General Atomics Electromagnetic Systems (GA-EMS) announced today it has been awarded a contract modification from the U.S. Army Combat Capabilities Development Command Armaments Center (DEVCOM AC) to further the development and maturation of hypersonic projectiles.
The projectiles will be launched in high G-force and electromagnetic field environments to verify that the projectiles and the gun-hardened guidance and control electronics within them perform as designed to intercept moving airborne targets during live fire events scheduled through the end of 2021.
“This is a critical next step toward the goal of integrating guided projectiles for railgun technologies into the air and missile defense command network, and closing the fire control loop to enable precision engagement and intercept of airborne targets,” stated Scott Forney, president of GA-EMS.
In addition to its on-going efforts to advance railgun weapon systems, GA-EMS has made a significant investment in internal research and development to advance and mature critical gun-hardened guidance electronics, projectile structural components, and mechanical systems. Under this contract modification, GA-EMS will manufacture guided projectiles to undergo test firings from the Navy’s railgun located at the White Sands Missile Range (WSMR) in New Mexico using the Navy’s armature and sabot package.
“We have a successful track record verifying the survivability of our projectiles and establishing in-flight two-way data links, having previously conducted multiple test firing events at Dugway Proving Ground,” said Nick Bucci, vice president of Missile Defense and Space Systems at GA-EMS. “The projectiles for this new round of testing include our fourth generation gun-hardened guidance electronic units and enhanced telemetry components. We are looking forward to verifying the projectiles’ capability to sustain data links, control its trajectory via actuated control surfaces using command guidance, and hit moving airborne targets, all while undergoing incredible G-forces and at hypersonic speeds. For the future battlespace, this will mean greater precision and accuracy to meet and defeat airborne threats.”