Everything you need for advanced research
YTTEK’s academic solutions integrate a flexible SDR platform with a wide frequency range from 10 MHz to 15 GHz, seamlessly connected to mmWave front-ends, up/down converters, and liquid-crystal RIS via our exclusive DCI interface—enabling cost-effective development and testing for B5G, 6G, and satellite communications.
Highly flexible, SDR architecture
At the heart of every YTTEK solution is a highly flexible SDR architecture. Powered by FPGA, our SDR platforms deliver real-time reconfigurability and seamless integration—helping innovators to adapt to evolving communication standards without hardware changes.
Cost-effective integration
YTTEK’s academic solutions feature an exclusive DCI interface, enabling seamless, cost-effective integration of SDR, mmWave front-end module (FEM), up/down converters(UDC), and RIS – eliminating extra hardware and reducing deployment complexity.
Flexible architecture
Detachable antenna
Replaceable antenna modules to fit various test needs.
Multiple options
Choose between configurable FEM with UDC integrated or standalone UDC options.
Flexible bandwidth
SDR platform series offers 56, 100, or 400 MHz bandwidth options for diverse research needs.
High system integration
Academic and research deployment architecture
Customer testimonial
We wanted it easy, real-time — YTTEK delivered!
“The YTTEK SDR platform makes research so much easier. I can directly use existing MATLAB code without learning new programming languages. Its near real-time performance helps students grasp theory through practice.”
With YTTEK, communication becomes something students can see, build, and truly feel—not just theory in a textbook.
“The beauty of PluSDR is its ease of use. Even beginners and students can get started quickly, which significantly reduces the time I need to spend on training,”
YTTEK helps me tackle the complex verification challenges of real-world signal environments.
“PluSDR empowers my research in signal processing, target tracking, and intelligent antenna tuning effectively”
PluSDR allows me to validate my code seamlessly without modifications, saving significant time and letting me focus on my research.
“Past simulation codes in Python, Matlab, or C/C++ could be effortlessly reused, significantly reducing development time.”
Related products
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
FlexBeam mmWave Module
• Detachable antenna module for flexible antenna swapping
• Highly integrated FEM with embedded UDC & beamformer
• Dual arrays with independent RHCP/LHCP control for real-world simulation
• 6-bit phase resolution achieves precise beamforming
TrueUDC mmWave Up/Down Converter
• Frequency drift under 5 ppb
• Supports 5G mmWave and Ka-band LEO applications
• Wide IF frequency range: 2.6 GHz to 5.8 GHz
• Two-way RF output for dual-polarization antenna arrays
EcoRIS Liquid crystal RIS
• Liquid-crystal RIS with ultra-low 2W power consumption
• Electronically steerable beam at arbitrary angles
• Micro-scale metasurface with 33,154 cells delivers 2× efficiency
• Large surface boosts total gain up to 70 dB for stronger signals
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Our experts are ready to discuss how we can empower your wireless innovations.