• Proven success in real-world space missions
• Ultra-wide frequency support up to 15 GHz, covering X and Ku bands
• Ultra-fast 2.4 Gbps throughput per channel
• 500 Msps RF recording for in-depth signal analysis
• SDR flexibility to adapt to future requirement changes
• Fully CCSDS compliant
HyperSDR is a high-speed, SDR-based satellite transceiver with a proven track record in real-world space missions. Approved by Taiwan Space Agency (TASA), it is a mission-ready solution for LEO satellite communications. With ultra-wide frequency coverage up to 15 GHz and a blazing-fast 2.4 Gbps throughput, HyperSDR delivers the speed, stability, and reliability essential for the most demanding space applications.
Trusted by Taiwan Space Agency (TASA), HyperSDR has successfully received and decoded signals from Taiwan’s FORMOSAT-5 and processed signals from the USA’s Landsat-8 and Landsat-9. Its field-proven performance makes it the reliable choice for mission-critical satellite communications.
Designed for LEO satellites, HyperSDR supports a broad frequency range from 10 MHz to 15 GHz, covering X and Ku bands without extra up/down converters. With dual RF channels and 2.4 Gbps throughput per channel, it delivers high-speed signal transmission, ideal for space science and earth observation missions.
Featuring a 500 Msps RF recorder with up to 600 seconds of recording time, HyperSDR enables detailed signal evaluation, post-processing, and long-duration high-speed data analysis. This makes it an indispensable tool for ground station testing and satellite validation, ensuring seamless real-world integration.
Built on a software-defined radio (SDR) architecture, HyperSDR offers unmatched flexibility, adapting to future requirement changes without hardware modifications. Powered by FPGA and Linux, it delivers programmable capabilities for seamless integration.
RF parameters
| Frequency range | 10 MHz – 15 GHz |
| Bandwidth | 400 MHz |
| No. of RF chains | 2 |
| TX output power | -50 to +10 dBm |
| RX receive power | -50 to +5 dBm |
| Modulations | BPSK, QPSK, OQPSK, 8PSK, 16APSK, 16QAM, 32APSK, 64APSK |
| Maximum baud rate | 400Msps |
| Pulse shaping filter | SRRC, user-defined |
| NRZ type | NRZ-L, NRZ-M, NRZ-S, DNRZ |
Frequency reference
| Ports | 1 INPUT / 1 OUTPUT |
| Frequency | 10 MHz sine |
| Impedance | 50Ω |
Channel coding combination
| Uncoded | Without channel coding |
| Convolutional Code Only
(CCSDS 131.0-B-4, Chaper.3) |
Code rates: 1/2, 2/3, 3/4, 5/6, 7/8 |
| Reed-Solomon Code Only
(CCSDS 131.0-B-4, Chaper.4) |
Code supported code rates: (255,232), (255,239) |
| Interleave depths: I=1,2,3,4,5,8 | |
| Virtual bits: q=015 for (255,232), q=015 for (255,239) | |
| Concatenated CC and RS
(CCSDS 131.0-B-4, Chaper.5) |
Any parameter combination of CC only and RS only |
| Turbo Code
(CCSDS 131.0-B-4, Chaper.6) |
Code rates: 1/3, 1/3, 1/4, 1/6 |
| Information block sizes: k=1784, 3568, 7136, 8920 | |
| Total 16 possible cases of combination of code rate and information block size | |
| LDPC for TF
(CCSDS 131.0-B-4, Chaper.7) |
Basic LDPC code rate: 7136/8160 |
| AR4JA LDPC code rate: 1/2, 2/3, 4/5 | |
| AR4JA LDPC code information block size: 1024, 4096, 16384 | |
| · Total 10 possible cases
· One basic LDPC · Nine AR4JA LDPC combination of code rate and information block size |
|
| LDPC for SMTF
(CCSDS 131.0-B-4, Chaper.8) |
Basic LDPC code rate: 7136/8160 |
| AR4JA LDPC code rate: 1/2, 2/3, 4/5 | |
| AR4JA LDPC code information block size: 1024, 4096, 16384 | |
| · Total 10 possible cases
· One basic LDPC · Nine AR4JA LDPC combinations of code rate and information block size |
