliability in critical medical environments can benefit from the safety, efficiency, and convenience provided by wireless charging SOCs. As wireless power technologies improve, medical devices will become even more compact, lightweight, and user-friendly, all while meeting the stringent safety and performance standards required in healthcare applications.
The Others category encompasses a wide variety of niche applications where wireless charging SOCs are making significant strides. These applications range from consumer electronics such as portable speakers and headphones to emerging technologies like electric vehicles (EVs), drones, and smart home devices. In the case of electric vehicles, wireless charging SOCs are paving the way for inductive charging pads that eliminate the need for physical plugs, improving the user experience and convenience for EV owners. In consumer electronics, wireless charging is being integrated into a wide array of devices, allowing for a cleaner, more clutter-free charging experience that aligns with the growing trend of wireless ecosystems. The rapid adoption of IoT devices is also expected to drive further demand for wireless charging solutions, as these devices are often compact and require efficient, space-saving power management solutions.
The diverse range of applications for wireless charging SOCs reflects the broader trend of the increasing integration of wireless technologies across various industries. As the market for smart home devices, consumer electronics, and even large-scale applications such as robotics and transportation evolves, the demand for wireless charging systems will continue to rise. The Others category highlights the versatility of wireless charging SOCs in enabling seamless energy transfer across a broad spectrum of applications, providing innovative and efficient solutions to industries that require high-performance, reliable, and flexible power solutions. As these technologies continue to mature, the possibilities for their integration into new applications are vast, and the market is expected to expand further in the coming years.
Several key trends are shaping the wireless charging SOCs market, including the integration of faster charging technologies, increased adoption in mobile devices and wearables, and the rise of new applications such as electric vehicles and IoT devices. As the demand for faster, more efficient charging solutions grows, manufacturers are focusing on improving power transfer efficiency and reducing charging times. Another notable trend is the miniaturization of wireless charging SOCs, which allows for their integration into smaller devices without compromising performance. Moreover, with the increasing push for sustainability, wireless charging systems are being designed to be more energy-efficient, reducing waste and improving battery longevity. The shift toward energy-efficient and sustainable technologies is expected to continue influencing the development of wireless charging SOCs, driving further innovation and adoption across various sectors.
The wireless charging SOCs market offers numerous opportunities for growth, particularly in industries such as automotive, medical electronics, and industrial applications. The growing interest in electric vehicles presents a significant opportunity for the integration of wireless charging systems, allowing for more convenient and efficient charging solutions. In the medical field, the adoption of wireless charging SOCs can enhance the usability and safety of medical devices, driving the demand for innovative charging solutions. Furthermore, the continued proliferation of IoT devices and wearables presents opportunities for wireless charging SOCs to be integrated into a wide variety of consumer and commercial products. As the market for wireless charging expands, manufacturers have the chance to develop new, tailored solutions that cater to the specific needs of different industries, creating a wealth of opportunities for innovation and growth.
What is wireless charging SOC?
Wireless charging SOC (System on Chip) integrates wireless power management into a single chip, enabling efficient and cable-free energy transfer for various devices.
Top Wireless Charging SOCs Market Companies
Renesas
NXP
Broadcom
ROHM
Infineon Technologies
STMicroelectronics
Richtek Technology
Texas Instruments
Toshiba
Microchip Technology
Analog Devices
Semtech
Maxic Technology
NuVolta
ConvenientPower Semiconductor
Injoinic Technologies
Halo Microelectronics
CR Micro
BOEONE
Silergy
CELFRAS
Bee Electronic
Acutepower
Jingxin Microelectronics
Regional Analysis of Wireless Charging SOCs Market
North America (United States, Canada, and Mexico, etc.)
Asia-Pacific (China, India, Japan, South Korea, and Australia, etc.)
Europe (Germany, United Kingdom, France, Italy, and Spain, etc.)
Latin America (Brazil, Argentina, and Colombia, etc.)
Middle East & Africa (Saudi Arabia, UAE, South Africa, and Egypt, etc.)
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Wireless Charging SOCs Market Insights Size And Forecast