Global Phased Array Antenna Market Research Report 2023-Competitive Analysis, Status and Outlook by Type, Downstream Industry, and Geography, Forecast to 2029
A single antenna can radiate a certain amount of power in a particular direction. Obviously, when one uses a set of antennas, the radiated power increases. Groups of antennas are called antenna arrays. Antennas radiate individually, while in an array, the radiation of all elements is summed to form a radiation beam with high gain, high directivity, and better performance with minimal loss. An antenna array is called a Phased Array Antenna if the shape and direction of the radiation pattern depends on the relative phase and magnitude of the currents present on each antenna of the array.
Market Overview:The latest research study on the global Phased Array Antenna market finds that the global Phased Array Antenna market reached a value of USD 3338.09 million in 2022. It’s expected that the market will achieve USD 9954.08 million by 2028, exhibiting a CAGR of 19.97% during the forecast period.
The tense geopolitical situation will be one of the factors affecting the development of the phased array antenna market. The most likely conflicts in 2023 include Chinese aggression against Taiwan; escalating conflict in Ukraine; growing civil unrest in Russia; security crisis over North Korea's development and testing of nuclear weapons and long-range ballistic missiles; military tensions between Israel and Iran over Iran's nuclear program Confrontation; Migration to the U.S. from Central America and Mexico has surged amid an increase in violence and severe weather events. These incidents raised people's security concerns, accelerated tensions in the world, and triggered a global defense spending boom. The United States, Japan, Australia, and other countries have increased their defense spending in 2023. Meanwhile, some NATO countries are pushing for greater defense commitments in response to the conflict in Ukraine, saying the 2% of GDP benchmark should be the bare minimum. Increased global military spending will lead to technological upgrading and market development in military-related industries.
Compared with the low-frequency band, the millimeter-wave frequency band has abundant spectrum resources and has a huge advantage in carrier bandwidth, which can realize large-bandwidth transmission of 400MHz and 800MHz. Through the co-construction and sharing between different operators, it can also support a super-large bandwidth of more than 800M and realize ultra-high-speed data transmission. The millimeter-wave wavelength is short and the size of the components is small, which is convenient for the integration and miniaturization of the equipment.
The frequency band of the existing Sub-6G communication system is limited. In the future, with the development of high-capacity, high-speed, and low-latency services, the communication frequency band will inevitably extend to the millimeter wave direction. Large-scale phased array is the core key technology to solve the limitation of millimeter wave wireless propagation distance. Phased array technology is not a new technology. It appeared as early as 1984 and is mainly used in the field of radar. In recent years, it has begun to emerge in the field of communication. The need for the development of millimeter-wave technology has promoted the iteration of phased array technology and promoted the development of this industry.
The trend of products in military, 5G and other applications.
Military informatization is the inevitable trend of modern information warfare. Informatization and intelligence have brought about changes in modern warfare. Active phased array radar has become the mainstream development direction of modern radar due to its superior performance and high anti-interference ability. The rise of stealth technology has brought new challenges to radars. It is difficult for traditional radars to detect stealth targets. New radars put forward higher requirements for technical means or measures in the frequency domain and air domain and then realize the detection of stealth targets.
Wireless communication and radar systems are increasingly demanding antenna architectures to improve performance. Only antennas that consume less power and have a smaller form factor than traditional mechanically steered dishes enable many new applications. In addition to these requirements, there is also the desire to quickly retarget new threats or users, transmit multiple data streams, and operate over longer lifetimes with aggressive cost targets.
Product trends in satellite applications.
The difficulty in the application of products on satellites lies in the outdoor deployment that is prone to interference. The antenna system used in satellite communication has certain particularities, which are caused by the nature of satellite signals. Attenuation and distortion are the main factors affecting the quality of satellite signals. The reasons are clouds, fog, rainfall, atmospheric turbulence, and ionospheric effects. Tropospheric ionization is the most important factor. It is caused by the interaction between solar radiation and atmospheric molecules, so during the daytime It is more frequent when the solar activity is high. Therefore, antenna systems for satellite communications must effectively reduce these effects to improve signal quality.
Region Overview:North America had the highest growth rate of all regions.
Company Overview:Raytheon Technologies Corporation is one of the major players operating in the Phased Array Antenna market, holding a share of 16.01% in 2023.
Raytheon Technologies Corporation, an aerospace and defense company, provides systems and services for the commercial, military, and government customers worldwide. It operates through four segments: Collins Aerospace, Pratt & Whitney, Raytheon Intelligence & Space, and Raytheon Missiles & Defense.
Northrop Grumman is a manufacturer of aerospace and defense products. The company's product portfolio includes unmanned systems, aircraft, autonomous systems, cybersecurity, command, control, communications, computers, intelligence, surveillance and reconnaissance (C4ISR), logistics, and modernization services. Northrop Grumman's solutions are used in aerospace, defense, electronics, and information systems. It manufactures acoustic sensors for aircraft carriers and submarines, spacecraft systems, mission-critical computer systems, and wireless communications infrastructure. The company provides products and services to foreign, state, and local governments and commercial customers in North America, Europe, and the Asia-Pacific region.
Segmentation Overview:Among different product types, Active Phased Array Antenna segment is anticipated to contribute the largest market share in 2028.
Application Overview:By application, the Military segment occupied the biggest share from 2018 to 2022.
Key Companies in the global Phased Array Antenna market covered in Chapter 3:Kymeta
Northrop Grumman Corp
KEYCOM CORP
Ball Aerospace
Anokiwave
Raytheon Technologies Corporation
Chengdu Ruidiwei
Lockheed Martin
Boeing
Micro-Ant
Chengdu T-ray
In Chapter 4 and Chapter 14.2, on the basis of types, the Phased Array Antenna market from 2018 to 2029 is primarily split into:Active Phased Array Antenna
Passive Phased Array Antenna
In Chapter 5 and Chapter 14.3, on the basis of Downstream Industry, the Phased Array Antenna market from 2018 to 2029 covers:Military
Communications
Others
Geographically, the detailed analysis of consumption, revenue, market share and growth rate, historic and forecast (2018-2029) of the following regions are covered in Chapter 8 to Chapter 14:North America (United States, Canada)
Europe (Germany, UK, France, Italy, Spain, Russia, Netherlands, Turkey, Switzerland, Sweden)
Asia Pacific (China, Japan, South Korea, Australia, India, Indonesia, Philippines, Malaysia)
Latin America (Brazil, Mexico, Argentina)
Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa)