Back to news

November 1, 2017 | International, Aerospace

Royal Canadian Air Force to buy air-to-air missiles from U.S.

Nov. 1 (UPI) -- The State Department announced Wednesday a possible sale of up to 32 AIM-120D Advanced Medium Range Air-to-Air Missiles to one of America's "Five Eyes" partner, Canada.

Congress was notified of the possible $140 million sale on Tuesday, which includes the 32 AMRAAMs, as well as 18 AMRAAM Captive Air Training Missiles; four AMRAAM Non-Development Item-Airborne Instrumentation Units, two AMRAAM Instrumented Test Vehicles, seven spare AMRAAM guidance units and four spare AMRAAM control sections for use on their F/A-18 aircrafts.

"Included in the sale are containers; storage and preservation; transportation; aircrew and maintenance training; training aids and equipment, spares and repair parts; warranties; weapon system support and test equipment; publications and technical documentation; software development, integration, and support; system integration and testing; U.S. Government and contractor engineering, technical, and logistics support; and other related elements of logistics and program support," the Defense Security Cooperation Agency said in a press release.

The missiles will be used on Royal Canadian Air Force fighter aircraft and are said to contribute to the foreign policy and national security objectives of the U.S. by helping to improve the security of a NATO ally.

DSCA says the sale of armament is required to support the Royal Canadian Air Force fighters to "optimally fulfill" both North American Aerospace Defense and NATO missions. The deal also meets the U.S. Northern Command's goals of combined air operation's interoperability and standardization between Canadian and U.S. forces, according to the press statement.

The State Department assesses that the proposed sale of equipment and support will not alter the basic military balance in the region, in addition to having no adverse impact on U.S. defense readiness as a result of the sale.

Raytheon Missile Systems, out of Tucson, Ariz., will provide the equipment and support for the Royal Canadian Air Force.

https://www.upi.com/Defense-News/2017/11/01/Royal-Canadian-Air-Force-to-buy-air-to-air-missiles-from-US/9601509554420/

On the same subject

  • Industry could wait months for COVID reimbursements from Pentagon

    September 10, 2020 | International, Aerospace, Naval, Land, C4ISR, Security

    Industry could wait months for COVID reimbursements from Pentagon

    By: Aaron Mehta WASHINGTON — As the defense department seeks billions in emergency funding to reimburse industry for costs incurred during the COVID-19 pandemic, the Pentagon's top acquisition official pledged not to rush that money out the door. Speaking at the annual Defense News Conference, Ellen Lord, undersecretary of defense for acquisition and sustainment, said it will likely take five to six months before any reimbursements to industry under the Coronavirus Aid, Relief, and Economic Security (CARES) act will take place as the department seeks a “very data driven approach” to that money. Section 3610 of the CARES act allows firms serving the federal government to seek reimbursement for pandemic-related expenses, but Congress hasn't passed corresponding appropriations. Defense officials have said they need roughly $10 billion, and that without added funding from Congress, the Pentagon would have to dip into modernization and readiness funds. “We believe we need that appropriation to maintain readiness because if we do not get that what we are going to find is we are not going to get the number of units delivered, we are not going to maintain warfighter readiness, we're not going to move forward in modernization,” Lord said. “We would like to take the one-time hit and then see where we go from there.” Should Congress appropriate the requested funds, the Pentagon would issue a request for proposal, with the large primes gathering data from up and down their supply chains before returning with their requests to the Pentagon. That process will likely take two to three months, Lord said. “Then we want to look at all of the proposals at once. It isn't going to be a first-in-first-out and we have to rationalize using the rules we've put in place, what would be reimbursable, and what's not,” she added. “So overall, we think five to six months, in terms of a process.” When the COVID pandemic struck in March, hundreds of defense subcontractors had to close up shop. As of now, only 30 remain shuttered, Lord said, although she acknowledged that the department is keeping a wary eye on the situation. “What we are looking for is whether or not we're maintaining warfighter readiness for our production programs, and then relative to modernization, whether we are hitting key milestones relative to development programs,” she said. “We have seen some slowdowns. We are carefully monitoring, using monthly metrics, where we are.” While the most recent round of quarterly earnings reports from public defense companies did not show a major slowdown from COVID, Lord warned that those reports “in large part don't reflect the hits that were taken by business,” warning of a “delayed response” in terms of the diseases' economic impact on the sector. “I would contend that most of the effects of COVID haven't yet been seen, because most companies gave their employees time off, they stretched out production, paid a lot of people for working 100% when perhaps they were only getting 50% of the hours in and so forth,” she said. “So I think the system has absorbed it up to this point in time. Now when we get to the point where we're having payments and incentive fees and award fees earned, and if we haven't done the deliveries, that's where you're going to see the hit.” https://www.defensenews.com/smr/defense-news-conference/2020/09/09/industry-could-wait-months-for-covid-reimbursements-from-pentagon

