HAMR hybrid fuel-electric UAV to be developed for tactical ISR missions for the United States Air Force
Hampton, VA – February, 2022 – Advanced Aircraft Company (AAC), a developer of long-endurance hybrid-electric unmanned aircraft systems designed for a wide range of commercial, defense and public safety applications, has been selected by the United States Air Force (USAF) AFWERX program for the development of Small Unmanned Aerial Systems (SUAS) as part of the Small Business Innovation Research (SBIR) program Open Topics 21.2/B Cohort.
AFWERX, in partnership with the Air Force Research Lab (AFRL) and the National Security Innovation Network (NSIN), developed the SBIR Open Topics to increase the efficiency, effectiveness, and transition rate of the SBIR program. Through a competitive awards-based program, the SBIR program enables small businesses to explore their technological potential and provides the incentive to profit from its commercialization.
AAC’s highly versatile HAMR incorporates a multi-rotor configuration with a hybrid fuel-electric propulsion system for extended endurance and multiple, simultaneous payload capabilities.
The HAMR UAS can be optimized for a wide range of defense applications and mission profiles, including long-endurance tactical ISR, perimeter security, search and rescue, and medical supply delivery missions. HAMR UAS also serves as a force multiplier, providing a significant increase in ISR capabilities relative to DoD’s incumbent tactical ISR UAS to better protect our warfighters.
“We are thrilled to be part of the SBIR program Open Topics 21.2/B Cohort and look forward to successful collaboration,” said Bill Fredericks, Founder of AAC. “Our HAMR UAV’s high-performance, efficient propulsion system, rugged aerodynamic airframe, and ease of serviceability in the field make it ideally suited for demanding military operations in the most inhospitable environments.”
The HAMR utilizes a series hybrid fuel-electric propulsion system that incorporates an electronic fuel injected and computer-controlled 35cc single-cylinder piston engine driving an integrated generator producing up to 2000W to power six independent brushless DC electric motors and a backup battery.
HAMR’s capabilities bridge the gap between today’s Group 1 and Group 2 UAS with a flight endurance of up to 3.5 hours – six times longer than a conventional battery-powered multirotor aircraft. Multiple redundant systems, remote in-flight engine starting, and onboard batteries ensure the aircraft can operate with a high margin of safety. In the event of an engine failure or an electric motor failure, the craft can abort, maneuver away, and land safely without further incident.
The systems employ line replaceable units (LRUs), ensuring rapid in the field servicing with minimal training, ensuring minimum operational downtime. A continuous development program lengthens aircraft service life and increases its capabilities as new technologies are integrated over time.
The HAMR’s dual payload bays allow for multiple sensors/devices to be carried simultaneously or for increased fuel capacity. Open modular architecture allows for rapid payload reconfiguration depending on application and mission. Operators can choose from a range of commercially available optical or infrared cameras and LiDAR systems. HAMR can carry standard Group 2 payloads for defense applications, including electro-optical (EO), infrared (IR), laser, and communications systems.
Additionally, the HAMR is highly portable and can be launched within minutes without the need for ground support infrastructure. The system can be disassembled and stored in a single case and easily transported in a conventional civilian or small military vehicle.
About Advanced Aircraft Company
Advanced Aircraft Company (AAC) is a developer and manufacturer of hybrid electric unmanned aircraft systems for commercial, public safety and defense applications. Utilizing multirotor configurations with gasoline-electric propulsion and aerodynamic airframes, the systems are designed for long-endurance flights with the capability to carry multiple simultaneous sensor payloads. Designed for ISO AS9100 production standards, the systems employ line replaceable components, ensuring rapid servicing in the field with minimum downtime. Open modular architecture allows for mission-specific reconfiguration while a continuous development program lengthens aircraft service life and increases their capabilities as new technologies are integrated over time. AAC systems are highly portable and can be launched in minutes without the need for support infrastructure. All AAC aircraft are NDAA Sec. 848 compliant and built in the USA with qualified traceable parts. AAC is a veteran-owned and operated company founded in 2017 with headquarters in Hampton, Virginia. To learn more, visit www.flyaac.com.
Established in 2017, AFWERX is a product of the U.S. Air Force, directly envisioned by former Secretary of the Air Force Heather Wilson. Her vision of AFWERX — to solve some of the toughest challenges that the Air Force faces through innovation and collaboration amongst our nation’s top subject matter experts. AFWERX serves as a catalyst to unleash new approaches for the warfighter through a growing ecosystem of innovators. AFWERX and the U.S. Air Force are committed to exploring viable solutions and partnerships to further strengthen the Air Force, which could lead to additional prototyping, R&D, and follow-on production contracts.