mmWAVE  ANTENNA MARKET

KEY FINDINGS

• The increasing demand for high-speed and low-latency data transfer is driving the adoption of mmWave antennas.
• The growing deployment of 5G networks is creating a significant opportunity for the mmWave antenna market.
• The Asia Pacific region is expected to be the fastest-growing market for mmWave antennas, driven by the rapid adoption of 5G technology in the region.
• The increasing miniaturization of mmWave antennas is making them more attractive for use in mobile devices.
• mmWave antennas are more expensive than traditional antennas due to the complex manufacturing process and the use of specialized materials. This high cost can be a barrier to adoption in some applications.
• mmWave signals have a shorter range than traditional antennas, which can limit their use in certain applications, such as outdoor wireless backhaul.
• Researchers are developing new materials that can improve the performance of mmWave antennas, such as metamaterials and graphene. These new materials could make mmWave antennas smaller, cheaper, and more efficient.
• The adoption of mmWave technology is expected to increase in the coming years, driven by the demand for high-speed and low-latency data transfer. This could lead to a significant growth in the global mmWave antenna market.
• There is a significant opportunity for investment in the development of new mmWave antenna technologies. These technologies could include new materials, new beamforming techniques, and new antenna designs.
• There is a growing need for mmWave antenna testing and certification services. This is due to the increasing complexity of mmWave antennas and the need to ensure that they meet safety and performance standards.

mmWAVE ANTENNA MAKRET OVERVIEW

The global mmWave antenna market is expected to reach a value of USD XX billion by 2030, growing at a CAGR of 15.05% from 2023 to 2030. This growth is being driven by the increasing demand for high-speed and low-latency data transfer, the growing deployment of 5G networks, and the increasing adoption of mmWave technology in various applications.

Key Trends Shaping the Market

• Miniaturization of mmWave Antenna:  mmWave antenna are becoming smaller and more compact, making them suitable for use in mobile devices and other compact applications.
• Advanced Beamforming Technologies: Beamforming technology plays a significant role in mmWave antenna, enabling them to focus their signals in specific directions, enhancing signal strength, and reducing interference.
• Emerging Fixed Wireless Access Applications: mmWave antenna are increasingly being adopted for fixed wireless access (FWA) applications, providing high-speed internet connectivity to homes and businesses.

Key Market Segments

• Frequency Bands: The 24-28 GHz frequency band is expected to dominate the mmWave antenna market due to its wider bandwidth and higher capacity.
• Antenna Types: Phased array antenna modules are expected to be the largest segment of the mmWave antenna market due to their superior performance and ability to handle multiple beams.
• Applications: Mobile terminals are expected to be the largest application segment for mmWave antenna, driven by the rising demand for 5G devices.

Key Players in the Market

• Huawei: A leading global telecommunications equipment provider, Huawei offers a wide range of mmWave antenna solutions for various applications.
• Ericsson: A multinational telecommunications company, Ericsson provides high-performance mmWave antenna solutions for indoor and outdoor deployments.
• Samsung: A multinational conglomerate, Samsung offers mmWave antenna solutions for mobile devices and consumer electronics.
• Nokia: A multinational telecommunications company, Nokia provides mmWave antenna solutions for various applications, including FWA and 5G networks.
• Qualcomm: An American multinational semiconductor company, Qualcomm provides integrated RF front-end solutions for mobile devices and wireless devices.

Regional Outlook

• Asia Pacific: The Asia Pacific region is expected to be the fastest-growing market for mmWave antenna, driven by rapid urbanization and increasing demand for high-speed connectivity.
• North America and Europe: North America and Europe are expected to witness significant growth in the mmWave antenna market, with the United States, Germany, and Japan leading the adoption.

Future Prospects

The global mmWave antenna market is expected to continue to grow in the coming years, driven by the increasing demand for high-speed and low-latency data transfer, the continued deployment of 5G networks, and the adoption of mmWave technology in new applications.

INTRODUCTION TO mmWAVE ANTENNA MARKET

 In today’s data-driven world, the demand for high-speed, low-latency connectivity is ever-increasing. This demand is fueling the rapid growth of the global mmWave antenna market, a market poised to reach a value of USD XX billion by 2032.

mmWave antennas, also known as millimeter-wave antennas, operate at frequencies ranging from 30 GHz to 300 GHz, offering significantly higher bandwidths compared to traditional antennas. This enhanced bandwidth translates into faster data transmission rates, enabling a plethora of new applications and services.

 The spectrum band having wavelengths between 10 millimeters (30 GHz) and 1 millimeter is referred to as millimeter wave (MM wave), also known as millimeter band (300 GHz). The International Telecommunication Union also refers to it as the extremely high frequency (EHF) band (ITU).

Due to its short wavelength, mmWave devices allow for the compact physical packaging of huge antenna arrays. At mmWave frequencies as opposed to microwave frequencies, it is possible to pack more antenna elements per unit space, resulting in a narrower beam.

