NEW XC7A100T+AD9361 70MHz-6GHz 2R2T B210 Mini Software Defined Radio board SDR LibreSDR Support UHD pluto OAI Replace Hack
NEW XC7A100T+AD9361 70MHz-6GHz 2R2T B210 Mini Software Defined Radio board SDR LibreSDR Support UHD pluto OAI Replace Hack
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File download:
https://www.adrive.com/public/jgBGxa/USRP%20b210mini%20lv.zip
https://www.adrive.com/public/dpPk4a/B210mini%20LV%20%20vivado%202024.1.zip
Fully compatible with B210
1. Full compatibility with B210 on Windows and Linux(simply replace a bin file, provide automatic replacement script on Linux, and provide replacement directories for various tools on Windows)
2. Matlab, Gnuridio, SDAngel, OAI testing are fully compatible
3. The use of Xilinx Artix7 series FPGA reduces power consumption by 7A100T, which has more abundant resources. Both 7A100T and 7A200T are fully compatible with B210, but the FPGA logic scale is different.
4. Supports external clock taming, PPS/10M reference frequency synchronization, and PPS phase synchronization
5. Adopting USB 3.0 TypeC interface
6. The output PA has been replaced with the ADI model (using 5V power supply to convert the energy lost by the original 3.3V PA on the LDO)
Main technical indicators
1. Frequency range: 70MHz~6GHz
2. Maximum sampling rate 61.44MHz
3. Supports up to 2R2T for transmission and reception, with AD/DA quantization bits of 12 bits
3. The transmission power shows significant attenuation above 5GHz, with a maximum of around 2dBm at 6GHz, 15dBm at 1GHz, and greater than 10dBm at 2.4GHz.
4. OAI testing uses commercial UE in the N78 frequency band, with a range of around 125M for downstream and 24M for upstream
Good helper for learning and scientific research\
1. Combining Matlab for algorithm validation
2. Use SDAngel, SDR #, etc. to listen to radios, receive ADS-B, AIS DVB-T, and increase interest
3. Using Gnuraido for spectrum detection or vector signal generation
4. Using UHD programming interface to complete the development of product functions
5. Conduct mobile communication experiments using OAI and SRSRAN
Working Principle:
- AD9361 is a highly integrated RF transceiver chip launched by Analog Devices (ADI), supporting 2X2MIMO applications. The transmission or reception of I/Q data is reprocessed by the DSP implemented by FPGA and sent to the host or AD9361. The FPGA also converts the data format, packages I/Q data frames, and communicates with the UHD driver running on the host through the USB3.0 bus.
Features:
- B210mini supports dual channel simultaneous reception and transmission, i.e. 2X2MIMO support.
- MIMO (Multiple Input, Multiple Output) is a wireless communication technology that uses multiple antennas to simultaneously transmit and receive data, improve data rate, system capacity, resist interference and fading, expand coverage, and achieve spatial multiplexing. It is suitable for mobile communication fields such as LTE, WiFi, 5G, etc.
- The integration of 0.5PPM VCTCXO on the board can achieve GPS signal simulation and 4G/5G base station experiments without the need for expensive GPSDO clock sources.
- Equipped with a built-in clock PLL, it facilitates the input of external 10MHz and 1PPS synchronization signals.
- Tune within the frequency range of 50MHz to 6GHz, with a maximum real-time processing bandwidth of 56MHz signal.
- USB 3.0 high-speed interface.
- The onboard Artix-7 100T FPGA 100000 Logic Cells support personalized development.
Base Band Performance:
- ADC sampling rate (maximum): 61.44MS/s
- ADC resolution: 12bits
- ADC SFDR: 78dBc
- DAC sampling rate (maximum): 61.44MS/s
- DAC resolution: 12bits
Clock Performance:
- Clock frequency precision: +/-0.5ppm
- External clock interface (1th IPEX): 1
- 1PPS interface (1th IPEX): 1
RF Performance:
- Output power: >10dBm
- IIP3 (at typ NF): -20dBm
- Receive Noise Figure: <8dB
Other Specification:
- Power consumption (maximum): 2800mW
- USB3.0 Micro-B: 1
- Product size: 89.5 x 63mm
- Motherboard net weight: 50g
For Linux System Apps:
- For GNU Radio is an open-source software toolkit that focuses on the design and implementation of Software Defined Radio (SDR) systems. Through graphical interfaces or Python programming, users can build flexible communication systems covering a wide range of application areas, such as broadcasting, satellite communication, and radar. GNU Radio supports various SDR hardware platforms, including B210mini and HackRF. Providing rich signal processing modules, it is a powerful tool for researchers, students, and radio enthusiasts. As an open source project, GNU Radio encourages community collaboration and innovation, providing support for experimentation and development in the field of wireless communication.
