AD936x Family
Introducing the NEW AD9363 2x2, 20 MHz RF Transceiver
The AD9363 RF transceiver is designed for use in a wide range of low power wireless applications, such as femto cell, DAS, wireless video transmission. This radio SoC covers a 325-MHz to 3.8-GHz frequency range and has a tunable channel bandwidth of <200 kHz to 20 MHz. It is a highly integrated single-chip solution that includes an RF front end, flexible mixed-signal baseband section, frequency synthesizers, two ADCs and 2 direct conversion receivers. It supports TDD and FDD operation.
Wideband RF Transceiver Applications
- 3G/4G Macro BTS
- 3G/4G Multi-carrier Picocells
- FDD and TDD Active Antenna Systems
- Microwave NLOS Backhaul Systems
- Massive MIMO systems
- Low linearity Radar Systems
- Software-defined Radio
- General Purpose Radio Systems
- Ku/Ka Satcom
- Mykonos as IF converter
- Handheld radios/vehicle radios
- Airborne communications: military air, military UAV
- Wireless video, UAV
- Wireless surveillance
- Cell phone testers
- IOT aggregators
Take the first step in your design process by downloading and reviewing the AD9361 or the AD9363 design file packages.
AD9361 2x2, 56 MHz RF Transceiver
The AD9361 RF transceiver is designed for use in a wide range of low power wireless applications. This radio SoC covers a 70-MHz to 6-GHz frequency range and has a tunable channel bandwidth of <200 kHz to 56 MHz. It is a highly integrated single-chip solution that includes an RF front end, flexible mixed-signal baseband section, frequency synthesizers, two ADCs and 2 direct conversion receivers. It supports TDD and FDD operation.
AD9361 Overview
In this informational video, learn about the features
and functionality of the AD9361 integrated wideband RF transceiver.
ADI SDR SOM Design Video Workshop Series
The ADI SDR SOM Design Video Workshop features technical experts from Analog Devices and MathWorks to provide training to design wireless communications with the ADI SDR (Software-Defined Radio) SOM (system-on-module) Development Kit. The kit includes the recently introduced ADRV9361-Z7035, a rugged, low-power, small footprint SOM which combines the Analog Devices AD9361 integrated RF Agile Transceiver™ with the Xilinx Zynq®-7000 Z-7035 All Programmable SoC, and is supported by robust simulation and code generation tools that integrate seamlessly with Xilinx Vivado® Design Suite.
Please note Avnet has discontinued their Picozed SDR SOMs. ADI now offers pin-to-pin compatible SDR SOM devices: ADRV9361-Z7035 and ADRV9364-Z7020.
AD9361 System-Level Model Lab
This lab uses a simulation model of the Analog Devices RadioVerse™ AD9361 Wideband Low Power RF transceiver on the ADI SDR SOM to explore user options for tuning device parameters to meet system requirements for RF performance. During this lab you will gain an understanding of the receiver portion of the AD9361.
ADALM-PLUTO: Fast SDR design and verification
The ADALM-PLUTO is a complete open reference design for SDR that helps you quickly verify your ADI RF product-based designs and get them to production faster. Schematics, HDL, firmware, embedded Linux, drivers, and host drivers for ADI’s transceiver products are all included, while the MathWorks Communications Toolbox™ Hardware Support Package allows the ADALM-PLUTO SDR to talk to MATLAB and Simulink. All this enables you to quickly prototype, verify, and test practical wireless systems with live RF signals anywhere between 325 MHz to 3.8 GHz to up 20 MHz of bandwidth.
For more information, please visit 2.4GHz HDMI-USB Wireless Module.