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Multi-role Electronically Scanned Array

The Multi-role Electronically Scanned Array (MESA) is an active electronically scanned array (AESA) surveillance radar system developed by Northrop Grumman, designed for airborne early warning and control (AEW&C) platforms to provide simultaneous multi-domain surveillance.^[1] Operating in the L-band, it features a fixed, multi-aperture design with two side-looking arrays and a dorsal "top hat" antenna, enabling 360-degree coverage without mechanical rotation for rapid target acquisition and tracking of up to 180 air and maritime targets concurrently.^[2] Primarily integrated into the Boeing E-7 Wedgetail aircraft based on the 737 platform, MESA supports air and sea surveillance, fighter control, identification friend or foe (IFF) interrogation, and electronic support measures, with detection ranges exceeding 370 km for fighter-sized targets in look-down mode and over 600 km in look-up mode.^[1]^[2] MESA's development traces its roots to Northrop Grumman's extensive heritage in AEW radars, building on over 40 years of experience with systems like the AN/APY-1 and AN/APY-2 for the E-3 Sentry AWACS, with the initial concept for the Boeing 737 AEW&C integration agreed upon in 1996.^[1]^[3] Originating from the U.S. Air Force's E-10 Multi-sensor Command and Control Aircraft (MC2A) program as its Spiral-2 variant, the radar was adapted for international markets after the E-10 was canceled in 2002, leading to its first operational deployment with the Royal Australian Air Force's E-7A Wedgetail fleet in 2009.^[4] The system's L-band operation enhances performance in adverse weather, such as rain attenuation, while its 288 transmit/receive (T/R) modules enable variable scan rates, instantaneous target revisits, and a coverage area surpassing 340,000 square miles for air surveillance.^[1]^[5] In operational use, MESA equips AEW&C aircraft for several nations, including Australia, Turkey, South Korea, and the United Kingdom, where the first installation on an E-7 Wedgetail Mk1 occurred in 2022 and remaining radars were delivered in summer 2025 to bolster the Royal Air Force's capabilities.^[6]^[7] The United States Air Force has restored its program to acquire 26 E-7A aircraft with MESA as the replacement for its aging E-3 Sentry fleet by 2032, following a reversal as of November 2025 of earlier 2025 considerations for program changes or advanced sensor alternatives to enhance multi-domain awareness, electronic warfare, and contested environment performance.^[8]^[9] This adaptability underscores MESA's role as a foundational technology in modern airborne surveillance, offering superior situational awareness over legacy mechanically scanned radars by providing 20-50% greater range and faster update rates.^[1]

Development History

Origins and Selection

The Multi-role Electronically Scanned Array (MESA) radar originated from Northrop Grumman's work on the U.S. Air Force's E-10 Multi-sensor Command and Control Aircraft (MC2A) program in the late 1990s, intended as a 767-based platform combining airborne early warning and ground moving target indication capabilities. Following the program's cancellation in 2002, the MESA technology was repurposed for international AEW&C applications, including Australia's Project Wedgetail.^[4] In the mid-1990s, the Australian government identified a critical need for an advanced airborne early warning and control (AEW&C) capability to address evolving regional security challenges in the Asia-Pacific, particularly amid rising threats from potential adversaries requiring enhanced surveillance over vast maritime and airspace domains. This stemmed from strategic assessments dating back to the 1980s, when initial evaluations of airborne surveillance options were conducted, leading to formal endorsement of the project by the Force Structure Planning and Programming Committee in May 1994. To replace aging platforms and fill capability gaps in air defense and multi-role operations, the government issued a Request for Proposals (RFP) in February 1996 under Project Wedgetail, named after Australia's largest bird of prey, seeking proposals for an integrated AEW&C system based on electronically scanned array principles to enable simultaneous air and surface tracking.^[10]^[11] The RFP attracted bids from major aerospace firms, including Boeing, Lockheed Martin, and Raytheon, each awarded Initial Design Activity contracts worth A$8.483 million in 1998 to refine their offerings and mitigate risks. In July 1999, a Boeing-led consortium, partnering with Northrop Grumman for the development of the Multi-role Electronically Scanned Array (MESA) radar, was selected as the preferred tenderer after evaluation criteria emphasized operational capability, Australian industry involvement, cost-effectiveness, and program risk. The choice of L-band active electronically scanned array (AESA) technology in the MESA system was pivotal, as it promised robust multi-role surveillance performance in adverse weather and against diverse threats, aligning with the RFP's focus on interoperability and extended detection ranges essential for Asia-Pacific operations.^[12]^[11]^[10] Following the selection, development accelerated with the signing of a A$2.477 billion fixed-price contract in December 2000 for four Boeing 737-700-based E-7A aircraft equipped with the MESA radar, plus options for up to three additional systems, including ground support segments. This agreement, valued at over A$2 billion in initial estimates, marked the commitment to integrate the advanced radar and mission systems onto the platforms. Post-contract, engineering and integration efforts commenced immediately, targeting the first flight with full radar systems in the early 2000s to meet operational timelines.^[13]^[10]^[11]

