The Radar Link Market Size Was Valued At USD 1.55 Billion In 2021. The Market Is Projected To Grow From USD 1.66 Billion In 2022 To USD 2.73 Billion By 2030, Exhibiting A CAGR Of 7.39% During The Forecast Period.

Radar Link Market Overview:

The global COVID-19 pandemic has been unprecedented and shocking. Demand for radar link is lower than expected in all regions compared to what it was before the pandemic. Based on our research, the world market was down 3.91 percent in 2020 compared to 2019.

Radar is used in defence to find threats in the air, on the ground, and at sea, like missiles, ships, planes, and spacecraft. Optical fibers are being used more and more in radar systems and radar sensors because they offer benefits like less weight, better efficiency, wider bandwidth, and more. Fiber optics works by sending a pulse of light through an optic fiber to send information and data. The light pulse forms an electromagnetic carrier wave that modulates the data being sent. Fiber optic cables are good for radar links because they have a higher bandwidth and can be used to set up cloud-based solutions.

In addition, the market's activities went down during COVID-19. A rise in digitization, the popularity of the Internet of Things (IoT), and the need for more fiber optic cables will also help the market grow. Also, the growing need to improve defence capabilities leads to more people buying defence equipment, which drives the growth of the market. Emerging economies in Asia, the Pacific, and the Middle East spend more on defence because they have to keep an eye on rising terrorist activities and geopolitical tensions.

Market Dynamics:

Latest Trends:

In the traditional fiber optic method, each point-to-point link has its own optical fiber. These kinds of systems need three pieces of cable. The system is broken up into three parts, and each part has a total of eight fibers.

The hybrid RF optical approach is another way that radar systems can be made. In this system, all the RF signals go through one fiber, and all the RF signals go through the other fiber in the opposite direction. For this method to work, you also need RF power combiners and RF demultiplexers, in addition to fiber-optic transmitters and receivers.

Today, wavelength-division multiplexing (WDM) technology is used to send more than one wavelength through a single optical fiber, which has replaced many of the key OEMs in the optical fiber market. With WDM, you can use a single optical fiber to send two or more optical channels at different wavelengths at the same time.

This new technology could also replace multi-fiber cables by sending multiple RF signals on different wavelengths, including short-range signals, on a single fiber optic. This would make radar systems lighter and smaller.

Driving Factors:

There are more terrorist attacks happening all over the world, which is putting pressure on countries to increase their defence budgets and buy more advanced communication technologies. As cross-border problems and geopolitical conflicts grew around the world, it became important to improve the capabilities of military application systems.

China and India, two of the world's fastest-growing economies, are spending more on defence to update the old radar communication system. These countries spend more on buying optical fibers because they have many benefits, such as saving weight and space, high sensitivity, low cost, high data rate, and better security.

The U.S. Navy gave Raytheon Company a USD 250 Billion contract in December 2019 to build more shipsets of Spy-6 Radars for DDG-51 Flight III destroyers.

A growing need to improve the safety and security of military personnel and the development of automated radar control, navigation systems, and fire control systems are also driving the growth of the radar link market. So, the growth of the radar link market is driven by the use of fiber optics in radar systems, which gives them a wider range, faster speed, and more reliability.

Market growth may be helped by a rise in the IT and telecom sectors in economies that are growing.

Optical Fiber Cables are being used more and more (OFC). Since the bandwidth of fiber optics has grown, optic cables have become the most popular way to send information.

Also, because the amount of data traffic from places like the internet, e-commerce, computer networks, and multimedia (voice, data, and video) has grown so much, a way to send such large amounts of information that could handle higher bandwidths was needed. With its almost unlimited bandwidth, fiber optic cable has proven to be the answer.

Also, in optoelectronic devices, the cable is the main measuring and processing element for sensing. When these kinds of systems are put in place, they will be able to pick up acoustic frequency-stretching signals in harsh environments and over long distances. This makes them perfect for keeping an eye on fiber-optic cable systems in the ocean.

Restraining Factors:

When putting together optical fibers and testing and evaluating them, as well as when splicing them together with optical fusion, you need to use professionals who are trained and skilled in their work. Also, fiber optics are hard to join together, and light can get lost in fiber optic cables because light scatters inside the fiber. Fiber optic cables don't have many bends in them and are hard to cut.

Also, fiber optic cables are small and close together, making them easy to cut or damage when installing or building. Fiber optic cables can provide tremendous data transmission capabilities. So, when choosing fiber optic cable as the medium for transmission, you should think about recovery, backup, and the ability to survive. Also, fiber optics are expensive to set up because a professional has to do it. They are not as strong as copper wire or other kinds of cables. During installation, special equipment is used to test the fibers, which adds to the overall cost of installation. The amount that the fiber optic cable can bend. This is the amount a cable can be bent before it gets damaged, loses signal strength, or slows down bandwidth performance. When a fiber optic cable is bent too much, optical signals can bend inside the cable and leak out through the fiber jacket. Bending can also cause tiny cracks in the fiber that can't be fixed. Because of this, it is hard to put in and keep up fiber optics in radar systems.

Segmentation Analysis:

By Link Type:

Based on the type of link, the market is split into electronic link and optical link. The electronic link segment is expected to be the largest segment because the demand for radar systems is growing in end-use industries like aerospace, marine, and land, and the demand for radar components is also growing.

