2 août 2019 | International, Aérospatial
By: Jen Judson
WASHINGTON — The U.S. Army has awarded a contract each to Northrop Grumman and Raytheon to build a 50-kilowatt-class laser weapon for Stryker combat vehicles for the Short-Range Air Defense (SHORAD) mission, according to an Aug. 1 statement from the service's Rapid Capabilities and Critical Technologies Office.
The two companies will build their respective directed-energy weapons as subcontractors to Kord Technologies. The Rapid Capabilities and Critical Technologies Office, or RCCTO, entered into a $203 million agreement with Kord under the OTA, or other transaction authority, contracting mechanism that is used to rapidly fund the production of prototypes.
The contract could increase to $490 million for the delivery of four prototypes.
One of the laser weapon systems developed through the OTA could be integrated onto a platoon of four Stryker vehicles in fiscal 2022. But the Army is leaving competition open to any vendors that did not receive an OTA contract to compete using their own internal research and development dollars.
The Army is rapidly developing and fielding Manuever-SHORAD vehicles in response to an urgent need in Europe.
A year ago, the Army chose Leonardo DRS to integrate a mission equipment package that will include Raytheon's Stinger vehicle missile launcher onto a Stryker as its M-SHORAD capability. General Dynamics Land Systems — which produces the Stryker — will be the platform integrator for the system. The final prototypes will be delivered to the service by the first quarter of FY20.
The directed-energy M-SHORAD capability will protect brigade combat teams from unmanned aircraft, helicopters, rockets, artillery and mortars.
“The time is now to get directed energy weapons to the battlefield,” Lt. Gen. L. Neil Thurgood, director of hypersonics, directed energy, space and rapid acquisition, said in a statement. “The Army recognizes the need for directed energy lasers as part of the Army's modernization plan. This is no longer a research effort or a demonstration effort. It is a strategic combat capability, and we are on the right path to get it in soldiers' hands.”
The award marks progress toward the Army's new strategy for accelerating and fielding directed-energy weapons.
The M-SHORAD laser weapon prototypes are part of a technology maturation effort — the Multi-Mission High Energy Laser.
The Army is also building a High Energy Laser Tactical Vehicle Demonstrator. While the laser for the demonstrator will be a 100-kilowatt-class laser on a Family of Medium Tactical Vehicles platform — developed by Dynetics and Lockheed Martin — the service aims to develop 250- to 300-kilowatt-class directed-energy weapons.
More powerful laser weapon systems will allow the services to protect against rockets, artillery, mortars and drones “as well as more stressing threats,” according to the release.
The Army plans to deliver prototypes of approximately that power onto tactical vehicles for the High Energy Laser Indirect Fire Protection Capability to a platoon by FY24.
“By teaming with the other services and our industry partners, we will not only save resources, but exponentially increase the power level and get a better system to soldiers faster,” Thurgood said.
12 août 2024 | International, Naval
COTECMAR and Damen Shipyards Group have signed the contract for technical support and the supply of components for the construction of the PES.
3 septembre 2019 | International, Terrestre
By: Jen Judson WASHINGTON — Dynetics Technical Solutions will be the first to manufacture a set of hypersonic glide body prototypes while Lockheed Martin will serve as the weapon system integrator, according to a U.S. Army announcement. The other transaction authority, or OTA, contract awards mark an important step forward in getting a prototype of the Army's Long Range Hypersonic Weapon, or LRHW — capable of flying at five times the speed of sound — that will launch from a mobile ground platform fielded by fiscal 2023. An OTA is a congressionally mandated contracting mechanism that makes it easier to prototype capabilities. The Army's No. 1 modernization priority is Long-Range Precision Fires, and hypersonic development falls into that category. “Delivering hypersonics to a unit of action will provide a critical combat capability for the Army in support of the National Defense Strategy,” Lt. Gen. L. Neil Thurgood, director of hypersonics, directed energy, space and rapid acquisition, said in an Aug. 30 statement. “With a collaborative effort by our partners in industry and the Department of Defense, we will advance this strategic weapon system and fulfill a critical mission for our nation.” Dynetics, based in Huntsville, Alabama, will get $351.6 million to produce the “first commercially manufactured set of prototype Common-Hypersonic Glide Body (C-HGB) systems,” according to the statement. This means the company will get the first crack at building the C-HGB, but it is likely others will subsequently receive awards to learn how to manufacture the C-HGB developed by the federally funded Sandia National Laboratories in an effort to build up the currently nonexistent hypersonic industrial base in the United States. Dynetics and future award winners will work with the lab to learn how to build the C-HGB. As hypersonic missiles become a reality, industry must relearn how to effectively, efficiently and economically produce them. While companies have developed warheads, glide bodies and other components, there is no industrial base equipped to manufacture hypersonic weapons. By giving multiple companies a chance to learn how to build the glide body, the hope is the process will build that vital industrial base. Lockheed Martin will integrate a launcher that can accommodate the C-HGB onto a mobile truck. That contract is worth $347 million. The OTA awards cover the design, integration and production work that will bring about a series of flight tests starting in 2020, which will lead to a fielding of a prototype LRHW battery, consisting of four trucks, launchers, hypersonic missile rounds and a command and control system. The Army is in charge of producing the LRHW C-HGB as part of a collaboration with the other services. "Dynetics has been developing enabling technologies for many years,” Steve Cook, the company's president, said in a statement. “Our team is pleased the Army saw that our highly-skilled engineers and technicians can bring this technology rapidly and affordably to the warfighter.” DTS will lead “a world-class team for the project, including established and proven defense industry contractors” like General Atomics Electromagnetic Systems, Lockheed Martin and Raytheon. “Each of these companies will bring decades of experience and will join science and technological capabilities to make a modern prototype and eventually become a program of record,” Cook said. General Atomics Electromagnetic Systems will provide cable, electrical and mechanical manufacturing. Lockheed will support the manufacturing, assembly, integration, testing, systems engineering and analysis. And as a principal subcontractor, Raytheon will provide its “extensive experience” in advanced hypersonic technology to build control, actuation and power-conditioning sub-assemblies that control flight, and it will help assemble and test the prototype. Lockheed Martin's integration team also includes Dynetics, which will develop launchers with hydraulics, outriggers, power generation and distribution for the ground platform. Other members of Lockheed's team are Integration Innovation Inc., Verity Integrated Systems, Martinez & Turek, and Penta Research. “We believe our relationships offer the Army unmatched expertise and puts us in the best position to deliver this critical capability to the nation," Eric Scherff, vice president for hypersonic strike programs for Lockheed Martin Space, said in a statement. Lockheed Martin's hypersonic strike contract awards already exceed $2.5 billion. The Army plans to deliver a hypersonic missile and launcher to a unit in the fourth quarter of fiscal 2021. The unit will train for an entire year without live rounds, Thurgood said earlier this month at the Space and Missile Defense Symposium in Huntsville, Alabama. He noted that the canisters the unit will use will be filled with cement to match the weight. The first live-round test will take place in FY22 and will be conducted by a battery led by a captain. https://www.defensenews.com/land/2019/08/30/heres-who-will-build-and-integrate-the-first-hypersonic-weapon-system-prototype
12 octobre 2023 | International, C4ISR
The U.S. Army must close the munitions gap, improve the survivability of tanks and strengthen competencies within the electromagnetic spectrum.