- For MATLAB is a powerful scientific computing software widely used in wireless communication research. Its SDR toolbox provides functions and tools for designing and simulating software defined radio systems, supporting various communication standards and hardware platforms.
- For Open5GS is an open-source 5G core network implementation that supports 4G/5G NSA and 5G SA core network functionality.
- For SDRangel (Software Defined Radio Angel) is an open-source software defined radio (SDR) application designed to provide a wide range of radio signal processing capabilities. This software allows users to use general-purpose hardware such as RTL-SDR, HackRF, B210mini, etc. to transform computers into powerful software defined radio receivers and transmitters.
For Windows System Apps:
- For SoapySDR is an open-source software defined radio (SDR) device support library developed by Pothosware, providing a unified API that allows developers to easily interact with SDR hardware from different vendors. Supporting multiple devices, running across platforms, with plugin architecture and multi-channel support. Simplified the development and maintenance of SDR applications, allowing for dynamic loading of new device plugins, and providing real-time spectrum analysis and management tools.
- For LabVIEW is a powerful graphical programming tool that can be used for Software Defined Radio (SDR) applications. Its intuitive interface and modular design enable engineers to easily develop and integrate SDR applications, thereby processing radio signals more flexibly.
- For Matlab and SDRangel can both run on Windows systems.
Package Included:
- 1 x 7A100T AD9363 Motherboard
Description
Description
File download:
https://www.adrive.com/public/jgBGxa/USRP%20b210mini%20lv.zip
https://www.adrive.com/public/dpPk4a/B210mini%20LV%20%20vivado%202024.1.zip
Fully compatible with B210
1. Full compatibility with B210 on Windows and Linux(simply replace a bin file, provide automatic replacement script on Linux, and provide replacement directories for various tools on Windows)
2. Matlab, Gnuridio, SDAngel, OAI testing are fully compatible
3. The use of Xilinx Artix7 series FPGA reduces power consumption by 7A100T, which has more abundant resources. Both 7A100T and 7A200T are fully compatible with B210, but the FPGA logic scale is different.
4. Supports external clock taming, PPS/10M reference frequency synchronization, and PPS phase synchronization
5. Adopting USB 3.0 TypeC interface
6. The output PA has been replaced with the ADI model (using 5V power supply to convert the energy lost by the original 3.3V PA on the LDO)
Main technical indicators
1. Frequency range: 70MHz~6GHz
2. Maximum sampling rate 61.44MHz
3. Supports up to 2R2T for transmission and reception, with AD/DA quantization bits of 12 bits
3. The transmission power shows significant attenuation above 5GHz, with a maximum of around 2dBm at 6GHz, 15dBm at 1GHz, and greater than 10dBm at 2.4GHz.
4. OAI testing uses commercial UE in the N78 frequency band, with a range of around 125M for downstream and 24M for upstream
Good helper for learning and scientific research\
1. Combining Matlab for algorithm validation
2. Use SDAngel, SDR #, etc. to listen to radios, receive ADS-B, AIS DVB-T, and increase interest
3. Using Gnuraido for spectrum detection or vector signal generation
4. Using UHD programming interface to complete the development of product functions
5. Conduct mobile communication experiments using OAI and SRSRAN
Working Principle:
- AD9361 is a highly integrated RF transceiver chip launched by Analog Devices (ADI), supporting 2X2MIMO applications. The transmission or reception of I/Q data is reprocessed by the DSP implemented by FPGA and sent to the host or AD9361. The FPGA also converts the data format, packages I/Q data frames, and communicates with the UHD driver running on the host through the USB3.0 bus.
Features:
- B210mini supports dual channel simultaneous reception and transmission, i.e. 2X2MIMO support.
- MIMO (Multiple Input, Multiple Output) is a wireless communication technology that uses multiple antennas to simultaneously transmit and receive data, improve data rate, system capacity, resist interference and fading, expand coverage, and achieve spatial multiplexing. It is suitable for mobile communication fields such as LTE, WiFi, 5G, etc.
- The integration of 0.5PPM VCTCXO on the board can achieve GPS signal simulation and 4G/5G base station experiments without the need for expensive GPSDO clock sources.
