Canadian startup, Quaze Technologies, has officially introduced its QU6 wireless power solution at AUSA 2025 in Washington, DC. Designed to help OEMs easily integrate autonomous charging into various environments, QU6 is the first solution of its kind, following earlier demonstrations and testing after its concept debut at DSEI 2023. The company confirms that QU6 works with many popular defense robotics platforms for land, air, and sea applications.

Years of collaboration with industry leaders like Rheinmetall, L3Harris, Galvion, and Vatn Systems have resulted in a flexible, easy-to-integrate design, which allows unmanned systems to be charged reliably. QU6 technology has been tested in challenging settings such as arctic climates, underwater environments, and high-temperature locations, consistently delivering dependable wireless power through its modular, robot-agnostic setup. Its broad compatibility includes drones, underwater vehicles, and ground robots, making it ready for widespread use.

By connecting unmanned systems with continuous power without human intervention, QU6 solves a key challenge in autonomous technology. It can not only power mobile robots, but also remote sensors and battlefield infrastructure automatically. By streamlining integration, QU6 speeds up field deployments, enhancing both operational effectiveness and endurance for autonomous systems.

Quaze Technologies CEO Xavier Bidaut explained, “QU6 pushes the boundaries for unmanned vehicles by offering wireless, remote charging in even the toughest environments, removing the requirement for human interaction. It’s akin to a fuel pump for robotics, providing essential infrastructure so autonomous systems can work independently anywhere. This solution extends power from central locations right into dispersed battle areas, enabling autonomous charging stations for unmanned platforms, sensor networks, and deployed systems. With this capability, QU6 revolutionizes energy distribution in remote or contested environments, establishing itself as a key driver for sustained autonomy.”