Robot, Lawn Mower, and Feeding Robot

Low-power AMR

Voltraware's cutting-edge IC solutions support low-power AMRs by providing efficient, wireless charging that keeps robots operational with minimal interruptions. Our technology ensures continuous power availability, enhancing productivity and reducing the need for manual recharging, making it ideal for automated environments.

Applications

Revolutionizing Autonomous Mobile Robots with Mid-Range Wireless Charging

As automation advances, mid-range wireless charging is transforming how we power low-power Autonomous Mobile Robots (AMRs) such as service robots, lawn mowers, and feeding robots. This innovative technology allows these essential devices to operate fully autonomous 24/7, even in challenging environments, enhancing both safety and productivity. The technology eliminates the need for physical connections, enabling seamless and hands-free charging. This continuous power supply ensures that AMRs remain operational without interruption, effectively reducing downtime and increasing overall productivity. Additionally, the system's robust design is built to perform reliably under harsh conditions, ensuring consistent functionality across diverse environments.

24/7 Fully Automated Operation

Ensures uninterrupted functionality of service robots, lawn mowers, and feeding robots, reducing the need for human involvement.

Increased Productivity

Minimizes downtime through seamless charging, enabling AMRs to work more efficiently and effectively.

Enhanced Safety

Lowers the risk of electrical and mechanical issues compared to traditional charging methods, providing a safer operational environment.

Adaptability to Harsh Environments

Operates reliably in challenging conditions, ensuring consistent performance and durability.

Streamlined Management

Simplifies AMR management by eliminating physical charging connections, enhancing system efficiency and user convenience.

Mid-range wireless charging also improves safety by minimizing the risks associated with traditional wired methods, such as electrical hazards and mechanical failures. With this technology, AMRs can perform their tasks—whether it’s lawn maintenance, industrial assistance, or livestock feeding—without requiring frequent manual intervention.

Incorporating this charging solution into AMR operations simplifies their management, enhances reliability, and boosts efficiency. It marks a significant step toward a more sustainable and streamlined future, where essential autonomous tools operate continuously with minimal human oversight.