Military Transmit and Receive Module Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Type (Gallium Nitride, Gallium Arsenide, Others), By Application (Radar, Communication, Electronic Warfare, Others), By Frequency (Single-band, Multi-band), By Communication Medium (Optical, RF, Hybrid), By Platform (Land, Naval, Airborne, Space), By Region & Competition, 2021-2031F

Forecast Period	2027-2031
Market Size (2025)	USD 6.65 Billion
CAGR (2026-2031)	6.37%
Fastest Growing Segment	Gallium Nitride
Largest Market	North America
Market Size (2031)	USD 9.63 Billion

Market Overview

The Global Military Transmit and Receive Module Market will grow from USD 6.65 Billion in 2025 to USD 9.63 Billion by 2031 at a 6.37% CAGR. A Military Transmit and Receive (T/R) module is a specialized electronic assembly integrated into Active Electronically Scanned Array (AESA) radars to amplify and control signal phase for precise beam steering during transmission and reception. The market is primarily driven by the global modernization of defense infrastructures and the strategic transition from passive to active radar systems to enhance situational awareness in contested environments. According to the Aerospace, Security and Defence Industries Association of Europe (ASD), in 2024, the turnover of the European defense industry grew by 13.8% to €183.4 billion, reflecting the robust investment environment that underpins the demand for these critical electronic components.

However, market expansion confronts a significant challenge in the form of supply chain rigidities affecting the availability of specialized semiconductors. The manufacturing of high-performance modules relies heavily on materials such as Gallium Nitride, and any disruption in the sourcing of these substrates or the availability of skilled technical labor can create production bottlenecks that impede the timely delivery of defense systems.

Key Market Drivers

Escalating Global Defense Budgets and Strategic Modernization Initiatives act as the primary catalyst for market growth, necessitated by intensifying geopolitical instability in Eastern Europe and the Middle East. Nations are aggressively capitalizing their armed forces, prioritizing advanced electronics to ensure superiority in contested electromagnetic spectrums. This surge in fiscal allocation directly translates into large-scale procurement programs for air defense and surveillance systems. According to the Stockholm International Peace Research Institute (SIPRI), April 2025, in the 'Trends in World Military Expenditure, 2024' Fact Sheet, world military expenditure reached an all-time high of $2,718 billion in 2024, representing a 9.4% real-term increase. This robust investment environment fosters significant industrial activity; for instance, according to Hensoldt, February 2025, in the 'Financial year 2024' report, the company recorded an order intake of €2,904 million, explicitly driven by demand for TRML-4D radars.

The Widespread Integration of Active Electronically Scanned Array (AESA) Radars is simultaneously reshaping the technological landscape, creating a direct dependency on high-volume Transmit and Receive module production. Unlike legacy passive systems, AESA architectures require hundreds to thousands of individual T/R modules per array to enable instantaneous beam steering and multi-target tracking. This architectural shift is evident in the retrofit and production of fighter aircraft and ground-based sentinels. A pertinent example of this trajectory occurred when, according to Defence Blog, April 2025, in the 'Northrop wins $14M for F-16 AESA radar upgrades' article, Northrop Grumman received a contract modification that brought the total value of their F-16 AESA radar program to over $1.68 billion. As platforms increasingly adopt these module-dense arrays, the market for the underlying Gallium Nitride components continues to expand.

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Key Market Challenges

The primary impediment to the expansion of the Global Military Transmit and Receive Module Market is the persistent rigidity within the semiconductor supply chain and the concurrent scarcity of specialized technical labor. These high-performance modules, which utilize advanced materials like Gallium Nitride, require precision manufacturing processes that are highly sensitive to disruptions. When raw material flow is inconsistent or the workforce lacks the specific technical certifications required for defense electronics, production schedules for Active Electronically Scanned Array radars are inevitably compromised. This inability to scale production in response to demand creates a bottleneck that affects the entire modernization timeline of defense infrastructures, effectively capping growth despite available capital.

The severity of this operational constraint is quantified by recent industry data regarding the workforce essential for such complex electronics manufacturing. According to the National Defense Industrial Association, in 2024, 59% of private sector respondents within the defense industrial base reported that finding skilled trade and cleared workers was significantly difficult. This statistic highlights a critical vulnerability; without a sufficient pool of qualified technicians to handle the complex assembly of T/R modules, manufacturers cannot meet the surging requirements of global defense programs, thereby directly stalling market revenue realization.

Key Market Trends

The Emergence of Digital T/R Modules for Element-Level Digital Beamforming is fundamentally altering radar architecture by digitizing signals directly at the antenna element, eliminating the need for analog beamforming manifolds. This transition enables superior dynamic range and the generation of multiple simultaneous beams, which are critical for tracking hypersonic threats and swarming drones. Manufacturers are increasingly integrating high-speed Analog-to-Digital Converters (ADCs) directly into the T/R module package to facilitate this capability. A prominent validation of this technological shift is evident in the U.S. Army's modernization efforts; according to National Defense Magazine, December 2024, in the 'Lockheed Martin to Deliver New Army Air Defense Radar Next Year' article, Lockheed Martin commenced low-rate initial production of the Sentinel A4, a fully digital radar system that delivers 175% greater range coverage than its predecessor by leveraging this digital architecture.

