SDRLAB 122-16 External clock is based on the SDRlab 122-16 model that is modified to be used with an external clock oscillator, which is important specifically for RF application that operate at other frequencies, require better clock or clock synchronization.
With this modification, users can provide their own clock for the Red Pitaya device through the E2 extension connector.
CAUTION: This board needs an external clock signal 122.88MHz in order to function !
Key features:
– Credit-card-sized RF signal acquisition and generation platform
– Dual-Core ARM Cortex-A9 MPCore AMD Xilinx ZYNQ 7020 SoC (CPU & FPGA)
– FPGA and CPU integration for enhanced performance
– Open-source design for customization and flexibility
– Ethernet connectivity
– Configurable units of measurement for seamless integration
– Ideal for creating SDR transceivers
– Innovative lab tool for various applications
– Two simultaneous fast analog inputs and two outputs
– Possibility of integration into own system/product
– Open-source software code
– Works with Linux, Windows PC, Android, IOS, basically anything with a web browser
– Free web apps (oscilloscope & signal generator, spectrum, logic analyzer, SDR, VNA)
– Can be controlled remotely using C, LabVIEW, MATLAB, Python, or Scilab
– Can be programmed to meet custom needs
Applications:
– Software-defined radio
– Reverse beacon network (RBN)
– Skimmer server
– Communications
– Diversity radio systems
– RF HF applications
– Space and military RF applications
– FFT analysis and signal measurement
– Environmental electromagnetic measurements
– Universal test platform for RF prototyping
What is in the box
– Red Pitaya SDRlab 122-16 digitizer board
– SD card (16GB, class 10)
– Ethernet cable (1m)
– Power supply (5V, 2A)
Coming soon
COMPLIANCE CE, FCC
1 YEAR WARRANTY
30 DAY RETURN POLICY
NETWORK CONNECTIVITY
Hi,
is a cable with an SMA connector supplied to feed the clock signal?
All the best,
Karsten
Hi Karsten!
The clock is supplied through the E2 extension connector, and there are no additional cables supplied. You can find more information in our documentation here: https://bit.ly/3YumM5f.