The bladeRF 2.0 micro xA4 is the next generation Software Defined Radio (SDR) that has been packed into a small form factor and was designed for high performance as well as mobile applications. This model of the bladeRF offers a frequency range of 47MHz to 6GHz, 61.44MHz sampling rate, and 2×2 MIMO streaming. Students and RF enthusiasts will find the bladeRF 2.0 micro xA4 an esy to use option to explore wireless communications, hile still providing a powerful waveform development platform expected by industry professionals.
The bladeRF 2.0 micro xA4 has been fitted with a USB 3.0 Superspeed connector and a Cypress FX3 microcontroller providing you with a high speed, low latency board with a powerful ARM9 processor and enough bandwidth to saturate the full duplex 5Gbps USB 3.0 link. An Altera Cyclone V FPGA provides the interface between the FX3 and RF transceiver for the bladeRF. This FPGA has single-cycle access embedded memory, hard 18x18 multipliers for dedicated DSP and many general logic elements ready to be programmed. All four of the RF SMA ports are capable of providing power over bias-tee circuitry to wideband amplifiers and pre-amps. The last major feature that the micro possesses is the AD9361 wideband RF transceiver from Analog devices. This transceiver is made for next generation wireless protocols, capable of handling anything from simple FM audio to the latest 5G LTE standard to whatever the future may hold.
The bladeRF 2.0 micro features support for Linux, macOS, and Windows in addition to GNU Radio via gr-osmosdr, Pothos via SoapySDR, SDRange, SDR Console, SDR# via sdrsharp-bladeRF, YateBTS, OpenAirInterface, srsUE and srsLTE, MathWorks MATLAB® & Simulink® via libbladeRF bindings.
If a board needs code or communicates somehow, you're going to need to know how to program or interface with it. The programming skill is all about communication and code.
Skill Level: Experienced - You will require a firm understanding of programming, the programming toolchain, and may have to make decisions on programming software or language. You may need to decipher a proprietary or specialized communication protocol. A logic analyzer might be necessary.
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If it requires power, you need to know how much, what all the pins do, and how to hook it up. You may need to reference datasheets, schematics, and know the ins and outs of electronics.
Skill Level: Rookie - You may be required to know a bit more about the component, such as orientation, or how to hook it up, in addition to power requirements. You will need to understand polarized components.
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