  • Essor des missiles hypersoniques : l’impact stratégique

    October 7, 2021 | International, Aerospace

    Essor des missiles hypersoniques : l’impact stratégique

    Le Figaro, qui rappelle que la Corée du Nord a annoncé avoir testé avec succès pour la première fois un planeur « hypersonique », le 28 septembre, revient sur l'impact stratégique de l'essor des armes hypersoniques. L'« hypervélocité », c'est-à-dire la capacité de voler à plus de six fois la vitesse du son, pourrait « bouleverser les équilibres militaires », souligne le quotidien. La Russie a procédé début octobre à deux tirs d'essai de son missile de croisière hypersonique Zircon depuis un sous-marin en immersion. De leur côté, les États-Unis mènent plusieurs projets baptisés C-HGB, ARRW et HAWC. Le 27 septembre, la Darpa, l'agence de recherche de l'armée américaine, annonçait avoir réussi un vol test de son système HAWC. La Chine dispose elle aussi d'un missile de croisière supersonique, le DF-100, et d'un planeur hypersonique, le DF-17, et entend achever l'année prochaine la construction de la soufflerie JF-22, capable de simuler des vols à Mach 30. En France, un vol de démonstration du planeur hypersonique V-MAX, développé par ArianeGroup, est annoncé prochainement. Le Figaro du 7 octobre

  • Four Nations To Be Protected With Lockheed Martins Next Generation Radar

    January 17, 2020 | International, C4ISR

    Four Nations To Be Protected With Lockheed Martins Next Generation Radar

    Moorestown, N.J., January 14, 2020 – Through partnerships with the U.S. Government, Spain, Japan, and Canada, Lockheed Martin's (NYSE: LMT) solid state radar (SSR) technology will provide front-line defense to nations around the world with cutting-edge air and missile defense capabilities. These nations are part of a growing SSR family of 24 platforms, ushering in the next generation of maritime and ground-based advanced radar technology. The basis of SSR is the Long Range Discrimination Radar (LRDR), which the Missile Defense Agency (MDA) selected Lockheed Martin to develop in 2015 with an on-track delivery set for 2020. In 2019 Lockheed Martin's SSR for Aegis Ashore Japan was designated by the United States Government as AN/SPY-7(V)1. What is SSR Technology? SPY-7's core technology is derived from the LRDR program, which has been declared Technical Readiness Level 7 by the U.S. Government. The technology consists of a scalable and modular gallium nitride (GaN) based “subarray” radar building block, providing advanced performance and increased efficiency and reliability to pace ever-evolving threats. As part of its investment into the advancement of SSR, Lockheed Martin built a Solid State Radar Integration Site to conduct detailed testing to prove the maturity of the system and reduce fielding risk. Scaled versions of the LRDR site will be utilized for future radar programs including Aegis Ashore Japan, Canadian Surface Combatant and MDA's Homeland Defense Radar in Hawaii. Solid state offers powerful capabilities to detect, track and engage sophisticated air and missile threats, including the very complicated task of discriminating – or picking out – and countering lethal objects present in enemy ballistic missiles. The Lockheed Martin SSR uses state-of-the art hardware and an innovative software-defined radar architecture to meet current requirements while providing extensibility features to pace evolving threats for decades to come. Its unique maintain-while-operate capability provides very high operational availability and enables continuous 24-hour/7-day week operation. Solid state radar is a multi-mission system providing a wide range of capabilities, from passive situational awareness to integrated air and missile defense solutions. The combined capability and mission flexibility of Lockheed Martin's SSR has gained the attention of new and current users of the Aegis Weapon System, the world's premier air and missile defense combat suite. Meeting the World's Most Demanding Missions While LRDR is the first program to utilize Lockheed Martin's new SSR building blocks, over the past three years Lockheed Martin has consistently been selected in open competitions to equip an additional 24 platforms in four nations. SPY-7 provides several times the performance of traditional SPY-1 radars and the ability to engage multiple targets simultaneously with the latest proven interceptors. Spain's Ministry of Defense stated its preference for Lockheed Martin's technology for its five F-110 class frigates in 2017 and awarded the ship construction order to Navantia in 2019. These ships will host the first-ever S-band variants of the SPY-7 radar for the Spanish Navy. Production will be a collaboration between Lockheed Martin and Spanish company, Indra. When the frigates deploy in 2026 our SPY-7 variant will be integrated as part of the Aegis Weapon System. The frigates will also incorporate the International Aegis Fire Control Loop (IAFCL) integrated with SCOMBA, the national combat system developed by Navantia. Canada's Department of National Defence also selected Lockheed Martin as the naval radar provider for its 15 Canadian Surface Combatant (CSC) ships. Lockheed Martin's IAFCL is integrated with Canada's combat management system, CMS 330, developed by Lockheed Martin Canada for the Royal Canadian Navy's HALIFAX Class ships. The program will make Canada the owner of the world's second largest Aegis fleet, and our SPY-7 radar variant will enable CSC to conduct highly advanced maritime missions for decades to come. Mature, Cost-Effective Systems Ready Now Including LRDR, the 24 Lockheed Martin SSR platforms selected to date represent a total of 91 antennas of varying sizes, collectively composed of over 15,000 subarrays. On LRDR alone, Lockheed Martin has produced an equivalent of eight Aegis shipsets to-date. The U.S. Government's LRDR has a planned service life for decades to come and will be supported and maintained throughout that period. This ensures the U.S. and its allies will have a large and stable base of cost-effective logistics and support for many years in the future. About Lockheed Martin Headquartered in Bethesda, Maryland, Lockheed Martin is a global security and aerospace company that employs approximately 105,000 people worldwide and is principally engaged in the research, design, development, manufacture, integration and sustainment of advanced technology systems, products and services. View source version on Lockheed Martin: https://news.lockheedmartin.com/2020-01-14-Four-Nations-to-Be-Protected-with-Lockheed-Martins-Next-Generation-Radar

All news