Wireless Charging Chip Market Size, Share, Opportunities, and Trends Report Segmented By Power Range, Type, Application, and Geography – Forecasts from 2025 to 2030

Description

Wireless Charging Chip Market Size:

The wireless charging chip market is projected to grow at a CAGR of 22.45% during the projected period (2025-2030).

The Wireless Charging Chip Market is a rapidly evolving segment within the global semiconductor and consumer electronics industries, driven by the increasing adoption of wireless power transfer (WPT) technologies in smartphones, wearables, electric vehicles (EVs), and IoT devices. This market focuses on integrated circuits, such as PMIC (Power Management Integrated Circuits) and chipsets, that enable inductive charging and resonant wireless charging for efficient power delivery without physical connectors. The market is shaped by advancements in standards like the Qi2 standard, developed by the Wireless Power Consortium (WPC), and competing technologies from the AirFuel Alliance, alongside innovations in GaN semiconductors for higher efficiency. As consumer demand for convenience, interoperability, and sustainability grows, the market plays a pivotal role in enabling seamless charging experiences across diverse applications.

Wireless Charging Chip Market Overview:

The wireless charging chip has emerged as one of the most important equipment in electronics and semiconductor industries due to increased demand for easy and cable-free power solutions in consumer electronics, automotive, healthcare, and industrial applications. The wireless charging chips market is growing significantly because they meet the demands for convenience from the user's end and progress from a technological perspective. This chip is integrated for power delivery in diverse devices, from smartphones and wearables to electric vehicles (EVs) and medical implantable devices, creating a cable-free environment and enhancing the device's durability by eradicating wear and tear on physical ports. Moreover, the demand for sustainable product design and digitalization with a seamless consumer experience is also contributing to the wireless charging chip market's considerable growth.

Surge in Consumer Electronics Adoption: The growing use of wireless charging in consumer electronics, driven by increasing demand for smartphones, wearables, laptops, and tablets, is a key market growth driver. According to July 2024 PIB data, India's electronics sector reached USD 155 billion in FY23, doubling from USD 101 billion in 2017, with mobile phones accounting for 43% of production. This boom fuels demand for transmitter and receiver chips that integrate wireless charging into premium devices, enhancing performance and user experience, a key selling point for manufacturers.

Trend Toward Faster Wireless Charging: Consumers increasingly demand wireless charging speeds comparable to wired solutions. This trend is evident in flagship smartphones with rapid wireless charging and in electric vehicles (EVs) with dynamic charging systems to minimize downtime. Research into advanced coil designs and efficient thermal management for chips is critical to improving power transfer efficiency, ensuring safety, and optimizing performance.

Rapid economic development, urbanization, and high-tech adoption make the Asia-Pacific a fast-growing market. The surge in EV adoption, supported by government incentives like India's FAME Subsidy (offering 20,000 per kWh to state transport units), drives demand for wireless charging solutions in the automotive sector.

Some of the major players covered in this report include ROHM Co., Ltd, Infineon Technologies AG, Maxic Technology, Inc., Texas Instruments Incorporated, and Samsung Electronics Co., Ltd, among others.

Wireless Charging Chip Market Trends:

The Wireless Charging Chip Market is experiencing transformative growth, driven by advancements in high-efficiency wireless charging and consumer demand for cable-free charging. The adoption of the Qi2 standard, with its Magnetic Power Profile (MPP), enables fast charging speeds up to 25W, as seen in Google’s Pixel 10 Pro XL, launched in August 2025, which supports multi-device charging for smartphones and wearables. Power management IC (PMIC) solutions, such as Samsung’s S2MIW06, enhance high-efficiency wireless charging by integrating foreign object detection and in-band communication, reducing costs and improving safety.

Miniaturization is a key trend, with GaN semiconductors enabling compact, high-power chipsets for wearables and EVs. In May 2024, STMicroelectronics introduced a 50W Qi-compatible PMIC for medical devices, supporting fast charging and multi-device charging. Foreign object detection advancements ensure safety by preventing overheating from metallic objects. These trends, coupled with cable-free charging innovations, position the market for expansion in consumer electronics, automotive, and industrial applications, driven by interoperability and efficiency.

Wireless Charging Chip Market Drivers:

• Widespread Adoption of the Qi2 Standard and Magnetic Power Profile (MPP): The Wireless Charging Chip Market is significantly driven by the global adoption of the Qi2 standard, developed by the Wireless Power Consortium (WPC), which incorporates the Magnetic Power Profile (MPP) for enhanced charging efficiency and alignment. The Qi2 standard supports fast charging up to 25W and ensures interoperability across devices like smartphones and wearables, boosting demand for compatible power management IC (PMIC) chipsets. In August 2025, Google’s Pixel 10 Pro XL became the first Android device to fully implement Qi2 with MPP, highlighting its market traction. The MPP improves user experience through magnetic alignment, reducing energy loss and enabling cable-free charging. This standardization drives chipset development, as manufacturers like Qualcomm and NXP integrate Qi2-compliant solutions, fostering market growth by ensuring seamless, efficient wireless power transfer (WPT) across consumer electronics and automotive applications.
• Growth in Consumer Electronics and Electric Vehicle Applications: The proliferation of consumer electronics, such as smartphones, wearables, and earbuds, alongside the rise of electric vehicles (EVs), fuels demand for wireless power transfer (WPT) solutions, driving the Wireless Charging Chip Market. High-efficiency wireless charging is critical for devices requiring fast charging and multi-device charging capabilities. In EVs, inductive charging for in-cabin accessories and vehicle-to-grid systems is gaining traction. For instance, STMicroelectronics launched the STSAFE-V100-Qi, a Qi2-compliant authentication chip for automotive wireless charging, supporting seamless integration in EVs. The increasing adoption of GaN semiconductors enhances PMIC efficiency, enabling compact designs for high-power applications. This trend, driven by consumer demand for cable-free charging and automotive innovations, expands the market as chip manufacturers develop solutions for diverse, high-volume applications, ensuring robust growth.
• Advancements in GaN Semiconductors and Miniaturization: Technological advancements in GaN semiconductors and miniaturization are key drivers of the Wireless Charging Chip Market, enabling high-efficiency wireless charging and compact designs. GaN semiconductors offer superior power density and thermal performance, reducing heat and supporting fast charging in smaller form factors for wearables, smartphones, and IoT devices. In 2024, Renesas Electronics introduced a GaN-based PMIC for Qi2 chargers, enhancing efficiency and miniaturization for medical and consumer applications. These innovations support multi-device charging and foreign object detection, improving safety and user experience. The trend toward miniaturization allows manufacturers to integrate WPT chipsets into space-constrained devices, driving adoption across industries. As GaN semiconductors evolve, they enable higher power outputs and cable-free charging, positioning the market for growth in both consumer and industrial sectors.

Wireless Charging Chip Market Restraints:

• High Development and Certification Costs: The Wireless Charging Chip Market faces significant restraints due to the high costs associated with developing and certifying PMIC and chipsets for wireless power transfer. Designing chips for Qi2 standard compliance requires substantial R&D investment, including rigorous testing for interoperability, safety, and foreign object detection. The WPC certification process, while ensuring quality, adds financial burdens, particularly for smaller manufacturers. In 2024, a report noted that Qi2 certification costs can deter new entrants, limiting market competition. Additionally, integrating GaN semiconductors for high-efficiency wireless charging increases production costs due to advanced materials and manufacturing complexity. These financial barriers restrict innovation and scalability, particularly for niche applications like resonant wireless charging, constraining market growth as smaller players struggle to compete with established companies like Qualcomm and Samsung.
• Competition from Advanced Wired Charging Solutions: The Wireless Charging Chip Market is restrained by strong competition from advanced wired charging technologies, such as USB-C Power Delivery, which offer higher power outputs (up to 240W) compared to Qi2’s 25W. Wired solutions provide faster charging speeds and lower energy loss, challenging the adoption of wireless power transfer in high-power applications like laptops and EVs. For instance, the EU’s USB-C standardization mandate reinforced wired charging’s dominance, prompting some manufacturers to prioritize wired over cable-free charging. While inductive charging excels in convenience, its efficiency and speed limitations, even with GaN semiconductors, hinder widespread adoption in power-intensive scenarios. This competition limits the market’s growth potential, as consumers and manufacturers weigh the trade-offs between wired and wireless power transfer solutions, particularly in cost-sensitive or high-performance applications.

Wireless Charging Chip Market Key Developments:

• In July 2025, Samsung developed a new wireless charging IC, S2MIW06, that supports the anticipated Qi2.2 wireless charging standard. This IC is designed to enable significantly faster charging speeds, with reports suggesting it can support up to 50 watts of power transfer for compatible devices. This move is critical as it signals a major OEM's commitment to pushing the wireless power envelope far beyond the initial 15W Qi2 limit, focusing on enhanced efficiency and quicker top-ups for flagship smartphones and other high-power devices expected to be released later in 2025.
• August 2025: Google's launch of the Pixel 10 series marks the first major Android phone line to fully embrace the Qi2 standard, which includes the Magnetic Power Profile (MPP). While the specific internal Receiver IC (Rx IC) from a chip manufacturer is not named, this device integration represents a major chip ecosystem launch by a major OEM. The integration mandates a certified Qi2 Receiver IC that supports the magnetic alignment and 15W wireless charging, broadening the IC market for Qi2-compliant chips and opening the door for accessory manufacturers using matching Qi2 Transmitter ICs (Tx ICs). The Pixelsnap ecosystem further drives adoption of the corresponding magnetic charging transmitter chips.
• In May 2024, STMicroelectronics introduced a high-power wireless charging solution consisting of a 50W-capable transmitter and receiver combo (specific IC names not widely publicized alongside the news of the launch). This solution targets applications beyond standard consumer electronics, such as high-power medical devices, home appliances (e.g., vacuum cleaners), and industrial equipment. This launch is significant because it addresses the growing demand for faster, cable-free solutions in the medium-power segment, enabling high-power device charging while maintaining Qi-compatibility for interoperability and safety.

Wireless Charging Chip Market Segmentation:

• By Power Range
  • Low Power
  • Medium Power
  • High Power
• By Type
  • Receiver
  • Transmitter
• By Application
  • Consumer Electronics
  • Automotives
  • Healthcare
  • Industrial Equipment
  • Others
• By Region
  • Americas
  • Europe, Middle East & Africa
  • Asia Pacific

Table Of Contents

Companies Profiled

Qualcomm Technologies, Inc.

Samsung Electronics Co., Ltd.

NXP Semiconductors N.V.

STMicroelectronics N.V.

Renesas Electronics Corporation

Texas Instruments Incorporated 

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