Latest updates[?]: The Navy awarded Raytheon a $225.7 million deal for AIM-9X Block II and Block II+ System Improvement Program Increment IV to include hardware and software development to the AIM-9X system as well as test and integration of developed hardware and capabilities. More specifically the hardware development will include updates to the AIM-9X sensor, electronics unit, and guidance unit and the software efforts include the development of the operational flight software versions 10.5 and 11.5 and integrated flight software. Additionally, this contract provides program protection, cyber security, information assurance and training for the AIM-9X system. Work will take place in Arizona, California, Pennsylvania and Utah. Estimated completion will be in September 2027.
AIM-9X test launch, F-18C
(click for close-up)
Raytheon’s AIM-9X Block II would have made Top Gun a very short movie. It’s the USA’s most advanced short range air-air missile, capable of using its datalink, thrust vectoring maneuverability, and advanced imaging infrared seeker to hit targets behind the launching fighter. Unlike previous AIM-9 models, the AIM-9X can even be used against targets on the ground. The 2-way datalink is the most significant single Block II change, as it allows the missile to fly toward targets its seeker can’t yet see, using target position tracking from its fighter. The Block II also has improved seeker lock-on-after-launch vs. the original AIM-9X, a ‘lofting’ fly-out profile the boosts its range, and better all weather laser fusing against small targets.
These changes will help keep it competitive against foreign missiles like MBDA UK’s AIM-132 ASRAAM, RAFAEL of Israel’s Python 5, the multinational German-led IRIS-T, and Russia’s R73/ AA-11 Archer. The end of September 2011 saw the first significant order from the US military for AIM-9X Block II missiles, shortly after successful live fire tests at China Lake, CA. The Lot 12 order followed very soon after, and is no longer an all-USA order.
Latest updates[?]: The Navy awarded Raytheon a $16 million contract modification for sustainment material and support for the AN/SPY-6(V) family of radars. The solid state, fixed-face and rotating SPY-6 variants provide integrated air and missile defense capabilities. Work will take place ein California, Arizona, Massachusetts and Virginia. Expected completion will be by September 2023.
AMDR testbed
The US Navy’s Dual-Band Radar that equips its forthcoming Gerald R. Ford class super-carriers replaces several different radars with a single back-end. Merging Raytheon’s X-band SPY-3 with Lockheed Martin’s S-band VSR allows fewer radar antennas, faster response time, faster adaptation to new situations, one-step upgrades to the radar suite as a whole, and better utilization of the ship’s power, electronics, and bandwidth.
Rather than using that existing Dual-Band Radar design in new surface combatant ships, however, the “Air and Missile Defense Radar” (AMDR) aims to fulfill DG-51 Flight III destroyer needs through a new competition for a similar dual-band radar. It could end up being a big deal for the winning radar manufacturer, and for the fleet. If, and only if, the technical, power, and weight challenges can be mastered at an affordable price.
Latest updates[?]: The US Army’s Program Executive Office Missiles and Space has issued a Request For Information (RFI) for the Close Combat Missile System-Heavy (CCMS-H). The CCMS-H is to replace the existing BGM-71 TOW anti-tank missile. The new missile must be able to destroy Tier 1 armored threats and field fortifications. It must have dual command guidance such as Fire and Forget, Command-Line of Sight, or Semi-Active Laser homing while incorporating reprogrammable target prioritization capability. The Army intends to store the CCMS-H for up to ten years and the missile must be ready to be fired at any time.
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TOW family
Despite modernization that has led to advanced anti-armor weapons like the Javelin and Hellfire fire and forget guided missiles, the wire-guided, operator-controlled BGM-71 TOW missile family remains a mainstay thanks to modernization, specialization, improved sighting systems, and pre-existing compatibility with a wide range of ground vehicles. TOW remains the US Army and Marine Corps’ primary heavy anti-tank/ precision assault weapon deployed on more than 4,000 TOW launch platforms including HMMWV jeeps, the Army’s M1134 Stryker ATGM variant and M2/M3 Bradley IFVs; the Marines’ LAV-AT wheeled APC and SuperCobra attack helicopters; and numerous foreign vehicles. Designation Systems notes that more than 620,000 BGM-71 missiles of all versions had been built for all customers by 2001.
Raytheon Co. in Tucson, AZ was recently awarded a pair of contracts that illustrate its continued production and maintenance work on these missiles.
Latest updates[?]: Raytheon Lockheed Martin Javelin JV won a $311.2 million modification for full-rate production of Javelins. Work will take place in Arizona. Estimated completion date is November 30, 2026. Fiscal 2022 Foreign Military Sales (Jordan and Lithuania) funds and Army procurement appropriations funds in the amount of $311,171,700 were obligated at the time of the award.
Javelin, firing
The FGM-148 Javelin missile system aimed to solve 2 key problems experienced by American forces. One was a series of disastrous experiences in Vietnam, trying to use 66mm M72 LAW rockets against old Soviet tanks. A number of replacement options like the Mk 153 SMAW and the AT4/M136 spun out of that effort in the 1980s, but it wasn’t until electronics had miniaturized for several more cycles that it became possible to solve the next big problem: the need for soldiers to remain exposed to enemy fire while guiding anti-tank missiles to their targets.
Javelin solves both of those problems at once, offering a heavy fire-and-forget missile that will reliably destroy any enemy armored vehicle, and many fortifications as well. While armored threats are less pressing these days, the need to destroy fortified outposts and rooms in buildings remains. Indeed, one of the lessons from both sides of the 2006 war in Lebanon has been the infantry’s use of guided missiles as a form of precision artillery fire. Javelin isn’t an ideal candidate for that latter role, due to its high cost-per-unit; nevertheless, it has often been used this way. Its performance in Iraq has revealed a clear niche on both low and high intensity battlefields, and led to rising popularity with American and international clients.
Latest updates[?]: Bloomberg says Germany has selected the Israeli Arrow 3 over THAAD for its ballistic missile defense program. Chancellor Olaf Scholz met Israeli Prime Minister Yair Lapid in Berlin on September 12 and both spoke positively on a potential deal in a press conference later that day.
Arrow test concept
In a dawning age of rogue states, ballistic missile defenses are steadily become a widely accepted necessity. Iran is widely believed to be developing nuclear capabilities, and Israeli concerns were heightened after Iranian President Mahmoud Ahmadinejad urged that Israel be “wiped off the map” (the fact that America was also placed in that category went largely uncovered).
Because missile defenses are so important, states like India and Israel have taken steps to ensure that they have the ability to build many of the key pieces. The Arrow project is a collaboration between Boeing and IAI to produce the missile interceptors that accompany the required radars, satellites, command and control systems.
NOTE: Article capped and coverage suspended in 2011.
Latest updates[?]: Austal USA won a $11.4 million contract modification to exercise an option for littoral combat ship (LCS) industrial post-delivery availability support for USS Augusta (LCS 34). The LCS main purpose is to take up operations such as patrolling, port visits, anti-piracy, and partnership-building exercises to free up high-end surface combatants for increased combat availability. Work will take place in Alabama and Massachusetts. Expected completion will be by September 2023.
Austal Team
Trimaran LCS Design
(click to enlarge)
Exploit simplicity, numbers, the pace of technology development in electronics and robotics, and fast reconfiguration. That was the US Navy’s idea for the low-end backbone of its future surface combatant fleet. Inspired by successful experiments like Denmark’s Standard Flex ships, the US Navy’s $35+ billion “Littoral Combat Ship” program was intended to create a new generation of affordable surface combatants that could operate in dangerous shallow and near-shore environments, while remaining affordable and capable throughout their lifetimes.
It hasn’t worked that way. In practice, the Navy hasn’t been able to reconcile what they wanted with the capabilities needed to perform primary naval missions, or with what could be delivered for the sums available. The LCS program has changed its fundamental acquisition plan 4 times since 2005, and canceled contracts with both competing teams during this period, without escaping any of its fundamental issues. Now, the program looks set to end early. This public-access FOCUS article offer a wealth of research material, alongside looks at the LCS program’s designs, industry teams procurement plans, military controversies, budgets and contracts.
Latest updates[?]: The US Navy has carried out a demonstration of the MQ-8C Expeditionary Advanced Base Operations (EABO) concept during Exercise Resolute Hunter. The exercise took place at San Clemente Island from June 21 to July 1. HSC-23 flew the unmanned rotorcraft for 23 hours during this period. It had taken off from Point Mugu and flown to San Clemente before control was handed over to a Portable Mission Control Station (MCS-P) deployed there. “Fire Scout is the Navy’s only unmanned helicopter with the ability to deploy from a ship or land with ISR&T at the extended range required for future warfighting,” said Capt. Dennis Monagle, Fire Scout program manager.