Testing and Initial Deployment

Ground and flight testing of the Multi-role Electronically Scanned Array (MESA) radar began in 2002, following the rollout of the first Boeing 737-based test aircraft on October 31 at Boeing's Renton facility.^[14] Initial ground testing focused on integration of the MESA radar with the aircraft's avionics and mission systems, addressing compatibility and electromagnetic interference issues over the subsequent years.^[10] By 2004, the program advanced to flight trials, with the first MESA-equipped prototype achieving its maiden flight on May 21 from Boeing Field in Seattle, marking the initial radar-powered airborne evaluation.^[15] Integration trials continued on the Boeing 737 testbed through 2005, culminating in the first in-flight test of the Northrop Grumman MESA radar on September 1, which validated its operational performance after three years of preparatory ground work.^[14] A major milestone was reached in March 2006, when comprehensive radar testing confirmed no interference with the aircraft's engines or avionics, ensuring seamless compatibility with the overall mission system.^[16] Flight testing expanded in 2007 to include full mission system evaluations on the first Australian Wedgetail prototype, with an initial four-hour sortie on June 6 from Seattle demonstrating functional checks of radar tracking and data processing capabilities.^[17] The first two Wedgetail aircraft arrived in Australia in 2009 for further trials, including a successful operational utility demonstration in April that showcased the system's potential for airborne early warning and control.^[18] However, the program faced significant delays due to software integration challenges and technical immaturity, pushing back delivery timelines.^[19] These issues were addressed through upgrades by Northrop Grumman, which resolved early reliability concerns in the mission systems and radar integration, enabling formal acceptance of the initial aircraft by the Australian government later that year.^[20] The Royal Australian Air Force (RAAF) achieved Initial Operational Capability (IOC) with the E-7A Wedgetail on November 19, 2012, after overcoming the software-related hurdles that had delayed the program by several years.^[21] Full operational deployment followed with the declaration of Final Operational Capability on May 26, 2015, allowing the fleet to integrate fully into RAAF operations.^[22] By mid-2015, Wedgetail aircraft participated in Exercise Talisman Sabre, conducting surveillance and battle management missions to test interoperability with allied forces, including U.S. Navy assets.^[23]

Design and Technical Specifications

Antenna Configuration

The Multi-role Electronically Scanned Array (MESA) radar features a distinctive dorsal "top hat" fin-mounted antenna, fixed atop the Boeing E-7 Wedgetail's fuselage, measuring 10.8 meters in length and 3.4 meters in height. This fixed installation eliminates the need for mechanical rotation, enabling continuous 360-degree azimuthal coverage through electronic scanning alone.^[24]^[1] At its core, the MESA employs an Active Electronically Scanned Array (AESA) architecture, consisting of gallium arsenide-based transmit/receive modules (TRMs) arranged in a conformal array that follows the curved surface of the top hat structure for optimal aerodynamic integration. These TRMs, totaling 288 across the arrays, allow for distributed power amplification and independent control of each element, enhancing reliability and performance over traditional mechanically scanned systems.^[25]^[5]^[1] The antenna's dual-sided design incorporates forward- and aft-facing arrays within the top hat, supplemented by side-looking panels, permitting simultaneous scanning in multiple directions without compromising coverage. Electronic beam steering is achieved through phase shifters integrated into each TRM, enabling rapid and precise adjustment of the beam direction across a wide field of regard, typically optimized for L-band operation to balance resolution and propagation characteristics.^[1]^[5] Integration features emphasize operational sustainability and aerodynamic efficiency, including advanced cooling systems housed in the aircraft's aft section to manage heat from high-power TRM operation during extended missions. Additionally, the antenna's smooth contours minimize aerodynamic drag while maintaining structural integrity.^[3]^[26]

