KULR is building an integrated energy-systems platform for the next generation of autonomous, mobile, and intelligent machines. From space and defense systems to drones, AI data centers, telecom infrastructure, and robotics, these applications share one constraint: they require safe, high-power energy systems engineered to operate where failure is not an option.
KULR ONE combines advanced battery design, battery management, thermal safety, vibration intelligence, and powertrain integration into one scalable power stack — engineered for applications where batteries must deliver high power safely, in compact form factors, under harsh operating conditions.
The durable value is not in any single component. It is in the architecture that integrates cells, pack design, control electronics, thermal management, and safety into system-level performance.
Every battery system, customer program, and mission profile strengthens the platform. The architecture is designed to scale across markets while preserving the same core safety and performance foundation.
KULR systems are engineered for applications where batteries must deliver high power safely, in compact form factors, under harsh operating conditions — thermal extremes, vibration, and mission qualification.
The durable value is the architecture that integrates cells, pack design, control electronics, thermal management, and safety into system-level performance — not any single component.
Every battery system, customer program, and mission profile strengthens the platform. The architecture scales across markets while preserving the same core safety and performance foundation.
A layered architecture from the core outward — battery, management software, thermal and safety engineering, and power electronics. Each layer routes into the products and markets it serves.
This is not just a catalog of products. It is an integrated platform.
The battery, the management software, the thermal and safety engineering, and the power electronics are designed to work as one. Explore the product catalog →
With KULR architecture around it. Battery cell technology continues to advance rapidly — our platform pairs the right cell chemistry with the right application, rather than locking customers into a single chemistry, supplier, or form factor.
The same platform serves different markets because the core engineering problem is shared: physical AI systems need dense, safe power, thermal stability, and reliable controls in environments where downtime is expensive and failure can be unacceptable.
KULR's platform is built on safety engineering developed for some of the most demanding environments — from space systems and defense applications to high-power commercial platforms. Through proven thermal management, battery safety, and NASA-grade propagation-resistance methodology, KULR enables high-power battery systems to operate reliably near people, processors, mission-critical infrastructure, and astronauts.
The value is not just in storing energy — it is in making energy safer, more controlled, and more trusted at the system level.
One integrated platform, applied across the largest opportunities physical AI is creating.