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商品編碼

1845686

毫米波技術市場：2024-2031：按組件、頻段、產品類型、授權類型、最終用戶和地區分類

Millimeter Wave Technology Market By Component, Frequency Band, Product, License Type, End-User, & Region for 2024-2031

出版日期: 2025年09月10日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

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簡介目錄

毫米波技術市場評估 - 2024-2031

隨著5G網路的興起，毫米波技術對於實現更快的通訊速度和更寬的頻寬變得至關重要，這對於支援自動駕駛汽車、智慧城市和先進醫學成像等新興應用日益成長的數據需求至關重要，預計到2024年將超過26億美元，到2031年將達到148億美元。

此外，毫米波組件的進步以及該技術日益融入消費性電子產品、國防系統和衛星通訊，也促進了市場擴張。隨著各行各業持續優先考慮更快、更可靠的通訊技術，毫米波技術有望在塑造未來連接方面發揮關鍵作用。這些因素推動毫米波技術在各行各業的應用日益廣泛，預計2024年至2031年期間的複合年成長率將達到9.5%。

毫米波技術市場定義/概述

毫米波技術使用頻率在 30 GHz 至 300 GHz 之間、波長在 1 毫米至 10 毫米之間的電磁波。該技術的頻寬寬和短波長可實現極高的傳輸速率和高解析度成像。透過提供必要的高速資料傳輸和降低延遲，毫米波在各種應用中發揮至關重要的作用，包括有助於部署 5G 網路的先進通訊。毫米波技術也用於衛星通訊、雷達系統和醫學影像處理，提供精確的高解析度資訊。

毫米波技術前景光明，預計其持續發展將增強其功能和應用。 5G 網路的持續擴張可能會推動毫米波技術的進一步普及，因為它對於實現下一代行動連線所需的超高速和低延遲至關重要。

高速資料傳輸的增加會推動毫米波技術市場嗎？

高速資料傳輸的興起推動了毫米波技術市場的發展。毫米波技術工作在 30GHz 至 300GHz頻寬，對於實現現代應用所需的高速資料傳輸至關重要。尤其是 5G 網路的推出，使得毫米波技術對於滿足日益成長的更快網速和可靠連接的需求至關重要。與傳統的微波和射頻技術相比，毫米波技術提供更高的頻寬和更快的數據傳輸速率。它能夠以最小的延遲處理大量數據，這使其成為下一代無線通訊、自動駕駛汽車、智慧城市和先進醫學影像處理的關鍵推動者。

近期政府數據凸顯了毫米波技術日益成長的重要性。根據美國聯邦通訊委員會(FCC) 2024 年的報告，美國5G 服務的擴展需要分配額外的毫米波頻譜。該報告強調，毫米波頻譜中的 28 GHz 和 39 GHz 頻段對於建立高速、高容量的 5G 網路至關重要。此外，電訊(ITU) 預測，毫米波技術對於 5G 部署至關重要，並估計到 2025 年毫米波設備市場規模將達到約 350 億美元。這些統計數據反映了毫米波技術在滿足日益成長的高速數據傳輸需求方面發揮的關鍵作用，並凸顯了其作為市場成長驅動力的影響力。

技術複雜性會阻礙毫米波技術市場的成長嗎？

技術複雜性可能會影響毫米波技術市場的成長。毫米波技術的先進性要求高精度組件和複雜的訊號產生、傳輸和處理系統。這包括專用天線、高頻訊號處理器和複雜的校準技術。將這些組件整合到現有基礎設施中面臨巨大的技術挑戰，需要專業知識和大量投資。對於許多公司，尤其是新興市場和中小型企業而言，開發和維護此類技術的高成本和複雜性可能是一個重大障礙。

根據美國國家標準與技術研究院 (NIST) 2024 年的一份報告，毫米波技術的開發需要克服複雜的技術要求，這可能會導致部署延遲和成本增加。報告指出，毫米波的高頻會導致更大的訊號衰減，需要先進的材料和技術來克服這些限制。此外，美國聯邦通訊委員會(FCC) 在其最新的 5G頻譜報告中指出，解決技術複雜性對於有效利用頻譜和確保在不同環境下的可靠性能至關重要。這些統計數據凸顯了技術挑戰對市場成長的影響，並強調需要持續研究和創新以有效解決這些問題。

The increasing demand for high-speed data transmission and expanding adoption in various industries. With the rise of 5G networks, millimeter wave technology is becoming essential for enabling faster communication speeds and higher bandwidth, which are crucial for supporting the growing data needs of modern applications such as autonomous vehicles, smart cities, and advanced medical imaging is surpassing USD 2.6 Billion in 2024 and reaching USD 14.8 Billion by 2031.