Performance Parameters

The Multi-role Electronically Scanned Array (MESA) operates in the L-band frequency range of 1-2 GHz, which enables long-range detection while minimizing atmospheric attenuation compared to higher-frequency bands.^[4]^[27] In high-altitude look-up mode, the radar achieves detection ranges exceeding 600 km against fighter-sized targets.^[2] For look-down air search operations, the effective range surpasses 370 km.^[28] Maritime surface search capabilities extend beyond 240 km for destroyer-sized vessels, with performance reaching to and beyond the radar horizon in interleaved modes.^[29] Additionally, the system's electronic intelligence (ELINT) function provides a maximum range greater than 850 km when operating at 30,000 ft altitude.^[30]^[31] The radar's beam characteristics support variable widths and scan durations, enabling flexible operation, while AESA beam steering facilitates rapid electronic repositioning to maintain these parameters. It can simultaneously track up to 180 airborne targets and support 24 concurrent intercepts.^[2]^[32] Monopulse processing contributes to precise angular measurements in both elevation and azimuth.^[1] MESA employs active electronically scanned array (AESA) amplification across its transmit/receive modules to deliver peak power in the megawatt range, supporting extended detection and multi-target handling. The system integrates an Identification Friend or Foe (IFF) interrogator certified for Mode 5, providing secure identification aligned with radar ranges and extended coverage for cooperative targets.^[25]^[1]

Operational Capabilities

Surveillance and Tracking Functions

The Multi-role Electronically Scanned Array (MESA) radar operates in an air surveillance mode that enables long-range detection and tracking of airborne threats, such as fighter aircraft and missiles, through its active electronically scanned array technology.^[33] This mode incorporates automatic track-while-scan capability, allowing the radar to continuously monitor and update tracks on multiple aerial targets without interrupting the search pattern, thereby maintaining persistent situational awareness over vast airspace volumes.^[34]^[35] In maritime surveillance mode, the MESA radar detects and classifies surface vessels in environments cluttered with sea returns, by leveraging its multi-function beam-forming to distinguish targets from background noise.^[25] This capability supports simultaneous tracking of maritime contacts alongside aerial ones, facilitating integrated monitoring of sea domains during joint operations.^[36] The ground moving target indication (GMTI) mode uses Doppler processing to detect and track terrestrial vehicles and personnel by isolating their motion signatures from stationary clutter.^[33] This function enhances the radar's utility in multi-domain scenarios, providing operators with real-time insights into ground movements over extended areas.^[37] The E-7 platform's integrated electronic support measures (ESM) enable passive electronic intelligence (ELINT) collection, allowing interception and geolocation of enemy radar emissions without active radar transmission from the MESA, which complements its active modes by reducing overall detectability.^[34] This passive capability supports emitter location and signal analysis, contributing to a comprehensive electronic battlespace picture. For multi-target handling, the MESA employs advanced algorithms to correlate and fuse tracks across air, sea, and ground domains, enabling seamless management of hundreds of simultaneous contacts and presenting a unified display to operators for enhanced decision-making.^[33] This data fusion process integrates radar data with other sensors, ensuring accurate track maintenance and reduced false alarms in complex environments.^[25]

Multi-role Operations

The Multi-role Electronically Scanned Array (MESA) radar enables fighter control and intercept management by providing precise guidance to allied aircraft, including mid-course updates and terminal homing support during engagements. This capability allows mission crews to direct multiple fighter assets simultaneously, leveraging high-quality tracks derived from the radar's 360-degree surveillance to maintain situational awareness and coordinate responses to airborne threats.^[38] In area denial and battle management roles, the MESA radar facilitates coordination of strike operations, electronic warfare activities, and airspace deconfliction by integrating sensor data into a broader command and control framework. It supports the orchestration of joint forces, enabling operators to allocate resources for jamming support from allied assets and ensure safe separation of friendly aircraft, missiles, and ground elements in contested environments. This multi-domain integration enhances overall battlespace management, allowing for dynamic prioritization of threats and mission objectives.^[39]^[33] Interoperability is achieved through advanced data links, such as Link 16, which enable real-time sharing of radar tracks with ground stations, naval forces, and other aircraft. These secure, beyond-line-of-sight communications ensure seamless integration with coalition partners, allowing the MESA-equipped platform to contribute to joint all-domain operations without compromising data security or latency.^[39] The radar's adaptive mode switching permits real-time reconfiguration between search, track, and Identification Friend or Foe (IFF) modes, with minimal performance degradation due to its active electronically scanned array architecture. Operators can dynamically refocus radar energy on priority sectors, supporting simultaneous multi-function operations like air and maritime surveillance while maintaining continuous coverage. This flexibility is critical for evolving tactical scenarios, where rapid adjustments enhance detection and response without interrupting ongoing missions. Recent upgrades as of 2025 have enhanced MESA's combat identification capabilities for improved IFF performance.^[40]^[38] The operator interface in the E-7 mission suite supports 10 consoles dedicated to battle management and mission planning, providing crew members with intuitive tools for real-time decision-making. These stations feature dual-screen setups for radar data visualization, tactical chat, and resource allocation, enabling collaborative oversight of intercepts, strikes, and deconfliction tasks in a networked environment.^[39]^[38]