Looking ahead, the global mmWave antenna market is projected to continue its upward trajectory, fueled by the advancements in antenna technology, the expansion of 5G networks, and the emergence of new applications. The development of metamaterials and integrated beamforming solutions is expected to further enhance the performance and efficiency of mmWave antennas.

mmWave ANTENNA  MARKET SIZE AND FORECAST

The global mmWave antenna market is expected to reach a value of USD XX billion by 2030, growing at a CAGR of 15.05% from 2023 to 2030.

RECENT TECHNOLOGICAL TRENDS IN mmWAVE ANTENNA MARKET

• Miniaturization: Researchers are continuously developing new materials and fabrication processes to miniaturize mmWave antennas, making them more suitable for integration into compact devices like smartphones, tablets, and wearable electronics.
• Advanced Beamforming Technologies: Beamforming is a crucial technology in mmWave antennas, enabling them to focus their signals in specific directions, enhancing signal strength, and reducing interference. Recent advancements in beamforming algorithms and techniques are improving the performance and efficiency of mmWave antennas.
• Integrated RF Front-End Solutions: The integration of RF front-end components, such as filters, power amplifiers, and beamforming circuitry, into mmWave antenna modules is simplifying antenna design and reducing power consumption.
• Metamaterials and Metasurfaces: Metamaterials and metasurfaces are engineered materials with unique electromagnetic properties that can be used to manipulate mmWave signals. Researchers are exploring the potential of these materials to develop mmWave antennas with enhanced directivity, beamforming capabilities, and reduced losses.
• Intelligent Antennas:  The development of intelligent antennas that can adapt their beamforming patterns in real-time to track moving objects and maintain strong signal connections is gaining traction in automotive applications.
• Frequency Agile Antennas: Frequency agile antennas that can operate across multiple frequency bands are being explored to address the challenges of spectrum allocation and interference in densely populated areas.
• Reconfigurable Antennas: Reconfigurable antennas can change their radiation patterns dynamically, enabling them to adapt to different communication scenarios and optimize performance for specific applications.
• Phased Array Antennas: Phased array antennas are becoming increasingly sophisticated, with advancements in digital beamforming techniques and integrated circuit design leading to smaller, more efficient, and higher-performance phased array modules.
• mmWave Antennas for Non-Communication Applications:  Researchers are investigating the potential of mmWave antennas for non-communication applications, such as medical imaging, security screening, and radar systems.

RECENT LAUNCH

Huawei, a leading global provider of telecommunications equipment, is at the forefront of innovation in the global mmWave antenna market. The company has made significant strides in developing cutting-edge mmWave antenna solutions for various applications, including 5G networks, fixed wireless access (FWA), and automotive radar.

Huawei has recently launched several innovative mmWave antenna products, including:

• mmWave Active Antenna Unit (AAU): This AAU is designed for 5G networks and features integrated RF front-end components, advanced beamforming capabilities, and support for multiple frequency bands.
• mmWave FWA Antenna:  This antenna provides high-speed internet connectivity to homes and businesses in areas where traditional wired connections are not feasible or cost-effective.
• mmWave Automotive Radar Antenna: This antenna is designed for advanced driver-assistance systems (ADAS) and autonomous vehicles, providing high-resolution radar imaging for object detection and collision avoidance. These recent launches demonstrate Huawei’s commitment to innovation in the mmWave antenna market. The company’s focus on developing high-performance, cost-effective, and energy-efficient mmWave antenna solutions is positioning it as a key player in the global market.

Future Ou tlook: Huawei has a strong track record of innovation in the telecommunications industry, and its mmWave antenna portfolio is well-positioned for continued growth in the coming years. The company is expected to continue investing in research and development to further enhance the performance and efficiency of its mmWave antenna solutions. Additionally, Huawei’s strong global presence and extensive partnerships with telecom operators and device manufacturers will provide a distribution channel for its mmWave antenna products, further expanding its market reach.

Here are some specific areas where Huawei is expected to focus its future development efforts:

• Miniaturization of mmWave antennas: Huawei is committed to developing smaller, lighter, and more compact mmWave antennas for integration into smaller devices, such as smartphones and wearables.
• Advanced beamforming technologies: Huawei is continuously improving its beamforming algorithms and techniques to enhance the performance of mmWave antennas, enabling them to provide stronger signal coverage and reduced interference.
• Integration of mmWave antennas with other technologies: Huawei is exploring the integration of mmWave antennas with other technologies, such as Artificial Intelligence (AI) and machine learning, to develop intelligent antennas that can adapt to real-time network conditions and optimize performance.
• mmWave antennas for new applications: Huawei is investigating the potential of mmWave antennas for new applications beyond traditional communication, such as medical imaging, security screening, and sensing technologies.

NEW PRODUCT LAUNCH

The Qualcomm QTM527 mmWave antenna module is the first fully-integrated high-power mmWave antenna module to be announced in the world. It is designed for 5G fixed wireless access customer premise equipment (CPE).