Moreover, advancements in millimeter wave components and the increasing integration of this technology into consumer electronics, defense systems, and satellite communications are contributing to the market's expansion. As industries continue to prioritize faster, more reliable communication technologies, millimeter wave technology is poised to play a pivotal role in shaping the future of connectivity. These factors contribute to the increasing use of Millimeter Wave Technology in a variety of industries is expected to grow at a CAGR of 9.5% from 2024 to 2031.

Millimeter Wave Technology Market: Definition/ Overview

Millimeter wave technology refers to the use of electromagnetic waves with frequencies between 30 GHz and 300 GHz, corresponding to wavelengths between 1 millimeter and 10 millimeters. This technology enables extremely high data transfer rates and high-resolution imaging due to its broad bandwidth and short wavelength. It is pivotal in various applications, including advanced telecommunications, where it facilitates the deployment of 5G networks by providing the necessary high-speed data transmission and reduced latency. Millimeter wave technology is also used in satellite communications, radar systems, and medical imaging to deliver precise and high-resolution information.

The future of millimeter wave technology is promising, with ongoing advancements expected to enhance its capabilities and applications. The continued expansion of 5G networks will drive further adoption of millimeter wave technology, as it is essential for achieving the ultra-fast speeds and low latency required for next-generation mobile connectivity.

Will Increasing High-Speed Data Transmission is Propelling the Millimeter Wave Technology Market?

The increasing high-speed data transmission is significantly propelling the millimeter wave technology market. Millimeter wave technology, which operates in the frequency range of 30 GHz to 300 GHz, is pivotal in achieving the high-speed data transmission required for modern applications. As the demand for faster internet speeds and more reliable connectivity grows, especially with the rollout of 5G networks, millimeter wave technology has become essential. It offers higher bandwidth and faster data rates compared to traditional microwave and radio frequency technologies. The ability to handle large amounts of data with minimal latency makes it a key enabler of next-generation wireless communications, autonomous vehicles, smart cities, and advanced medical imaging technologies.

Recent government data underscores the growing significance of millimeter wave technology. According to a report by the Federal Communications Commission (FCC) in 2024, the allocation of additional spectrum in the millimeter wave bands has been critical for the expansion of 5G services in the United States. The report highlights that the 28 GHz and 39 GHz frequency bands, which fall within the millimeter wave spectrum, are crucial for providing high-speed, high-capacity 5G networks. Furthermore, the International Telecommunication Union (ITU) has projected that millimeter wave technologies will be integral to the 5G rollout, with estimates suggesting that the market for millimeter wave equipment will reach approximately USD 35 billion by 2025. These statistics reflect the technology's vital role in meeting the escalating demand for high-speed data transmission and underscore its impact on driving market growth.

Will Technical Complexity Hamper the Growth of the Millimeter Wave Technology Market?

Technical complexity is likely to impact the growth of the millimeter wave technology market. The advanced nature of millimeter wave technology demands high-precision components and sophisticated systems for signal generation, transmission, and processing. This includes the need for specialized antennas, high-frequency signal processors, and intricate calibration techniques. The integration of these components into existing infrastructure poses significant technical challenges, as it requires expertise and considerable investment. For many companies, particularly those in emerging markets or smaller enterprises, the high cost and complexity of developing and maintaining these technologies can be a substantial barrier.

According to a 2024 report by the National Institute of Standards and Technology (NIST), the development of millimeter wave technology involves navigating complex technical requirements, which can delay deployment and increase costs. The report notes that the high frequency of millimeter waves leads to increased signal attenuation and demands advanced materials and technologies to overcome these limitations. Additionally, the Federal Communications Commission (FCC) has indicated in its latest 5G Spectrum Report that addressing technical complexities is crucial for effective spectrum utilization and ensuring reliable performance across diverse environments. These statistics underscore the impact of technical challenges on the market's growth and highlight the need for ongoing research and innovation to address these issues effectively.