Integration and Operators

Primary Platform: Boeing E-7 Wedgetail

The Boeing E-7 Wedgetail is based on a modified Boeing 737-700 commercial airliner platform, with the Multi-role Electronically Scanned Array (MESA) radar mounted in a fixed dorsal radome resembling a wedge-tail shape to house the fixed antenna array. This configuration preserves the airliner's inherent range and endurance capabilities, including up to 9 hours of on-station time with aerial refueling support, while accommodating the radar's integration without significant aerodynamic penalties—achieved through added strakes on the rear fuselage underside.^[41]^[14] Systems integration in the E-7 Wedgetail fuses the MESA radar with advanced mission computers compliant with Open Mission Systems architecture, enabling seamless data processing and command-and-control functions. This includes connectivity to communication suites such as satellite communications (SATCOM) and tactical datalinks for real-time information sharing, alongside electronic warfare self-protection systems for threat detection and countermeasures. The radar's outputs are processed through integrated battle management systems that support simultaneous surveillance of airborne, maritime, and ground targets.^[33]^[41] To meet the MESA radar's high-duty cycle demands, the E-7 incorporates dedicated power generation via upgraded 180 kVA generators, one per engine, ensuring sufficient electrical supply for the radar and onboard systems without impacting flight performance. Cooling is provided through liquid cooling systems, which efficiently manage the heat generated by the active electronically scanned array during extended operations.^[14]^[42] Cabin modifications center on a rearward mission compartment configured for sustained operations, featuring 10 operator consoles for mission crew, data processing servers, and auxiliary equipment to support the radar's real-time analysis and decision-making workflows. This layout allows for a crew of up to 12, including pilots and operators, in an environment optimized for long-duration missions.^[41]^[14] The E-7 Wedgetail underwent rigorous certification processes, including FAA airworthiness approvals for its commercial derivative airframe and military certifications addressing radar emissions, electromagnetic compatibility, and overall system integration to ensure safe and effective operation in diverse airspace environments.^[33]^[43]

Global Operators and Variants

The primary operator of systems equipped with the Multi-role Electronically Scanned Array (MESA) radar is the Royal Australian Air Force (RAAF), which fields six E-7A Wedgetail aircraft that achieved initial operational capability in 2015.^[41] These platforms provide the RAAF with advanced airborne early warning and control (AEW&C) capabilities, supporting surveillance, tracking, and command functions across diverse missions.^[33] Export successes have expanded MESA-equipped operations to several nations. The Republic of Korea Air Force operates four E-7 Wedgetail aircraft, known as Peace Eye, which entered service to enhance regional airspace monitoring and battle management.^[44] The Turkish Air Force maintains four E-7T Peace Eagle variants, operational since the early 2010s despite historical program delays related to integration and delivery timelines.^[45] In 2019, the United Kingdom ordered three E-7 Wedgetail aircraft for the Royal Air Force, with the first delivery originally slated for 2024 but delayed to late 2025 due to production and testing adjustments; these will operate from RAF Lossiemouth to replace legacy E-3 Sentry capabilities, with initial operational capability expected in 2026.^[46]^[33] The United States Air Force is evaluating the E-7 Wedgetail with MESA radar as a potential replacement for its aging E-3 Sentry fleet, though the program faced cancellation in mid-2025 over cost and survivability concerns before partial revival through congressional funding and prototype development, including nearly $200 million approved in November 2025 to support continuation.^[47]^[48]^[49] As of late 2025, the USAF is pursuing two rapid prototypes assembled in the UK, while also considering space-based alternatives for future AEW&C needs.^[50]^[51] The standard MESA configuration remains focused on AEW&C roles aboard the E-7 platform, with no major standalone radar-only variants produced.^[25] Software upgrades are planned or underway to enhance Identification Friend or Foe (IFF) capabilities, such as Mode 5 integration on Turkish aircraft to improve target discrimination in contested environments as of 2025.^[52] Potential adaptations for maritime surveillance, including integration concepts with the P-8 Poseidon for extended sea surface tracking, leverage MESA's multi-role design but remain in exploratory phases without operational deployment.^[25] Globally, the operational E-7 Wedgetail fleet equipped with MESA totals approximately 14 aircraft across Australia, South Korea, and Turkey as of 2025, with an additional three on order for the UK, bringing the committed total near 20 units.^[45] Training and sustainment for these systems are supported by Northrop Grumman, the MESA radar's developer, through sensor installation, upgrades, and logistics services tailored to operator requirements.^[37] This multi-role versatility allows diverse global operators to adapt the platform for joint missions, from air defense to maritime patrol.^[33]