In November 2021, the U.S. Department of Homeland Security's Customs and Border Protection Innovation Team signed a USD 20 Billion contract with Echodyne to use the company's Compact His radar system at the ports and borders of the country.

The segment of radar link that is expected to grow the fastest is the optical link segment. Segmental growth is likely to be driven by the growing use of advanced optical interconnects in surveillance and weather radar systems used in aviation. Optical links are growing the market because they are faster, safer, and more accurate.

By Component:

Based on the type of component, the market is split into antenna, diplexer, transmitter, phase lock loop, receiver, processor, and others. It is thought that the antenna segment is the largest part of radar link, since more and more radar systems are being used for commercial and military purposes. Radar antennas send out radio waves and listen for echoes of those waves. Antennas can find out exactly where something is placed. The segment is growing because there is a growing need for radar antennas in aviation and marine applications.

ThinKom Solutions, a company that makes radar antennas, signed a deal with the U.S. Defense Innovation Unit in August 2020. (DIU). An array antenna system is the next-generation way for U.S. Navy ships to talk to each other.

During the forecast period, the segment of receivers is expected to grow a lot. This segment is growing because the military needs more next-generation radar receivers that can give them information in real time.

Raytheon Intelligence & Space, a division of Raytheon Technologies, was given a USD 30 million contract in March 2022 to provide upgrades and replacement parts for U.S. Air Force F-16 fighter jets with AN/ALR-69A. (V).

By Application:

Based on how they are used, the market is split into four groups: airborne, naval, space, and land. During the time frame of the forecast, it is expected that the naval segment will be the largest segment. The growth of the segment is because more and more naval ships are getting big radar systems. Marine radars are used to keep ships from colliding, find their way, and stay in one place at sea.

Raytheon Missiles & Defense and the U.S. Navy signed a contract in May 2022 for USD 423 Billion to make AN/SPY-6(V) air and missile defence radars for the U.S. Navy. These radar systems will be put on seven different kinds of U.S. Navy ships, such as aircraft carriers, amphibious ships, and destroyers from the Arleigh Burke-class Flight III.

During the forecast period, the airborne segment will grow a lot. This is because the aviation industry is growing quickly, more money is being spent on new planes and airports, and more people want advanced weather and airborne surveillance radars.

Regional Insights:

During the time frame of the projection, North America is expected to have the largest market share for radar links. The radar link share in North America has led to more money being spent on buying advanced radar systems for military uses, and the fact that there are a lot of hardware and software developers in the area is a big part of why the market size and forecast is growing. Companies like Lockheed Martin Corporation, General Dynamics Corporation, and Raytheon Technologies Corporation, which are all big manufacturers in North America, are likely to make the region even more dominant on the world market.

During the time frame of the projections, Asia-Pacific is expected to grow the fastest. The market is driven by the fact that China, India, South Korea, and other countries are spending more on defence. The market is growing because the aviation industry is growing quickly, spending on defence is going up, and more and more planes and ships need radar systems.

According to our analysis of the market, Europe is expected to grow a lot over the next few years. The growth is because of programmes to improve the military and more purchases of high-tech radar systems from the U.K., France, Russia, and other countries. Europe's radar link market is growing because companies like Radiall, TE Connectivity, and others are in it.

During the forecast period, the rest of the world will also experience significant growth. This rise is because countries in the Middle East, like Saudi Arabia, the UAE, and Turkey, are spending more money on defence. This could help the market grow.

Scope Analysis

Recent Development:

• April 2021 - Amphenol Corporation, a provider of advanced technology, interconnect, antenna and sensor solutions, announced that it has completed the acquisition of MTS Systems Corporation (MTS).
• June 2022 - Carlisle Interconnect Technologies has launched two new high voltage composite wire families for aerospace applications: the High Voltage composite wire family and the highly flexible high voltage shielded composite wire family. This composite wire offers a lighter weight and smaller diameter compared to similar types of wire for applications up to 260 degrees Celsius.
• April 2022 - Corning Inc. acquires Saint-Gobain's shielding and optics division. The acquisition includes the Saint-Gobain Sovis radiation shielding and optics business in Jouar, France, and Hot Cell Services in Kent, Washington, USA. With this acquisition, Corning Inc. plans to expand its current radiation shielding business. This expansion will enable the company to manufacture and supply products for nuclear and medical shielding applications and optical components.
• June 2022 - Elbit Systems launches DAiR, a simultaneous multi-mission tactical radar. DAiR is an X-band software-defined radar system that integrates hundreds of digital receivers, sophisticated algorithms and computing cores with artificial intelligence capabilities.
• March 2020 - Carlisle Companies Inc., a family of aerospace grade fiber optic cables, introduces a new product, the LITEflight EP series. However, they offer lower losses, narrower bend radii, better thermal stability, and better handling during termination and installation.

Market Segmentation

By Link Type:

• Electronic Link
• Optical Link
• Others

By Component:

• Antenna
• Diplexer
• Transmitter
• Phase Lock Loop
• Receiver
• Processor
• Others

By Application:

• Airborne
• Naval
• Space
• Land
• Others

By Companies:

• AFL (U.S.)
• Amphenol Corporation (U.S.)
• Carlisle Companies Inc. (U.S.)
• Elbit Systems (Israel)
• II-VI Incorporated (U.S.)
• Ofs Fitel, LLC (U.S.)
• Optical Cable Corporation (U.S.)
• Radiall (France)
• TE Connectivity (Switzerland)
• Others