The progression of Automated Guided Vehicles (AGVs) and robotics demands highly reliable, precise, and robust power and motion solutions. At Redler Technologies, we specialize in delivering solid-state power distribution and motion control systems tailored to the specific needs of these advanced industries.
Our focus is on providing unmatched reliability, and consistent performance that supports the demanding requirements of autonomous systems, ensuring your operations run smoothly and without interruption, no matter the environment or complexity.
Connect with one of our experts to explore how our advanced motion and power solutions can be precisely tailored to meet your project’s unique requirements.
Lets discuss how we can support your mission with unmatched expertise and commitment.
We understand that different projects have unique requirements.
That’s why we offer three flexible approaches to product development:
Our solutions are optimized for deployment in a variety of telecom environments:
Redler Technologies is committed to delivering high-performance power and motion solutions that meet the rigorous demands of AGV and robotics professionals. Our products enable you to focus on innovation and operational excellence without compromising reliability or precision.
In collaboration with a leading defense contractor, Redler Technologies developed a custom power management system for an autonomous ground vehicle designed for high-risk areas. The solution provided enhanced power stability and efficient energy distribution, enabling the vehicle to perform extended operations with minimal maintenance.
Redler delivered motor controllers for a fleet of armored combat vehicles, enabling precise control in rugged environments. The controllers underwent rigorous testing to ensure peak performance under extreme temperatures and vibrations, ensuring mission reliability
For a military client in need of superior stabilization technology for tactical drones, Redler’s motor control systems provided the solution. Our technology allowed for smooth, responsive control, enhancing both safety and operational precision in mission-critical scenarios.