Advantages, Limitations, and Future Developments

Key Advantages

The Multi-role Electronically Scanned Array (MESA) radar's solid-state active electronically scanned array (AESA) design enhances reliability by eliminating mechanical moving parts, thereby reducing failure rates associated with rotating antennas in legacy systems such as the AN/APS-130 maritime patrol radar.^[53]^[54] Unlike traditional mechanically scanned radars that rely on physical rotation for coverage, MESA's fixed array uses 288 transmit/receive modules (TRMs) distributed across its structure, distributing power and processing to improve overall system resilience and mean time between failures.^[53] This solid-state architecture supports higher mission readiness rates, as demonstrated in operational deployments on the Boeing E-7 Wedgetail platform.^[33] MESA's multi-functionality enables simultaneous operations across surveillance, tracking, and identification modes, significantly improving situational awareness compared to single-role radars that require sequential tasking.^[25] The radar can track airborne, maritime, and ground targets concurrently while integrating identification friend-or-foe (IFF) capabilities, allowing operators to prioritize threats in real-time without compromising coverage.^[25] This capability stems from electronic beam steering, which permits rapid mode switching and resource allocation, outperforming legacy systems limited by mechanical constraints.^[4] In terms of stealth and survivability, MESA employs low-probability-of-intercept (LPI) waveforms that minimize detectability by enemy electronic warfare systems, a key advantage over higher-power, more predictable legacy radars.^[5] The AESA design facilitates wide bandwidth and agile frequency hopping, reducing the radar's emission signature and enabling operations in contested environments with lower risk of counter-detection.^[5] Additionally, its L-band operation provides inherent range advantages for long-distance detection while maintaining this low observability.^[43] MESA's scalability is supported by its modular TRM architecture, which allows for targeted upgrades in power output, frequency agility, or beam performance without necessitating a complete system redesign.^[53] This modularity, combined with the E-7's open systems architecture, enables incremental enhancements through software updates or TRM replacements, ensuring adaptability to evolving threats.^[33] Finally, the integration on a commercial 737 derivative platform drives cost-effectiveness by leveraging an established global supply chain and maintenance infrastructure, resulting in lower lifecycle costs than purpose-built airborne early warning aircraft.^[33] Over 9,000 operational 737s worldwide facilitate shared logistics and reduced sustainment expenses, making MESA-equipped systems more economical for extended fleet service.^[33]

Challenges and Limitations

The Multi-role Electronically Scanned Array (MESA) system's large dorsal-mounted antenna, spanning approximately 10 meters in length and contributing around 855 kg to the host aircraft's weight, imposes aerodynamic drag penalties that reduce fuel efficiency and restrict its deployment to larger platforms such as the Boeing 737-based E-7 Wedgetail, precluding integration on smaller airframes.^[55] MESA's high power requirements, demanding up to 360 kW of electrical generation, necessitate robust onboard systems that can strain fuel reserves and operational endurance during extended missions.^[56] The active electronically scanned array (AESA) design of MESA, incorporating thousands of transmit/receive modules (TRMs), elevates maintenance complexity through the need for specialized diagnostics, repairs, and logistics, leading to elevated sustainment costs relative to passive phased array radars.^[57]^[5] As an L-band radar, MESA exhibits vulnerability to low-frequency interference and jamming, a susceptibility inherent to longer wavelengths despite partial mitigation via frequency agility features.^[58] Export of the MESA system is constrained by U.S. International Traffic in Arms Regulations (ITAR), which prohibit technology transfer to non-allied nations without stringent licensing, limiting global proliferation.^[59]

Upgrades and Future Developments

Since its initial deployment, the Multi-role Electronically Scanned Array (MESA) radar has undergone software enhancements to improve threat identification and maritime surveillance capabilities. In recent flight tests conducted with the Royal Australian Air Force on an in-service E-7 aircraft, Northrop Grumman integrated advanced combat identification features that enable faster air threat recognition and secure intelligence processing.^[40] These enhancements leverage the radar's open systems architecture for seamless integration across E-7 platforms. Additionally, a moving target indicator (MTI) upgrade installed on the first MESA sensor for the Royal Air Force in 2022 bolsters simultaneous detection, tracking, and identification of airborne and maritime targets at extended ranges, addressing evolving operational needs in contested environments.^[60] Hardware advancements for MESA remain incremental, with ongoing production supporting reliability improvements, though specific transmit/receive module (TRM) replacements with gallium nitride (GaN) technology—common in other Northrop Grumman radars—have not been publicly detailed for this system. The radar's active production line, as confirmed in 2023, allows for evolutionary modifications to sustain performance against modern threats.^[61] The U.S. Air Force canceled its E-7 Wedgetail program in June 2025 due to escalating costs, delays, and survivability issues in contested environments. In November 2025, NATO allies followed suit, canceling plans to acquire E-7 aircraft and shifting focus to alternatives like the Saab GlobalEye.^[62]^[63] International efforts emphasize collaborative enhancements amid Indo-Pacific security challenges. The UK planned delivery of two additional MESA radars in summer 2025 as spares for its reduced three-aircraft E-7 fleet, but as of November 2025, the program faces delays including radar power generation issues, ensuring operational redundancy.^[64]^[65] South Korea, operating four E-7s equipped with MESA, received U.S. approval in November 2024 for four more aircraft to expand maritime patrol, but selected an alternative L3Harris Global 6500-based platform in September 2025, with enhanced combat ID features integrated into existing E-7s.^[29]^[44] These upgrades, shared across operators including Australia, Turkey, and the UK, focus on bolstering multi-domain awareness without major hardware overhauls. Long-term prospects through the 2030s center on adaptability, with MESA's modular design facilitating potential AI-assisted signal processing and multi-static configurations for improved beyond-line-of-sight detection, though detailed roadmaps remain classified. Production continuity positions the system for sustained relevance in airborne early warning roles.^[25]

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E-7A Wedgetail - Royal Australian Air Force
Specifications ; 7,040km · 41,000 feet · Maximum 955 km/h; Cruise 760 km/h · Multi-role electronically scanned array (MESA) radar with range in excess of 400km ...Missing: performance parameters L- band detection
[39]
How do Chinese AESA radars in fighter jets compare to ... - Quora
Jan 26, 2024 · An example of an advanced AESA radar is the radar fitted to the E-7 Wedgetail. ... Cold plate liquid cooling system. Array power supply ...The American radars are third-generation AESA and ...Do Chinese AESA radars use notch or patch antennas, and ...More results from www.quora.com
[40]
E-7 Boeing 737 AEW - GlobalSecurity.org
Sep 25, 2023 · The E-7 also incorporates the Northrop Grumman Multi-Role Electronically Scanned Array (MESA) radar which Boeing has successfully integrated ...
[41]
South Korea Has Chosen Its Next Airborne Early Warning Radar Jet
Sep 30, 2025 · South Korea will add the L3Harris Global 6500-based airborne early warning and control aircraft to its current fleet of four Boeing E-7s.
[42]
Insight: What future remains for the E-7 Wedgetail aircraft? | Shephard
Sep 2, 2025 · As of 2025, three countries are currently operating the aircraft: Australia (E-7 Wedgetail), South Korea (Peace Eye), and Turkey (Peace Eagle).
[43]
RAF E-7 Wedgetail programme - The House of Commons Library
Jul 11, 2025 · The aircraft are currently being modified and are expected to enter service towards the end of 2025, two years later than originally planned.Missing: global | Show results with:global
[44]
Air Force cancels E-7 Wedgetail, citing survivability and cost concerns
Jun 26, 2025 · The Air Force has canceled the E-7 Wedgetail program due to ballooning costs and concerns about survivability, a senior military official confirmed today.
[45]
Pentagon's Bold Pivot: Keeping the E-7 Alive
Sep 21, 2025 · The E-3's aging Boeing 707 airframe and dated technology—often requiring hand-crafted or 3D-printed replacement parts—have become unsustainable.
[46]
UK to produce 2 E-7 prototypes for US Air Force amid push to save ...
Sep 26, 2025 · Two Boeing 737 passenger jets will be converted into advanced prototypes of the E-7A Wedgetail at the company's facility in Birmingham, England, ...
[47]
USAF E-7 Wedgetail saved as Senate restores funding
Aug 1, 2025 · Senate's 2026 bill restores $647M for E-7 Wedgetail, countering DoD's plan to cut the radar plane amid debates on space-based alternatives.Missing: size | Show results with:size
[48]
Turkish E-7T Peace Eagle Temporarily Deployed to Lithuania
Sep 25, 2025 · At the IDEF 2023 defense fair, a contract was signed to modernize the aircraft, under which they will receive a new Mode 5 Identification Friend ...
[49]
AESA Radar - Required Not Desired - Armada International
Feb 26, 2024 · AESA radar systems have multiple TRMs rather than a single large transmitter like a PESA or M-Scan system, the AESA enjoys greater reliability.Missing: role | Show results with:role
[50]
Australian, American integration promotes interoperability ...
Feb 10, 2022 · Compared to the E-3's rotating radar dome, the E-7's technology uses a Multi-role Electronically Scanned Array (MESA) radar for detection and ...Missing: advantages | Show results with:advantages
[51]
The E-3 Sentry Vs the E-7 Wedgetail - Key Aero
Jun 29, 2022 · Both the E-3 and E-7 are airborne early warning and control (AEW&C) aircraft – they fly at over 29,000ft (E-3) and up to 41,000ft (E-7) and ...Missing: ELINT | Show results with:ELINT
[52]
[PDF] AESA Radar - :::::: AEL ::::::
AESA radar uses many small transmit/receive modules, has no moving parts, and can steer beams electronically, unlike conventional radars.
[53]
Active vs. Passive Phased Array RADAR: What's the Real Difference?
Mar 28, 2025 · Passive Phased Array: Less flexibility due to reliance on a single transmitter, limiting simultaneous operations. Active Phased Array: Offers ...Missing: functionality | Show results with:functionality
[54]
Assessing the Tikhomirov NIIP L-Band Active Electronically Steered ...
High power active jamming of L-band AEW&C/AWACS and surface based search radars at long ranges. High power active jamming of guided munition command datalinks ...
[55]
Understand The ITAR - DDTC Public Portal
The ITAR (22 CFR parts 120-130) governs the manufacture, export, and temporary import of defense articles, the furnishing of defense services, and brokering ...Missing: E- Wedgetail
[56]
MESA radar tested by Northrop Grumman and Australian army
MESA radar tested by Northrop Grumman and Australian army. News. March 21, 2025 ... P-8A Poseidon to receive sensor, processing upgrades for Australian fleet.
[57]
First Northrop Grumman MESA sensor installed for Royal Air Force ...
Nov 5, 2022 · “This advanced MTI will enhance UK forces' ability to simultaneously detect, track and identify airborne and maritime adversary targets at long ...<|separator|>
[58]
Northrop Grumman Producing MESA Radar for USAF E-7s
Mar 20, 2023 · MESA is on an active production line to address global threats in the modern-day battlespace and evolve to meet future mission requirements.
[59]
UK to Build E-7 Wedgetail Intelligence Aircraft for US Air Force
Sep 25, 2025 · Under a new UK–Boeing contract, two Boeing 737 commercial airframes will be converted into E-7A Wedgetail prototypes for the U.S. Air Force. The ...<|control11|><|separator|>
[60]
USAF Considers FY 2027 EMD for Wedgetail Upgrades, Including ...
Apr 17, 2025 · The US Air Force is considering starting engineering and manufacturing development (EMD) in fiscal 2027 for upgrades to the Boeing E-7A Wedgetail.
[61]
UK's homeless MESA radars to be delivered in summer 2025
Jan 29, 2025 · Manufactured by Northrop Grumman in the United States, the MESA radar is the lead sensor of the UK's future E-7 AEW&C fleet, which will number ...