Overview
Features and Benefits
- Portable self-contained RF learning module
- Cost-effective experimentation platform
- Based on Analog Devices AD9363--Highly Integrated RF Agile Transceiver and Xilinx® Zynq Z-7010 FPGA
- RF coverage from 325 MHz to 3.8 GHz
- Up to 20 MHz of instantaneous bandwidth
- Flexible rate, 12-bit ADC and DAC
- One transmitter and one receiver, half or full duplex
- MATLAB®, Simulink® support
- GNU Radio sink and source blocks
- libiio, a C, C++, C#, and Python API
- USB 2.0 Powered Interface with Micro-USB 2.0 connector
- High quality plastic enclosure
Product Details
The easy to use ADALM-PLUTO active learning module (PlutoSDR) helps introduce electrical engineering students to the fundamentals of software-defined radio (SDR), radio frequency (RF), and wireless communications. Designed for students at all levels and from all backgrounds, the module can be used for both instructor-led and self-directed learning to help students develop a foundation in real-world RF and communications that they can build on as they pursue science, technology, or engineering degrees.
Connecting RF Theory with RF Practice
The PlutoSDR works as a portable lab that, when used with a host, can augment classroom learning. MATLAB and Simulink are two of the many software packages supported by PlutoSDR, and it provides an intuitive graphical user interface (GUI) so students can learn faster, work smarter, and explore more.
Made for Teachers, Students, and Self-Learners
The PlutoSDR features independent receive and transmit channels that can be operated in full duplex. The active learning module can generate or acquire RF analog signals from 325 MHz to 3800 MHz at up to 61.44 megasamples per second (MSPS). Small enough to fit in a shirt pocket, the PlutoSDR is completely self-contained and entirely USB powered with the default firmware. Because PlutoSDR is enabled by libiio drivers, it supports OS X®, Windows®, and Linux®, which allows students to learn and explore on a variety of devices.
With dozens of available online tutorials for SDR-based projects, PlutoSDR boasts labs and teaching material covering topics such as ADS-B aircraft position, receiving NOAA and Meteor-M2 weather satellite imagery, GSM analysis, listening to TETRA signals, pager decoding, and many more!
Markets and Technologies
Documentation & Resources
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ADALM-PLUTO Design & Integration Files1/9/2023ZIP4 M
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ADALM-PLUTO Overview User Guide1/27/2023WIKI
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ADALM-PLUTO Overview2/28/2017WIKI
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Solutions for Rapid Prototyping Brochure7/24/2024PDF595 K
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Active Learning Program: Tools for Students, Makers, and Enthusiasts3/26/2019PDF476K
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ADALM-PLUTO SDR Active Learning Module2/28/2017PDF449 K
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ADI Active Learning: Hands-on Communications Course: ADALM-PLUTO2/29/2024
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Constrained Devices: Scaling Ethernet Technology2/29/2024
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The ADALM-PLUTO2/29/2024
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ADI SDR Transceivers Enable Amateur Space Communication1/1/2020 Analog Dialogue
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The World Is Analog—How Do I Obtain the Necessary Knowledge?!8/1/2019
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Send the Lab Home6/20/2014
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Hands-On Learning Gets Real6/20/2014