Software

Software Defined Radios

Software Defined Radios is a line of low-cost universal platforms for developing software-defined radio systems and rapid prototyping of software-defined radio systems ( SDR – Software Defined Radio).

Software Defined Radio Capabilities

10 MHz - 6 GHz Frequency range 20 MHz - 160 MHz Bandwidth TCXO/OCXO reference oscillator

Software-defined radios are designed to quickly develop algorithms and connect real radio signals to a computer, which allows you to quickly and efficiently process signals with the ability to use the power of FPGAs to create realistic prototypes of complex modern radio systems.

Opportunities:

Wideband RF inputs/outputs

Powerful FPGA

High-speed bus for connecting to a computer

This architecture is ideal for rapid system prototyping, and is especially popular in R&D applications that value development speed and system flexibility.

Supporting a wide range of development environments on a vast portfolio of high performance RF equipment, software-defined radios are the choice of thousands of engineers, scientists and students around the world for algorithm development, research, prototyping and development of next-generation wireless networks.
A software-defined radio is a reconfigurable RF device that includes a combination of host-based processors, FPGAs (FPGAs), and RF interfaces (RFs).

The SDR platform includes options that range from low cost options with fixed FPGA personas to high performance radios with large open FPGAs and high instantaneous bandwidth. These devices can be used for applications such as multi-input, multiple-output ( multi-antenna systems – MIMO ), LTE/WiFi testbeds, SIGINT and radar systems.

Our software-defined devices combine open source ease of use with UHD driver capabilities, giving engineers access to an ecosystem of software options, from open source to graphical system design.

The GNU Radio software continues to evolve and address more applications, including RF and communications systems design, covering MAC and PHY studies, spectrum monitoring and signal analysis, and wireless sensors and tracking.

What can you do with SDR?

You can do various different things using an SDR as follows:
⦁ Receive broadcast radio
⦁ Amateur radio
⦁ Radio astronomy
⦁ Track ships via AIS transmissions
⦁ Track aircraft via Mode S transmissions
⦁ Set up a DRM transmitter
⦁ Build a GSM network
⦁ Experiment with LTE
⦁ Learn how Global Navigation Satellite Systems work

GNU Radio is a free software development environment that provides signal processing functions for implementing software-defined radios. The framework offers a graphic design approach in addition to support for Python and C++ development. Supported worldwide by the open source community and widely used in government, commercial and academic environments, GNU Radio provides users with access to a diverse set of existing projects focused on wireless research and implementation of real radio systems.

SDR Receiver Pan USB – 1- and 2-channel transceiver models optimized for cost, weight and size. Have USB 3.0 bus for connecting to PC

Pan DDC Receiver – connects to the host computer via an Ethernet connection. The devices of this series are designed for the deployment of large wireless distributed systems

BPF-kit board – expand the capabilities of SDR systems.

SDR Transceiver Pan SDR Pro,SDR Transceiver Pan SDR QRP
– are high-performance multi-channel software-defined radio (SDR) systems for the development and deployment of next-generation wireless systems.