- Equipped with a built-in clock PLL, it facilitates the input of external 10MHz and 1PPS synchronization signals.
- Tune within the frequency range of 50MHz to 6GHz, with a maximum real-time processing bandwidth of 56MHz signal.
- USB 3.0 high-speed interface.
- The onboard Artix-7 100T FPGA 100000 Logic Cells support personalized development.
Base Band Performance:
- ADC sampling rate (maximum): 61.44MS/s
- ADC resolution: 12bits
- ADC SFDR: 78dBc
- DAC sampling rate (maximum): 61.44MS/s
- DAC resolution: 12bits
Clock Performance:
- Clock frequency precision: +/-0.5ppm
- External clock interface (1th IPEX): 1
- 1PPS interface (1th IPEX): 1
RF Performance:
- Output power: >10dBm
- IIP3 (at typ NF): -20dBm
- Receive Noise Figure: <8dB
Other Specification:
- Power consumption (maximum): 2800mW
- USB3.0 Micro-B: 1
- Product size: 89.5 x 63mm
- Motherboard net weight: 50g
For Linux System Apps:
- For GNU Radio is an open-source software toolkit that focuses on the design and implementation of Software Defined Radio (SDR) systems. Through graphical interfaces or Python programming, users can build flexible communication systems covering a wide range of application areas, such as broadcasting, satellite communication, and radar. GNU Radio supports various SDR hardware platforms, including B210mini and HackRF. Providing rich signal processing modules, it is a powerful tool for researchers, students, and radio enthusiasts. As an open source project, GNU Radio encourages community collaboration and innovation, providing support for experimentation and development in the field of wireless communication.
- For MATLAB is a powerful scientific computing software widely used in wireless communication research. Its SDR toolbox provides functions and tools for designing and simulating software defined radio systems, supporting various communication standards and hardware platforms.
- For Open5GS is an open-source 5G core network implementation that supports 4G/5G NSA and 5G SA core network functionality.
- For SDRangel (Software Defined Radio Angel) is an open-source software defined radio (SDR) application designed to provide a wide range of radio signal processing capabilities. This software allows users to use general-purpose hardware such as RTL-SDR, HackRF, B210mini, etc. to transform computers into powerful software defined radio receivers and transmitters.
For Windows System Apps:
- For SoapySDR is an open-source software defined radio (SDR) device support library developed by Pothosware, providing a unified API that allows developers to easily interact with SDR hardware from different vendors. Supporting multiple devices, running across platforms, with plugin architecture and multi-channel support. Simplified the development and maintenance of SDR applications, allowing for dynamic loading of new device plugins, and providing real-time spectrum analysis and management tools.
- For LabVIEW is a powerful graphical programming tool that can be used for Software Defined Radio (SDR) applications. Its intuitive interface and modular design enable engineers to easily develop and integrate SDR applications, thereby processing radio signals more flexibly.
- For Matlab and SDRangel can both run on Windows systems.
Package Included:
- 1 x 7A100T AD9363 Motherboard
Item Specifics
Item Specifics
Description
File download:
https://www.adrive.com/public/jgBGxa/USRP%20b210mini%20lv.zip
https://www.adrive.com/public/dpPk4a/B210mini%20LV%20%20vivado%202024.1.zip
Fully compatible with B210
1. Full compatibility with B210 on Windows and Linux(simply replace a bin file, provide automatic replacement script on Linux, and provide replacement directories for various tools on Windows)
2. Matlab, Gnuridio, SDAngel, OAI testing are fully compatible
3. The use of Xilinx Artix7 series FPGA reduces power consumption by 7A100T, which has more abundant resources. Both 7A100T and 7A200T are fully compatible with B210, but the FPGA logic scale is different.
4. Supports external clock taming, PPS/10M reference frequency synchronization, and PPS phase synchronization
5. Adopting USB 3.0 TypeC interface
6. The output PA has been replaced with the ADI model (using 5V power supply to convert the energy lost by the original 3.3V PA on the LDO)
Main technical indicators
1. Frequency range: 70MHz~6GHz
2. Maximum sampling rate 61.44MHz
3. Supports up to 2R2T for transmission and reception, with AD/DA quantization bits of 12 bits
3. The transmission power shows significant attenuation above 5GHz, with a maximum of around 2dBm at 6GHz, 15dBm at 1GHz, and greater than 10dBm at 2.4GHz.