The QTM527 provides a complete modem-to-antenna solution for adaptable, economical, high performance 5G mmWave customer-premises equipment (CPE) designs when paired with the new Qualcomm Snapdragon X55 5G modem. With the help of the QTM527, OEMs can easily create and distribute cost-effective portable CPEs at scale, which operators can link with their current 5G infrastructure for speedy fiber-based broadband installations.

The 5G mmWave beamforming antenna was introduced by Airgain, Inc., a leading developer of sophisticated antenna technology utilized to allow high performance wireless networking across a wide range of devices and sectors, including consumer, enterprise, and automotive. The beamforming antenna is scalable for rays in up to 64 components and supports 5G FR2 bands from 24 GHz to 40 GHz.” The 5G baseband chipset market is anticipated to launch.

It can support OEMs in their quick integration of 5G NR enabled devices thanks to the release of mmWave beamforming antenna. Beamforming is essential for boosting spectral efficiency and meeting the high bandwidth requirements of 5G NR systems due to the millimeter wavelengths’ (mmWaves’) significant propagation loss.

mmWAVE ANTENNA MARKET NEW TRENDS

• Qorvo: Qorvo, a leading provider of RF front-end components and solutions, is focused on developing integrated mmWave antenna modules that combine mmWave antennas with RF front-end components such as filters, power amplifiers, and beamforming circuitry. This integration simplifies antenna design, reduces power consumption, and improves overall system performance.
• Broadcom: Broadcom, another prominent player in the RF front-end market, is investing in the development of high-performance mmWave beamforming solutions that enable mmWave antennas to focus their signals in specific directions with greater precision, enhancing signal strength and reducing interference. This technology is crucial for enabling high-speed data transmission and low-latency communication in mmWave applications.
• Skyworks Solutions: Skyworks Solutions, a leading provider of RF filters and amplifiers, is leveraging its expertise in filter technology to develop ultra-high-frequency filters specifically designed for mmWave applications. These filters play a critical role in removing unwanted noise and interference, ensuring the integrity and quality of mmWave signals.
• Anovo Group: Anovo Group, a specialized manufacturer of complex RF components, is focused on producing high-quality mmWave antenna modules that meet the stringent requirements of automotive and medical imaging applications. The company’s expertise in manufacturing complex RF components enables it to produce mmWave antennas with precise dimensions and consistent performance.
• MACOM Technology Solutions: MACOM Technology Solutions, a provider of high-frequency semiconductor technologies, is developing integrated mmWave antenna modules that utilize its proprietary gallium nitride (GaN) semiconductor technology. GaN offers superior performance compared to traditional silicon-based semiconductors, enabling more efficient and power-dense mmWave antenna solutions

mmWAVE ANTENNA MARKET DEVELOPMENTS AND INNOVATIONS

mmWAVE ANTENNA MARKET DYNAMICS

mmWAVE ANTENNA MARKET SEGMENTATION

By Frequency bands

• 24-28 GHz (dominant)
• 30-33 GHz
• 37-42 GHz
• 60-66 GHz

By Antenna types

• Phased array antenna modules (largest segment)
• Patch antennas
• Cavity-backed antennas
• Dielectric resonator antennas

By Applications 

• Mobile terminals (largest segment)
• Fixed wireless access (FWA)
• Automotive radar
• Medical imaging

By Region

• North America
• Europe
• China
• Asia Ex China
• ROW

COMPETITIVE LANDSCAPE IN mmWAVE ANTENNA MARKET

THIS REPORT WILL ANSWER FOLLOWING QUESTIONS

1. How many mmWave Antenna are manufactured per annum globally? Who are the sub-component suppliers in different regions?
2. Cost breakup of a Global mmWave Antenna and key vendor selection criteria
3. Where is the mmWave Antenna manufactured? What is the average margin per unit?
4. Market share of Global mmWave Antenna market manufacturers and their upcoming products
5. Cost advantage for OEMs who manufacture Global mmWave Antenna in-house
6. key predictions for next 5 years in Global mmWave Antenna market
7. Average B-2-B mmWave Antenna market price in all segments
8. Latest trends in mmWave Antenna market, by every market segment
9. The market size (both volume and value) of the mmWave Antenna market in 2024-2030 and every year in between?
10. Production breakup of mmWave Antenna market, by suppliers and their OEM relationship
11. What are the key challenges in designing and fabricating mmWave antennas?
12. How are researchers addressing the challenges of signal attenuation and propagation at mmWave frequencies?
13. What are the different beamforming techniques used in mmWave antennas, and what are their advantages and disadvantages?
14. How can metamaterials and metasurfaces be used to improve the performance of mmWave antennas?
15. What are the new materials and fabrication processes being developed for mmWave antennas?
16. How can mmWave antennas be used to enable new applications such as 3D imaging and virtual reality?
17. What are the future trends in mmWave antenna technology?
18. What is the minimum size of an mmWave antenna that can achieve the desired performance?
19. What is the maximum power consumption of an mmWave antenna module?
20. What is the maximum range of an mmWave antenna in a typical urban environment?
21. What is the beamwidth of an mmWave antenna, and how can it be controlled?
22. What is the cost of an mmWave antenna module?