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Space-Ready Orbital Systems Enhance Capabilities in Space

Aitech Systems has introduced enhanced space-rated system architectures designed to streamline satellite bus, subsystem, and payload integration while reducing development costs By Sarah Simpson / 05 Nov 2024
Space-Ready Orbital Systems Enhance Capabilities in Space
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Aitech Systems, a leading provider of rugged boards and system level solutions for military, aerospace and space applications, has expanded its space-rated unified system architectures to meet the growing demands for shorter development times and lower costs among satellite busses, subsystems, and payloads.

Space-ready systems with high computing and connectivity performance are fueling the future of space exploration, Aitech harnesses the power of scalable, versatile interconnects and open standards-based computing using COTS, to provide reliability within space electronic systems in critical areas including Earth observation, computation and data handling, and communication.

Using a Space Digital Backbone (DBB) approach, which provides a flexible, scalable communication pathway for the increasing number of IoT (Internet of Things) technologies being implemented into space missions, the company provides selection of space-rated subsystems for common space platforms:

Earth Observation: Integrated and qualified hardware and software along with the engineering analysis of commercial off-the-shelf (COTS) space-ready systems enable improved reliability, real-time data processing, high resolution imagery, and rapid situational awareness for space superiority.

Communication: The space DBB enables seamless integration and high-speed reliable, secure connectivity between internal/external communications systems, cameras, local edge computing, and shared storage elements throughout all levels of orbit.

Communications, Computation & Data Handling (CCD&H): To empower payload sharing and interface satellite buses, as well as satellite swarm, constellation positional, and mission management, I/O boards are used to dedicate multiple high-speed data streams and provide high-capacity memory to reduce latency.

Power Control: In order to achieve the high reliability needed for mission critical systems, power control subsystems are added to subsystem controllers to limit the ultimate output power and the power on/off switching times to prevent transients from coupling to the system backplane.

Robotics: Provides power and signal to control a motor or servo device to enable autonomy and improved decision-making across space applications for higher adaptability in rugged conditions.

Ralph Grundler, Director of Space Business Development and Space R&D, at Aitech, commented, “Accelerated timelines in space innovations have led to the transition from custom space-qualified systems that require extensive design, testing, and qualification processes to economical COTS technologies without sacrificing key performance indicators of radiation tolerance, reliability, spaceflight pedigree, and risk management.

Commercial space companies are seeking space-ready orbital systems with computational, input/output, and communication functionality to control specific satellite functions such as image data processing, communications, and navigation.

For over 30 years, Aitech has been an industry leader in the provision of space-ready orbital system applications across various programs and missions, including the Multi-User System for Earth Sensing (MUSES), a commercial Earth observation platform on the ISS, to more recently providing a complete system CC&DH flight computers and peripherals for successful orbit.

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