Category-Wise Acumens

Will Rising Demand for Technology Boost the Millimeter Wave Technology Market?

The rising demand for technology is expected to significantly boost the millimeter wave technology market. As industries increasingly adopt advanced technologies such as 5G networks, autonomous vehicles, and smart city infrastructure, the need for high-speed, high-capacity communication solutions becomes more critical. Millimeter wave technology, with its ability to deliver extremely high data rates and low latency, is well-suited to meet these demands. For instance, the expansion of 5G networks, which rely heavily on millimeter wave frequencies to achieve ultra-fast speeds and accommodate large volumes of data, is a key driver of market growth.

The technology's application in sectors like telecommunications, aerospace, and defense is also contributing to its widespread adoption and market expansion. According to the Federal Communications Commission (FCC) 2024 report, the U.S. has allocated additional spectrum in the millimeter wave bands to support the expansion of 5G services, reflecting the increasing reliance on this technology for next-generation communications. Additionally, the International Telecommunication Union (ITU) has projected that the market for millimeter wave technology could exceed USD 35 billion by 2025, driven by the escalating need for high-speed data transmission and technological advancements. This data underscores how rising technological demands are propelling the growth of the millimeter wave technology market and shaping its future trajectory

The frequency sources & related components are the fastest-growing segment. The rapid expansion in millimeter wave applications, particularly in 5G technology and high-speed data transmission systems, is increasing the demand for advanced frequency sources and related components. These components are essential for generating and managing the high-frequency signals required for effective millimeter wave communication, and their growth is fueled by the technological advancements and innovations in the industry.

Will Extensive Use of Radar Systems Fuel the Millimeter Wave Technology Market?

The extensive use of radar systems is expected to significantly fuel the millimeter wave technology market. Radar systems, which rely on millimeter wave technology for their high-resolution imaging and precision, are crucial in various applications, including defense, aviation, automotive, and weather forecasting. Millimeter waves, with their short wavelength, provide the ability to detect and track objects with great accuracy, making them ideal for sophisticated radar systems. The increasing deployment of advanced radar systems in autonomous vehicles for collision avoidance, in defense for surveillance and tracking, and in aviation for air traffic control is driving the demand for millimeter wave technology.

According to the U.S. Department of Defense's 2024 report, investments in radar technologies are a priority due to their critical role in national security and defense operations. Additionally, the Federal Aviation Administration (FAA) has highlighted the integration of millimeter wave radar systems into air traffic management systems to enhance safety and efficiency. These developments reflect the expanding use of radar systems and their role in driving the growth of the millimeter wave technology market, as they necessitate the deployment of high-frequency components and advanced technologies.

Satellite Communication Systems are the fastest-growing segment. The rapid growth in satellite communications, driven by the need for high-speed internet connectivity and communication coverage, is fueling the expansion of this segment. Innovations in satellite technology and increasing investments in satellite infrastructure contribute to the growing adoption of millimeter wave technology for high-capacity, reliable satellite communications.

Country/Region-wise

Will Advanced Telecommunication Infrastructure in North America Drive the Expansion of The Millimeter Wave Technology Market?

Advanced telecommunication infrastructure in North America is likely to drive the expansion of the millimeter wave technology market. North America, particularly the United States, is at the forefront of deploying cutting-edge telecommunications infrastructure, including the implementation of 5G networks. Millimeter wave technology is essential for 5G networks due to its ability to support high-speed data transmission and low latency. The integration of millimeter wave technology into these networks enables faster, more reliable communication, which is critical for meeting the growing demands of data-intensive applications and services.

Furthermore, the National Telecommunications and Information Administration (NTIA) has forecasted that investments in millimeter wave infrastructure will continue to grow, with projections indicating that the market for these technologies in North America could see an increase of approximately USD 15 billion by 2026. This data underscores the pivotal role of advanced telecommunication infrastructure in driving the expansion of millimeter wave technology.

Will Increasing Urbanization in Asia Pacific Propel the Millimeter Wave Technology Market?

