For ground testing, Satlab provides GNU Radio example flowgraphs, enabling engineers to validate radio interfaces before launch. The device's ability to handle both simultaneously makes it a flexible choice for modern satellite missions requiring high-speed data transfer and complex networking.
The is a high-speed, full-duplex S-band transceiver designed for micro- and nano-satellites. Developed by Satlab A/S, this Software Defined Radio (SDR) provides a reliable communication link for telemetry, tracking, and command (TT&C) as well as high-volume payload data downlinks. High-Speed Performance and Flexibility
Features run-time configurable convolutional and Reed-Solomon forward error correction. Application and Integration srs-4 satlab
The Satlab SRS-4 is often paired with passive external antennas and is designed to fit seamlessly into micro-satellite architectures. It uses high-reliability and a milled aluminum enclosure for EMI shielding and thermal management.
The SRS-4 is built on a robust second-generation SDR platform with a high , having demonstrated flight heritage since 2021. For ground testing, Satlab provides GNU Radio example
Weighs approximately 253g , making it ideal for mass-constrained CubeSat missions. Advanced Communication Features
The transceiver is fully upgradable on-orbit , allowing operators to deploy firmware updates or new features after launch. Developed by Satlab A/S, this Software Defined Radio
The SRS-4 represents a significant upgrade over previous generations, offering a variable transmit symbol rate of up to . It is engineered to operate on standard ITU space operations frequencies, facilitating easy integration with various commercial and independent ground station networks. Key Specifications: