The market report offers a detailed analysis segmented by Type (Gallium Nitride, Gallium Arsenide, Others); by Application (Radar, Communication, Electric Warfare, Others); by Geography (North America, South America, Asia Pacific, Europe, The Middle East, Africa).
Outlook
- The military transmit and receive module market is estimated to be at USD 6,745.31 Mn in 2025 and is anticipated to reach USD 8,773.34 Mn in 2030.
- The military transmit and receive module market is registering a CAGR of 5.4% during the forecast period 2025-2030.
- The military transmit and receive (T/R) module market is growing fast, driven by the increasing demand for more advanced communication systems and defense modernization in various parts of the world. The growth of radar, electronic warfare, and satellite communication systems is intensifying innovation, particularly in the development of materials like gallium nitride (GaN). The challenges include high prices and vulnerability to jamming.
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Ecosystem
- The participants in the global military transmit and receive module industry are always developing their strategies to preserve a competitive advantage.
- These companies primarily use acquisitions, research & development, partnerships, and technological launches.
- Several important entities in the military transmit and receive module market include Northrop Gruman Corp.; Thales Group; L3Harris Technologies, Inc.; RTX Corp.; CAES Systems LLC; and others.
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Findings
Attributes | Values |
---|---|
Historical Period | 2019-2023 |
Base Year | 2024 |
Forecast Period | 2025-2030 |
Market Size (2025) | USD 6,745.31 Mn |
Market Size (2030) | USD 8,773.34 Mn |
Growth Rate | 5.4% CAGR from 2025 to 2030 |
Key Segments | Type (Gallium Nitride, Gallium Arsenide, Others); Application (Radar, Communication, Electric Warfare, Others); Geography (North America, South America, Asia Pacific, Europe, The Middle East, Africa) |
Key Vendors | Northrop Gruman Corp.; Thales Group; L3Harris Technologies, Inc.; RTX Corp.; CAES Systems LLC |
Key Countries | The US; Canada; Mexico; Brazil; Argentina; Colombia; Chile; China; India; Japan; South Korea; The UK; Germany; Italy; France; Spain; Turkey; UAE; Saudi Arabia; Egypt; South Africa |
Largest Market | North America |
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Trends
- Incorporation of Artificial Intelligence (AI) in Communication Systems: AI is transforming military communications by providing analysis in real time and better decision-making. AI-driven transmit and receive modules provide immediate, secure communication in complex environments like naval fleets or drone operations. Systems with these AI enhancements can very quickly adapt to disruptions or cyber threats and maintain operational integrity. For instance, in November 2023, the US Department of Defense publicly announced an AI Adoption Strategy aimed at strengthening decision-making and communication systems across all military operations. The initiative includes the absorption of artificial intelligence into both transmit and receive modules with a view to guarantee safe and near-real-time communications even in highly complex and contested environments, such as naval operations or drone coordination.
- Active Electronically Scanned Array (AESA) Radar Innovation: AESA radars are critical for military transmit and receive modules to target and achieve faster, more accurate situational awareness. The technology enhances the detection and tracking of dynamic battlefields with real-time threat data. The AESA radar systems are lighter and more efficient, making them suitable for more platforms like fighter jets, helicopters, and drones. In October 2023, Hanwha Systems developed a new AESA radar for light combat aircraft and unmanned aerial systems that greatly enhanced South Korea’s defenses. Furthermore, by the end of 2026, Hanwha Systems plans to have developed an improved model of the active electronically scanned array (AESA) for use on both KF-21 fighter fighters and its unmanned escort planes, as well as other lightweight combat aircraft.
- Use of Gallium Nitride (GaN) Technology: Gallium nitride (GaN) is transforming military transmit and receive modules into higher power devices while increasing efficiency at higher frequencies. Modules based on GaN are the most valuable for radar, electronic warfare, and satellite communications, wherein fast data transmission and robustness are critical. The efficiency of the material also downsizes the equipment due to weight, which is a major advantage for airborne and spaceborne systems. The US Navy now uses GaN in its long-range radar systems that provide a much better ability to detect air threats such as incoming missiles or aircraft from more considerable distances.
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Catalysts
- Development of Advanced Transmit and Receive Module Technologies: Advances in materials are driving development of next generation transmit and receive modules. These offer higher efficiencies, longer lifetime, and superior power-handling – all critical requirements for the new breed of military systems. As military forces seek faster, more reliable communications solutions, these advances enable improved capability through increased radar, electronic warfare, and satellite communications. Advances are also realized through the development of smaller, lighter modules that support their use in drones and other unmanned systems.
- Increase in Demand for Advanced Warfare Communication Systems: As the global tension rises and modern warfare becomes more technologically diverse, there is a need for advanced communications systems. Modern military operations not only demand real-time data but also ensure secure communication channels and systems that work in a contested environment. New modules have faster data transfer rates and higher-frequency communications, which form an integral part of current combat scenarios such as electronic warfare and cyber operations.
