CAVU Aerospace UK Ltd

The CAVU CDH-FS is a state-of-the-art, fully redundant FPGA-based satellite onboard computer system. It’s designed with a backup processor board that seamlessly takes over in case of a primary processor failure, ensuring uninterrupted operation. This redundancy significantly enhances the system’s reliability and safety, a critical feature for space missions.

The OBC-Cube-Polar is a cutting-edge onboard computer specifically designed for Cubesat missions. Leveraging the powerful and reliable Microchip PolarFire SoC FPGA technology, this Cubesat OBC provides exceptional performance and versatility for space applications.

The CAVU OBCM is a state-of-the-art, FPGA-based computing system designed for reliability and efficiency in critical space missions.
It offers smooth operation, scalability, and redundancy.

The CAVU OBC-Cube-104, a cutting-edge Cubesat Onboard Computer, leverages Flash Based SmartFusion2 FPGA technology. This device is a testament to the strides made in space technology, embodying the latest advancements in the field.

The CAVU CDH-1 is a highly reliable and efficient FPGA-based satellite computing system that has been designed with utmost attention to detail. This state-of-the-art system ensures smooth and uninterrupted operation during critical space missions with its flexible architecture that allows for easy scalability and redundancy.

The CAVU OBC-1 is a cutting-edge, FPGA-based satellite computing system that stands as a testament to advancements in space technology.
It’s meticulously designed to ensure reliability and efficiency, making it an indispensable tool for critical space missions.

The EPC-1010 Single Board Computer (SBC) represents a new era in high-performance computing. Designed to meet the demands of advanced applications, this cutting-edge SBC delivers exceptional performance, reliability, and connectivity. Ideal for machine learning, artificial intelligence, and multimedia processing, the EPC-1010 excels in both standard and harsh environments, setting a new benchmark in the industry.

The OBC1-Supervisor enhances the reliability of satellite operations by monitoring two OBC1 onboard computers in a redundant topology. Featuring Flash-based Actel FPGA logic without processors, it ensures seamless switching between active boards in case of malfunctions. With automatic recovery procedures, it provides robust, fault-tolerant performance for critical space missions.