Defense Speak Interpreted: Is DARPA Still Around After CHIPS?
Beyond the Board: Orbital High Ground—Why Space Superiority Is Slipping Away
The Government Circuit: Trump’s Trade War Disrupts the Electronics Ecosystem
Lockheed Martin Demonstrates New Layered Missile Defense Integration for U.S. Army
March 29, 2022 | Lockheed MartinEstimated reading time: 1 minute
Lockheed Martin, the Missile Defense Agency (MDA) and the U.S. Army successfully further integrated the PAC-3 Missile Segment Enhancement (MSE) interceptor into the Terminal High Altitude Area Defense (THAAD) Weapon System – resulting in a more tightly integrated, layered missile defense system.
During a test, the THAAD system successfully launched a PAC-3 MSE to intercept a tactical ballistic missile target using proven Hit-to-Kill technology without the support of a Patriot fire unit, yielding greater flexibility for the warfighter. Integration into the THAAD Weapon System allows the PAC-3 MSE to launch earlier, enabling a longer flyout and the full use of the MSE’s kinematic capability.
“This integration is another Lockheed Martin contribution to joint all-domain operations and offers a critical capability in 21st century security that gives the warfighter more options with existing equipment so they can choose the best interceptor for any threat they face,” said Scott Arnold, vice president, Integrated Air & Missile Defense at Lockheed Martin Missiles and Fire Control.
The test also validates the flexibility of our PAC-3 missiles, which have now successfully launched from THAAD, Patriot and the U.S. Army’s Integrated Air and Missile Defense Battle Command System (IBCS) in flight tests.
Several flight tests led to today’s integration of PAC-3 MSE within THAAD. In a 2020 flight test, a PAC-3 MSE intercepted a target using data provided by THAAD. In an earlier test this year, the THAAD Weapon System launched a PAC-3 MSE interceptor against a virtual threat, demonstrating the successful integration of the PAC-3 MSE interceptor into the THAAD system.
THAAD is the only U.S. system designed for endo-and exo-battlespace, using Hit-to-Kill technology to execute its lethal aim-point accuracy to intercept a threat with direct impact.
PAC-3 MSE is an evolution of the battle-proven PAC-3 Cost Reduction Initiative (CRI) and also uses Hit-to-Kill technology to defend against threats through direct body-to-body contact that delivers exponentially more kinetic energy on the target than can be achieved with blast-fragmentation mechanisms.
Share on:
Suggested Items
ESD Alliance Reports Electronic System Design Industry Posts $5.1 Billion in Revenue in Q1 2025
07/16/2025 | SEMIElectronic System Design (ESD) industry revenue increased 12.8% to $5,098.3 million in the first quarter of 2025 from the $4,521.6 million registered in the first quarter of 2024, the ESD Alliance, a SEMI Technology Community, announced in its latest Electronic Design Market Data (EDMD) report.
Japan’s OHISAMA Project Aims to Beam Solar Power from Space This Year
07/14/2025 | I-Connect007 Editorial TeamJapan could be on the cusp of making history with its OHISAMA project in its quest to become the first country to transmit solar power from space to Earth, The Volt reported.
Redwire Announces Addition of the Edge Autonomy Stalker Uncrewed Aerial System to DoD’s Blue List of Approved Drones
07/14/2025 | BUSINESS WIRERedwire Corporation, a global leader in aerospace and defense technology solutions, announced that the Stalker uncrewed aerial system (UAS), developed by Redwire’s wholly owned subsidiary Edge Autonomy, has been granted an Authority to Operate (ATO) and is now on the Defense Innovation Unit (DIU) Blue UAS List.
OSI Systems Receives $34 Million Contract for Cargo and Vehicle Inspection Systems
07/11/2025 | BUSINESS WIREOSI Systems, Inc. announced that its Security division has been awarded a contract worth approximately $34 million by an international customer.
Microchip Expands Space-Qualified FPGA Portfolio with New RT PolarFire® Device Qualifications and SoC Availability
07/10/2025 | MicrochipContinuing to support the evolving needs of space system developers, Microchip Technology has announced two new milestones for its Radiation-Tolerant (RT) PolarFire® technology: MIL-STD-883 Class B and QML Class Q qualification of the RT PolarFire RTPF500ZT FPGA and availability of engineering samples for the RT PolarFire System-on-Chip (SoC) FPGA.