- Increasing Focus on Military Modernization: Most nations are investing in military modernization, focusing on the modernization of communication infrastructure to meet new battlefield demands in the 21st century. For several years, the US Army has been undergoing a fundamental transformation fueled by a massive modernization project known as the “31+4 Signature Systems.” By 2030, the US Army intends to completely integrate these technologies to react to rapidly changing strategic contexts. Legacy systems will be upgraded to new transmit and receive modules that can accommodate more modern platforms to include advanced fighter jets, satellites, and naval vessels. For instance, the US, China and South Korea are focusing on a major radar and communication system upgrade to dominate electronic warfare and information. As these nations strive to strengthen their defense capabilities and modernize communication infrastructure, the military transmit and receive modules market is expected to experience significant demand in the coming years.
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Restraints
- Vulnerability to Radar Jamming Techniques: Military transmit and receive modules are susceptible to a technique called radar jamming, whereby hostile forces will interfere with or distort their own radar, causing interruptions in critical military communications and surveillance. This poses a serious threat to radars and communication systems, especially those operating in environments with high electromagnetic interference. Electronic warfare systems are capable of targeting these modules, and hence, constant advancements to increase resistance against jamming technology remain an ongoing challenge in the design of anti-jamming technology.
- Technical Complexity Associated with T/R Modules: Transmit and Receive modules are becoming complex because they involve integration of multiple advanced technologies such as gallium nitride (GaN) and multi-band communication systems. This requires highly skilled expertise in design, testing, and maintenance, which creates a barrier to adoption, especially in areas with less access to advanced engineering talent. Ensuring military platform compatibility across different platforms in airborne, naval, and spaceborne configurations also complicates the deployment of T/R modules.
- High Manufacturing Costs of T/R Modules: The production of military-grade T/R modules employs costly materials and advanced manufacturing processes that meet high military standards. This results in expensive manufacturing costs, and that itself is a major hindrance to generalized uptake, especially for smaller defense budgets. Expensive integration costs from large systems like radar networks and communication satellites add immense cost issues that are compounded into procurement strategies in overall military modernization programs.
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Table of Contents
1. Introduction 1.1. Research Methodology 1.2. Scope of the Study 2. Market Overview / Executive Summary 2.1. Global Military Transmit and Receive Module Market (2019 – 2023) 2.2. Global Military Transmit and Receive Module Market (2024 – 2030) 3. Market Segmentation 3.1. Global Military Transmit and Receive Module Market by Type 3.1.1. Gallium Nitride 3.1.2. Gallium Arsenide 3.1.3. Others 3.2. Global Military Transmit and Receive Module Market by Application 3.2.1. Radar 3.2.2. Communication 3.2.3. Electric Warfare 3.2.4. Others 4. Regional Segmentation 4.1. North America 4.1.1. The US 4.1.2. Canada 4.1.3. Mexico 4.2. South America 4.2.1. Brazil 4.2.2. Argentina 4.2.3. Colombia 4.2.4. Chile 4.2.5. Rest of South America 4.3. Asia Pacific 4.3.1. China 4.3.2. India 4.3.3. Japan 4.3.4. South Korea 4.3.5. Rest of Asia Pacific 4.4. Europe 4.4.1. The UK 4.4.2. Germany 4.4.3. Italy 4.4.4. France 4.4.5. Spain 4.4.6. Rest of Europe 4.5. The Middle East 4.5.1. Turkey 4.5.2. UAE 4.5.3. Saudi Arabia 4.5.4. Rest of the Middle East 4.6. Africa 4.6.1. Egypt 4.6.2. South Africa 4.6.3. Rest of Africa 5. Value Chain Analysis of the Global Military Transmit and Receive Module Market 6. Porter Five Forces Analysis 6.1. Threats of New Entrants 6.2. Threats of Substitutes 6.3. Bargaining Power of Buyers 6.4. Bargaining Power of Suppliers 6.5. Competition in the Industry 7. Trends, Drivers and Challenges Analysis 7.1. Market Trends 7.1.1. Market Trend 1 7.1.2. Market Trend 2 7.1.3. Market Trend 3 7.2. Market Drivers 7.2.1. Market Driver 1 7.2.2. Market Driver 2 7.2.3. Market Driver 3 7.3. Market Challenges 7.3.1. Market Challenge 1 7.3.2. Market Challenge 2 7.3.3. Market Challenge 3 8. Opportunities Analysis 8.1. Market Opportunity 1 8.2. Market Opportunity 2 8.3. Market Opportunity 3 9. Competitive Landscape 9.1. Northrop Gruman Corp. 9.2. Thales Group 9.3. L3Harris Technologies, Inc. 9.4. RTX Corp. 9.5. CAES Systems LLC 9.6. Company 6 9.7. Company 7 9.8. Company 8 9.9. Company 9 9.10. Company 10 |
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Military Transmit and Receive Module Market – FAQs
1. What is the current size of the military transmit and receive module market?
Ans. In 2025, the military transmit and receive module market size is USD 6,745.31 Mn.
2. Who are the major vendors in the military transmit and receive module market?
Ans. The major vendors in the military transmit and receive module market are Northrop Gruman Corp.; Thales Group; L3Harris Technologies, Inc.; RTX Corp.; CAES Systems LLC.
3. Which segments are covered under the military transmit and receive module market segments analysis?
Ans. The military transmit and receive module market report offers in-depth insights into Type, Application, and Geography.