Increasing urbanization in Asia Pacific is expected to propel the millimeter wave technology market significantly. As urban areas in Asia Pacific expand, there is a growing need for advanced infrastructure to support high-speed communication and smart city applications. Millimeter wave technology is crucial for addressing these needs due to its capability to provide high data transfer rates and low latency. The rapid development of metropolitan areas, along with the rising demand for connected services such as smart grids, intelligent transportation systems, and high-speed internet, drives the adoption of millimeter wave solutions. This technology enables the efficient deployment of 5G networks, which are essential for managing the high density of users and devices in urban environments.

According to the 2024 report by the International Telecommunication Union (ITU), countries like China and India are investing heavily in 5G infrastructure to support their rapidly growing urban populations. The report notes that urban areas in Asia Pacific are expected to see a deployment of millimeter wave technology as part of their smart city initiatives, with an estimated market growth of approximately USD 10 billion in the region by 2025. Additionally, the Asia-Pacific Economic Cooperation (APEC) has highlighted that urbanization is a key driver for technological advancements, including the adoption of millimeter wave technology, to enhance connectivity and infrastructure efficiency. These statistics underscore how increasing urbanization is fueling the growth of the millimeter wave technology market in Asia Pacific.

Competitive Landscape

The competitive landscape of the millimeter wave technology market is characterized by a dynamic interplay of various factors beyond the key players. The market features a broad array of companies specializing in different aspects of millimeter wave technology, including equipment manufacturers, system integrators, and component suppliers. Companies in this space are engaged in continuous innovation to enhance the performance and efficiency of millimeter wave systems. They focus on developing advanced solutions for high-speed data transmission, radar systems, and satellite communications, which are essential for meeting the growing demands of industries such as telecommunications, aerospace, and defense.

Some of the prominent players operating in the millimeter wave technology market include:

Qualcomm Technologies, Inc.

NEC Corporation, L3 Technologies, Inc.,

Millimeter Wave Products Inc.,

Keysight Technologies

Latest Developments

In August 2024 Intel announced a collaboration with major telecom providers to test and refine its millimeter wave technology. This partnership aims to validate performance metrics and accelerate the deployment of 5G networks, highlighting Intel's role in shaping next-generation communication infrastructure.

In July 2024 Qualcomm unveiled its latest suite of millimeter wave technology solutions designed to enhance 5G network performance. The new solutions aim to improve data transfer rates and network capacity, supporting the deployment of more advanced 5G applications. This launch reflects Qualcomm's commitment to advancing high-speed wireless communication technologies.

In July 2024 Keysight Technologies introduced new testing equipment designed specifically for millimeter wave frequencies. This equipment aims to assist manufacturers and researchers in evaluating and improving the performance of millimeter wave components and systems.

Millimeter Wave Technology Market, By Category

Component
Frequency Sources & Related Components
Communication & Networking Components
Frequency Band

24-57 GHz

57-95 GH2

Vehicle Type
Scanning Systems
Radar and Satellite Communication Systems
License Type
Light Licensed
Unlicensed
End User
Cellular & Telecom
Consumer & Commercial
Region:
North America
Europe
Asia-Pacific
Latin America
Middle East & Africa

1 INTRODUCTION OF GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET

1.1 OVERVIEW OF THE MARKET
1.2 SCOPE OF REPORT
1.3 ASSUMPTIONS

2 EXECUTIVE SUMMARY

3 RESEARCH METHODOLOGY OF VERIFIED MARKET RESEARCH

3.1 DATA MINING
3.2 VALIDATION
3.3 PRIMARY INTERVIEWS
3.4 LIST OF DATA SOURCES

4 GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET OUTLOOK

4.1 OVERVIEW
4.2 MARKET DYNAMICS
- 4.2.1 DRIVERS
- 4.2.2 RESTRAINTS
- 4.2.3 OPPORTUNITIES
4.3 PORTERS FIVE FORCE MODEL
4.4 VALUE CHAIN ANALYSIS

5 GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET, BY COMPONENT

5.1 OVERVIEW
5.2 FREQUENCY SOURCES & RELATED COMPONENTS
5.3 COMMUNICATION & NETWORKING COMPONENTS
5.4 IMAGING COMPONENTS
5.5 SENSORS & CONTROLS
5.6 OTHER COMPONENTS

6 GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET, BY PRODUCT

6.1 OVERVIEW
6.2 SCANNING SYSTEMS
6.3 RADAR AND SATELLITE COMMUNICATION SYSTEMS
6.4 TELECOMMUNICATION EQUIPMENT
6.5 OTHERS

