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Table of Contents
AD9371 & AD9375 Prototyping
Platform User Guide
Table of Contents
Videos
Software Defined Radio
using the Linux IIO
Framework
ADI Articles
MathWorks Webinars
Warning
This version (05 Jun 2018 16:17) was approved by mhennerich.
The Previously approved version (22 Nov 2017 17:00) is available.
AD9371 & AD9375 Prototyping Platform
User Guide
The ADRV9371-W/PRBZ, ADRV9371-N/PCBZ
and ADRV9375-N/PCBZ are FMC radio cards for
the AD9371 respectively AD9375, a highly
integrated RF Transceiver™. While the complete
chip level design package can be found on the the
the ADI web site, information on the card and
how to use it, the design package that surrounds it,
and the software which can make it work can be
found here.
Table of Contents
People who follow the flow that is outlined, have a much better experience with things. However, like many things, documentation is never as
complete as it should be. If you have any questions, feel free to ask.
1. Use the board to better understand the AD9371/AD9375
1. What you need to get started
2. Quick Start Guides
1. Linux on ZC706
2. Configure a pre-existing SD-Card
3. Update the old card you received with your hardware
3. Linux Applications
1. IIO Scope
1. AD9371/AD9375 IIO Scope View
2. AD9371/AD9375 Control IIO Scope Plugin
3. Advanced AD9371/AD9375 Control IIO Scope Plugin
2. FRU EEPROM Utility
4. Push custom data into/out of the AD9371/AD9375
1. Basic Data files and formats
2. Stream data into/out of MATLAB
2. Design with the AD9371/AD9375
1. Understanding the AD9371/AD9375
1. AD9371 Product page
2. AD9375 Product page
3. Full Datasheet and chip design package
4. MATLAB Filter Wizard / Profile Generator for AD9371
2. Hardware in the Loop / How to design your own custom BaseBand
1. GNU Radio
3. Design a custom AD9371/AD9375 based platform
1. Linux software
1. AD9371/AD9375 Linux Device Driver
1. Customizing the devicetree on the target
2. AD9528 Low Jitter Clock Generator Linux Driver
3. AD7291 IIO ADC Linux Driver
4. JESD204B Transmit Linux Driver
5. JESD204B Receive Linux Driver
6. AXI JESD204B GT HDL Linux Driver
1. JESD204 Eye Scan
7. AXI ADC HDL Linux Driver
8. AXI DAC HDL Linux Driver
2. AD9371/AD9375 No-OS System Level Design Setup
3. HDL Reference Design which you must use in your FPGA.
3. Additional Documentation about SDR Signal Chains - The math behind the RF
4. Help and Support
Videos
Software Defined Radio using the Linux IIO Framework
ADI Articles
Four Quick Steps to Production: Using Model-Based Design for Software-Defined Radio
Part 1—the Analog Devices/Xilinx SDR Rapid Prototyping Platform: Its Capabilities, Benefits, and Tools
Part 2—Mode S Detection and Decoding Using MATLAB and Simulink
Part 3—Mode S Signals Decoding Algorithm Validation Using Hardware in the Loop
Part 4 - Rapid Prototyping Using the Zynq SDR Kit and Simulink Code Generation Workflow
MathWorks Webinars
Modelling and Simulating Analog Devices’ RF Transceivers with MATLAB and SimRF
Getting Started with Software-Defined Radio using MATLAB and Simulink
Warning
00:00 / 00:00
沪ICP备09046653号
All the products described on this page include ESD (electrostatic discharge) sensitive devices. Electrostatic charges
as high as 4000V readily accumulate on the human body or test equipment and can discharge without detection.
Although the boards feature ESD protection circuitry, permanent damage may occur on devices subjected to high-
energy electrostatic discharges. Therefore, proper ESD precautions are recommended to avoid performance
degradation or loss of functionality. This includes removing static charge on external equipment, cables, or antennas
before connecting to the device.
resources/eval/user-guides/mykonos.txt · Last modified: 05 Jun 2018 16:03 by mhennerich
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