PluSDR
Software-Defined Radio Platform
• Covers frequencies from 10 MHz to 15 GHz
• Up to 400 MHz bandwidth
• Intuitive, free example code included
• Applicable to multiple wireless communication standards
Unlock remarkable throughput and flexibility
400 MHz bandwidth, Up to 15 GHz frequency
The YTTEK PluSDR series is a powerful, flexible SDR platform that transforms wireless system development and verification. Covering frequencies up to 15 GHz, it uniquely supports both X-band and Ku-band transceivers in a single unit, as well as BT, Wi-Fi, 5G NR, and LEO/GEO communication. Offering up to 400 MHz of bandwidth for Wi-Fi 7 and 5G FR2, the PluSDR ensures seamless integration of cutting-edge communication technologies.
Accelerated development with intuitive example codes
Integrated with Python, MATLAB, and C++, the PluSDR includes extensive free example code for rapid prototyping – enabling easy configuration as an arbitrary waveform generator, a spectrum analyzer, or even a real-time 5G radio system.
Seamless integration for mmWave testing
The PluSDR series seamlessly integrates the YTTEK’s mmWave FEM for beamforming, beam steering, and beam management research – enabling system innovators to conduct mmWave OTA tests rapidly.
Comprehensive mmWave OTA test capabilities
Entry-level mmWave OTA test
Transforms into a millimeter-wave communication testing system with the integration of the YTTEK’s TrueUDC up/down converter and horn antennas.
Professional mmWave OTA test
Integrates with YTTEK’s mmWave FEM to conduct advanced research on beamforming and beam steering, optimizing mmWave communication.
Reconfigurable intelligent surface(RIS) test
Integrates with the mmWave FEM and RIS to perform characteristic tests.
Production line test
Integrates automated testing software to efficiently validate the DUT (Devices Under Test) on production lines.
PluSDR Series: Specification comparison
Model name |
YTPC400 |
YTPC100 |
YTPC056 |
| Frequency Range | 10 MHz – 15 GHz | 300 MHz – 6 GHz | 70 MHz – 6 GHz |
| Max Bandwidth | 400 MHz per channel | 100 MHz per channel | 56 MHz per channel |
| Number of channels | Max. 2TX, 2RX | Max. 4TX, 4RX | Max. 4TX, 4RX |
| Scalability | N/A | Max. 4 units for 16TX, 16RX | Max. 4 units for 16TX, 16RX |
| RX Gain Range (dB) | 60 | 30 | 60 |
| RX Gain Step (dB) | 0.25 | 0.5 | 1 |
| RX Max. Input Power (dBm) | +10 | +4 | N/A |
| RX Sampling Frequency (MHz) | 31-800, 983.04 | 122.88 | 61.44 |
| TX Power Control Range (dB) | 60 | 40 | 40 |
| TX Power Control Resolution (dB) | 0.25 | 0.25 | 1 |
| TX Sampling Frequency (MHz) | 31-800, 983.04 | 122.88 | 61.44 |
| Software | Python, MATLAB, C/C++ | Python, MATLAB, C/C++ | Python, MATLAB, C/C++ |
| Synchronization | • REF IN (10MHz clock reference input)
• REF OUT (10MHz clock reference output) • TRIG IN |
• Clock reference with external clock and synchronous signal
• TRIG IN |
• Clock reference with external clock and synchronous signal
• TRIG IN |
| Peripherals | • 3.5mm SMA female connectors
• 1 RJ45 (1 GbE) • 1 Type B USB to JTAG |
• 3.5mm SMA female connectors
• 1 RJ45 (1 GbE) • 2 SFP+ ( 2 10GbE) • 1 Type B USB to JTAG |
• 3.5mm SMA female connectors
• 1 RJ45 (1 GbE) • 2 SFP+ ( 2 10GbE) • 1 Type B USB to JTAG |
| Power | 12V | 12V | 12V |
| Dimension (mm) | 315.5 x 366.2 x 75.5 | 327.9 x 318 x 69.4 | 327.9 x 318 x 69.4 |
| Applicable Wireless Communication Standards | Wi-Fi 6, Wi-Fi 6E, Wi-Fi 7, 5G FR1, 5G FR2, 5G FR3, 3GPP NTN, CCSDS, DVB-S2, DVB-S2X | ||
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