MQ-8B Fire Scout
A helicopter UAV is very handy for naval ships, and for armies who can’t always depend on runways. The USA’s RQ/MQ-8 Fire Scout Unmanned Aerial Vehicle has blazed a trail of firsts in this area, but its history is best described as “colorful.” The program was begun by the US Navy, canceled, adopted by the US Army, revived by the Navy, then canceled by the Army. Leaving it back in the hands of the US Navy. Though the Army is thinking about joining again, and the base platform is changing.
The question is, can the MQ-8 leverage its size, first-mover contract opportunity, and “good enough” performance into a secure future with the US Navy – and beyond? DID describes these new VTUAV platforms, clarifies the program’s structure and colorful history, lists all related contracts and events, and offers related research materials.
Latest updates[?]: The US Air Force announced on April 26 that it had selected the Boeing E-7 Wedgetail to replace its Boeing E-3 Sentry Airborne Warning and Control System (AWACS) aircraft. The USAF plans to award a contract in fiscal year 2023 and requested $227 million in research, development, test, and evaluation funds for the programme starting in its FY 2023 budget.
E-7A Wedgetail
over New South Wales
The island continent of Australia faces a number of unique security challenges that stem from its geography. The continent may be separated from its neighbors by large expanses of ocean, but it also resides within a potential arc of instability, and has a number of important offshore resource sites to protect. Full awareness of what is going on around them, and the ability to push that awareness well offshore, are critical security requirements.
“Project Wedgetail” had 3 finalists, and the winner was a new variant of Boeing’s 737-700, fitted with an MESA (multirole electronically scanned array) radar from Northrop Grumman. That radar exchanges the traditional AWACS rotating dome for the E-7A’s “top hat” stationary antenna. That design, and the project as a whole, have run into severe turbulence, creating problems for Boeing earnings, the ADF, and other export orders for the type. DID’s FOCUS articles offer in-depth, updated looks at significant military programs of record. This one covers contracts, events, and key milestones within Australia’s E-7A program, from inception to the current day.
LPD-17 San Antonio class amphibious assault support vessels are just entering service with the US Navy, and 11 ships of this class are eventually slated to replace up to 41 previous ships. Much like their smaller predecessors, their mission is to embark, transport, land, and support elements of a US Marine Corps Landing Force. The difference is found in these ships’ size, their cost, and the capabilities and technologies used to perform those missions. Among other additions, this new ship is designed to operate the Marines’ new MV-22 Osprey tilt-rotor aircraft, alongside the standard well decks for hovercraft and amphibious armored personnel carriers.
While its design incorporates notable advances, the number of serious issues encountered in this ship class have been much higher than usual, and more extensive. The New Orleans shipyard to which most of this contract was assigned appears to be part of the problem. Initial ships have been criticized, often, for sub-standard workmanship, and it took 2 1/2 years after the initial ship of class was delivered before any of them could be sent on an operational cruise. Whereupon the USS San Antonio promptly found itself laid up Bahrain, due to oil leaks. It hasn’t been the only ship of its class hurt by serious mechanical issues. Meanwhile, costs are almost twice the originally promised amounts, reaching over $1.6 billion per ship – 2 to 3 times as much as many foreign LPDs like the Rotterdam Class, and more than 10 times as much as Singapore’s 6,600 ton Endurance Class LPD. This article covers the LPD-17 San Antonio Class program, including its technologies, its problems, and ongoing contracts and events.
Latest updates[?]: Raytheon Intelligence & Space has introduced a lightweight, affordable AESA radar in its lightest form factor ever. In addition to being a third of the weight of most modern AESA radars, the new compact radar also costs about half as much as typical fire control radars. Gallium Nitride technology is combined with an innovative packaging of its digital receiver/exciter and processor called CHIRP, and a unique air-cooled design.
AN/APG-79 AESA Radar
The AN/APG-79 Active Electronically Scanned Array (AESA) radar began life as a replacement. Initial F/A-18 E/F Super Hornet production batches installed Raytheon’s all-weather, multimode AN/APG-73, but the APG-79 has intrinsic technical features that offered revolutionary increases in capability, reliability, image resolution, and range.
Unlike the APG-73 that equipped the first Super Hornets, the APG-79’s AESA array is composed of numerous solid-state transmit and receive modules that are fixed in place, eliminating a common cause of breakdowns. To move their beams, they rely on electronic changes in each module’s transmissions, creating useful interference patterns in order to aim, focus and shape their output. Other system components include an advanced receiver/exciter, ruggedized commercial-off-the-shelf (COTS) processor, and power supplies. With its open systems architecture and compact COTS parts, it changes what both aircrews and maintenance staff can do with a fighter radar – and does so in a smaller, lighter package.