4. OAI testing uses commercial UE in the N78 frequency band, with a range of around 125M for downstream and 24M for upstream
Good helper for learning and scientific research\
1. Combining Matlab for algorithm validation
2. Use SDAngel, SDR #, etc. to listen to radios, receive ADS-B, AIS DVB-T, and increase interest
3. Using Gnuraido for spectrum detection or vector signal generation
4. Using UHD programming interface to complete the development of product functions
5. Conduct mobile communication experiments using OAI and SRSRAN
Working Principle:
- AD9361 is a highly integrated RF transceiver chip launched by Analog Devices (ADI), supporting 2X2MIMO applications. The transmission or reception of I/Q data is reprocessed by the DSP implemented by FPGA and sent to the host or AD9361. The FPGA also converts the data format, packages I/Q data frames, and communicates with the UHD driver running on the host through the USB3.0 bus.
Features:
- B210mini supports dual channel simultaneous reception and transmission, i.e. 2X2MIMO support.
- MIMO (Multiple Input, Multiple Output) is a wireless communication technology that uses multiple antennas to simultaneously transmit and receive data, improve data rate, system capacity, resist interference and fading, expand coverage, and achieve spatial multiplexing. It is suitable for mobile communication fields such as LTE, WiFi, 5G, etc.
- The integration of 0.5PPM VCTCXO on the board can achieve GPS signal simulation and 4G/5G base station experiments without the need for expensive GPSDO clock sources.
- Equipped with a built-in clock PLL, it facilitates the input of external 10MHz and 1PPS synchronization signals.
- Tune within the frequency range of 50MHz to 6GHz, with a maximum real-time processing bandwidth of 56MHz signal.
- USB 3.0 high-speed interface.
- The onboard Artix-7 100T FPGA 100000 Logic Cells support personalized development.
Base Band Performance:
- ADC sampling rate (maximum): 61.44MS/s
- ADC resolution: 12bits
- ADC SFDR: 78dBc
- DAC sampling rate (maximum): 61.44MS/s
- DAC resolution: 12bits
Clock Performance:
- Clock frequency precision: +/-0.5ppm
- External clock interface (1th IPEX): 1
- 1PPS interface (1th IPEX): 1
RF Performance:
- Output power: >10dBm
- IIP3 (at typ NF): -20dBm
- Receive Noise Figure: <8dB
Other Specification:
- Power consumption (maximum): 2800mW
- USB3.0 Micro-B: 1
- Product size: 89.5 x 63mm
- Motherboard net weight: 50g
For Linux System Apps:
- For GNU Radio is an open-source software toolkit that focuses on the design and implementation of Software Defined Radio (SDR) systems. Through graphical interfaces or Python programming, users can build flexible communication systems covering a wide range of application areas, such as broadcasting, satellite communication, and radar. GNU Radio supports various SDR hardware platforms, including B210mini and HackRF. Providing rich signal processing modules, it is a powerful tool for researchers, students, and radio enthusiasts. As an open source project, GNU Radio encourages community collaboration and innovation, providing support for experimentation and development in the field of wireless communication.
- For MATLAB is a powerful scientific computing software widely used in wireless communication research. Its SDR toolbox provides functions and tools for designing and simulating software defined radio systems, supporting various communication standards and hardware platforms.
- For Open5GS is an open-source 5G core network implementation that supports 4G/5G NSA and 5G SA core network functionality.
- For SDRangel (Software Defined Radio Angel) is an open-source software defined radio (SDR) application designed to provide a wide range of radio signal processing capabilities. This software allows users to use general-purpose hardware such as RTL-SDR, HackRF, B210mini, etc. to transform computers into powerful software defined radio receivers and transmitters.
For Windows System Apps:
- For SoapySDR is an open-source software defined radio (SDR) device support library developed by Pothosware, providing a unified API that allows developers to easily interact with SDR hardware from different vendors. Supporting multiple devices, running across platforms, with plugin architecture and multi-channel support. Simplified the development and maintenance of SDR applications, allowing for dynamic loading of new device plugins, and providing real-time spectrum analysis and management tools.
- For LabVIEW is a powerful graphical programming tool that can be used for Software Defined Radio (SDR) applications. Its intuitive interface and modular design enable engineers to easily develop and integrate SDR applications, thereby processing radio signals more flexibly.
- For Matlab and SDRangel can both run on Windows systems.
Package Included:
- 1 x 7A100T AD9363 Motherboard
