The Engines of Progress
ON-BOARD DATA
HANDLING (OBDH)
The Mission-Critical Brain of Your Satellite
At Space Inventor, we know that data is the currency of your mission. Through our deep vertical integration and in-house manufacturing capabilities, we offer flight-proven On-Board Data Handling (OBDH) solutions that put you in absolute control.
Built upon our philosophy of Flexible Modularity, our OBDH architecture uses standardized, highly reliable components and subsystems to create bespoke satellite solutions. Because we design and manufacture these systems under one roof, we can adapt our technology to your specific requirements with unmatched speed, delivering a custom fit without the custom lead time.
ENGINEERING FOR THE EXTREMES
Our OBDH systems are engineered to flawlessly manage satellite operations, attitude control, and complex payload data. Whether you are flying a standard CubeSat or a larger, high-performance mission, our avionics are built to survive and thrive in the harsh environment of space.
Our solutions are rigorously designed to meet the most stringent spaceflight requirements, ensuring:
UNCOMPROMISING RESILIENCE
High radiation tolerance, reliability, availability, and safety across all systems.
SECURE COMMUNICATIONS
Advanced protocol security for both on-board networks and space-to-ground data links.
COMPREHENSIVE AVIONICS INTEGRATION
Seamless management of key building blocks, including platform mass memories, remote terminal units, on-board buses, and data networks.
FLAWLESS PAYLOAD INTERFACING
Optimized connections between your unique on-board payloads and the core avionics platform.
FEATURED OBDH SOLUTIONS
OBC-P4: REDUNDANCY FOR MISSION-CRITICAL OPERATIONS
The OBC-P4 is an advanced onboard computing platform designed for maximum reliability. It consists of four independent ARM Cortex-M7 modules, each equipped with its own separate power supply, interfacing, and storage.
The Advantage:
This dual architecture makes the OBC-P4 the premier choice for hot/cold redundancy solutions. It is specifically designed to safeguard mission-critical subsystems, such as Telemetry & Command (T&C), Guidance, Navigation & Control (GNC), or the management of high-value payloads. This ensures your mission survives even the most unpredictable single-event upsets
Z7000: HIGH-PERFORMANCE PAYLOAD COMPUTING
When your mission requires intensive, edge-computing power in orbit, the Z7000 delivers. This powerful System on a Chip (SoC) payload computer is built to handle massive data loads effortlessly.
The Advantage:
The Z7000 is driven by a dual-core ARM Cortex-A9 MP-Core™ with NEON™ SIMD. Paired with integrated FPGA logic featuring 125K programmable cells, it provides the versatile, high-speed processing capability required for advanced Earth observation, defense intelligence, and complex scientific data analysis.