7 GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET, BY FREQUENCY BAND

7.1 OVERVIEW
7.2 24-57 GHZ
7.3 57-95 GHZ
7.4 95-300 GHZ

8 GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET, BY LICENSE TYPE

8.1 OVERVIEW
8.2 LIGHT LICENSED FREQUENCY MILLIMETER WAVE
8.3 UNLICENSED FREQUENCY MILLIMETER WAVE
8.4 FULLY LICENSED FREQUENCY MILLIMETER WAVE

9 GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET, BY END-USER

9.1 OVERVIEW
9.2 CELLULAR & TELECOM
9.3 CONSUMER & COMMERCIAL
9.4 HEALTHCARE
9.5 INDUSTRIAL

10 GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET, BY GEOGRAPHY

10.1 OVERVIEW
10.2 NORTH AMERICA
- 10.2.1 U.S.
- 10.2.2 CANADA
- 10.2.3 MEXICO
10.3 EUROPE
- 10.3.1 GERMANY
- 10.3.2 U.K.
- 10.3.3 FRANCE
- 10.3.4 REST OF EUROPE
10.4 ASIA PACIFIC
- 10.4.1 CHINA
- 10.4.2 JAPAN
- 10.4.3 INDIA
- 10.4.4 REST OF ASIA PACIFIC
10.5 REST OF THE WORLD
- 10.5.1 LATIN AMERICA
- 10.5.2 MIDDLE EAST AND AFRICA

11 GLOBAL MILLIMETER WAVE TECHNOLOGY MARKET COMPETITIVE LANDSCAPE

11.1 OVERVIEW
11.2 COMPANY MARKET RANKING
11.3 KEY DEVELOPMENT STRATEGIES

12 COMPANY PROFILES

12.1 AXXCSS WIRELESS SOLUTIONS
- 12.1.1 OVERVIEW
- 12.1.2 FINANCIAL PERFORMANCE
- 12.1.3 PRODUCT OUTLOOK
- 12.1.4 KEY DEVELOPMENTS
12.2 NEC CORPORATION
- 12.2.1 OVERVIEW
- 12.2.2 FINANCIAL PERFORMANCE
- 12.2.3 PRODUCT OUTLOOK
- 12.2.4 KEY DEVELOPMENTS
12.3 SIKLU COMMUNICATION
- 12.3.1 OVERVIEW
- 12.3.2 FINANCIAL PERFORMANCE
- 12.3.3 PRODUCT OUTLOOK
- 12.3.4 KEY DEVELOPMENTS
12.4 L3 HARRIS
- 12.4.1 OVERVIEW
- 12.4.2 FINANCIAL PERFORMANCE
- 12.4.3 PRODUCT OUTLOOK
- 12.4.4 KEY DEVELOPMENTS
12.5 SMITHS GROUP
- 12.5.1 OVERVIEW
- 12.5.2 FINANCIAL PERFORMANCE
- 12.5.3 PRODUCT OUTLOOK
- 12.5.4 KEY DEVELOPMENTS
12.6 ERAVANT
- 12.6.1 OVERVIEW
- 12.6.2 FINANCIAL PERFORMANCE
- 12.6.3 PRODUCT OUTLOOK
- 12.6.4 KEY DEVELOPMENTS
12.7 AVIAT NETWORKS
- 12.7.1 OVERVIEW
- 12.7.2 FINANCIAL PERFORMANCE
- 12.7.3 PRODUCT OUTLOOK
- 12.7.4 KEY DEVELOPMENTS
12.8 FARRAN TECHNOLOGIES
- 12.8.1 OVERVIEW
- 12.8.2 FINANCIAL PERFORMANCE
- 12.8.3 PRODUCT OUTLOOK
- 12.8.4 KEY DEVELOPMENTS
12.9 ELVA-1
- 12.9.1 OVERVIEW
- 12.9.2 FINANCIAL PERFORMANCE
- 12.9.3 PRODUCT OUTLOOK
- 12.9.4 KEY DEVELOPMENTS
12.10 MILLIMETER WAVE PRODUCTS
- 12.10.1 OVERVIEW
- 12.10.2 FINANCIAL PERFORMANCE
- 12.10.3 PRODUCT OUTLOOK
- 12.10.4 KEY DEVELOPMENTS