The Integration of Artificial Intelligence for Cognitive Radar and Electronic Warfare is simultaneously transforming module utility, shifting focus from hardware constraints to software-defined adaptability. Advanced T/R modules are now being designed with backend processing that supports machine learning algorithms, allowing the system to autonomously modulate waveforms and manage spectrum in real-time to counter adversarial jamming. This demand for intelligent signal management is driving specific development contracts; according to ExecutiveBiz, July 2024, in the 'Raytheon Wins Navy Contract for Enhanced Radar Signal Processing' article, Raytheon secured a $42.9 million contract to develop enhanced radar signal processing capabilities that take advantage of next-generation receivers to operate in increasingly harsh electromagnetic environments.

Segmental Insights

The Gallium Nitride segment is recognized as the fastest-growing category in the Global Military Transmit and Receive Module Market due to its distinct advantages in power density and thermal management over traditional Gallium Arsenide technology. This semiconductor material enables the production of smaller and lighter modules that deliver higher voltage operations, which are essential for enhancing the range and sensitivity of military radar and communications systems. Consequently, the increasing operational requirement for compact and energy-efficient electronic warfare solutions drives the widespread adoption of Gallium Nitride in defense manufacturing.

Regional Insights

North America maintains a leading position in the Global Military Transmit and Receive Module Market due to substantial defense expenditures and the continuous modernization of armed forces. The United States Department of Defense actively invests in upgrading radar, communications, and electronic warfare systems across naval, airborne, and ground platforms, creating consistent demand for these components. Additionally, the presence of major defense contractors within the region fosters collaborative research into advanced semiconductor technologies. This strategic focus on enhancing situational awareness and national security infrastructure solidifies North America as the primary revenue generator in this sector.

Recent Developments

• In December 2025, Raytheon received a contract from the U.S. Air Force to equip the autonomous X-62A Variable In-flight Simulation Test Aircraft with the PhantomStrike radar. This compact fire-control radar utilizes gallium nitride technology and an air-cooled design to deliver advanced performance with reduced size, weight, and power requirements compared to typical active electronically scanned array systems. The integration was intended to support flight tests involving machine learning and autonomous capabilities. The President of Advanced Products & Solutions at the company noted that the radar's digital beam forming and steering would play a key role in helping autonomous aircraft maintain air superiority.
• In August 2025, Hanwha Systems completed the rollout of the first mass-produced active electronically scanned array radar for the KF-21 fighter jet. The company unveiled the new system at a purpose-built antenna testing facility equipped with a chamber capable of evaluating multiple radar systems simultaneously. This radar unit incorporates approximately 1,000 transmit and receive modules, serving as the primary sensor for the aircraft's combat and surveillance functions. The commencement of mass production represented a major advancement in domestic avionics, with the company scheduled to deliver 40 units between 2025 and 2028 to support the operational requirements of the national air force.
• In February 2025, Bharat Electronics Ltd delivered the 7,000th transmit and receive module for the RBE2 radar to Thales, marking a significant milestone in their defense collaboration. This delivery highlighted the successful transfer of technology for the active electronically scanned array radar, which is a critical sensor on the Rafale fighter aircraft. The manufacturing of these advanced microwave modules was conducted in India, demonstrating a commitment to localizing the production of complex defense electronics. The RBE2 radar utilizes these solid-state modules to electronically steer radar beams, offering superior situational awareness and faster target tracking compared to traditional mechanical systems.
• In June 2024, Thales announced that the Brazilian Air Force had acquired the Ground Master 200 Multi-mission All-in-one tactical air surveillance radars to enhance the nation's air sovereignty. This advanced radar system features new-generation 4D Active Electronically Scanned Array technology, which relies on a matrix of transmit and receive modules to provide dual-axis multi-beam capabilities. The system was designed to offer unrestricted flexibility in elevation and bearing for modern multi-mission air surveillance and ground-based air defense operations. The contract was signed by the Brazilian Department of Airspace Control, with a local subsidiary designated to handle support and maintenance activities to ensure high operational availability.

Key Market Players

• Northrop Grumman Corporation
• Thales S.A.
• L3Harris Technologies, Inc.
• RTX Corporation
• CAES System LLC
• Mitsubishi Electric Corporation
• Leonardo S.P.A.
• Kyocera Corporation
• Teledyne Technologies Incorporated
• Bharat Electronics Limited

By Type	By Application	By Frequency	By Communication Medium	By Platform	By Region
Gallium Nitride Gallium Arsenide Others	Radar Communication Electronic Warfare Others	Single-band Multi-band	Optical RF Hybrid	Land Naval Airborne Space	North America Europe Asia Pacific South America Middle East & Africa

Report Scope:

In this report, the Global Military Transmit and Receive Module Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• Military Transmit and Receive Module Market, By Type:

• Gallium Nitride
• Gallium Arsenide
• Others

• Military Transmit and Receive Module Market, By Application:

• Radar
• Communication
• Electronic Warfare
• Others

• Military Transmit and Receive Module Market, By Frequency:

• Single-band
• Multi-band

• Military Transmit and Receive Module Market, By Communication Medium:

• Optical
• RF
• Hybrid

• Military Transmit and Receive Module Market, By Platform:

• Land
• Naval
• Airborne
• Space

• Military Transmit and Receive Module Market, By Region:

• North America
• United States
• Canada
• Mexico
• Europe
• France
• United Kingdom
• Italy
• Germany
• Spain
• Asia Pacific
• China
• India
• Japan
• Australia
• South Korea
• South America
• Brazil
• Argentina
• Colombia
• Middle East & Africa
• South Africa
• Saudi Arabia
• UAE