Analog Devices has unveiled the RadioVerse technology and design ecosystem, which provides customers with integrated transceiver technologies, a robust design environment, and market-specific technical expertise to move their radio designs from concept to creation quickly.
This new ecosystem’s transceiver technologies reduce radio size, weight and power (SWaP), while the design environment offers board support packages, software and tools to help customers simplify and accelerate radio development across a range of applications including wireless infrastructure, aerospace and defense electronics, and electronic test and measurement. It is redefining radio design at the circuit, architecture, system and software levels to simplify integration and speed customers’ time-to-market.
As part of the RadioVerse technology and design ecosystem release, ADI introduced the AD9371, the latest addition to the integrated wideband RF transceiver product series. It is a highly versatile, carrier-grade, system-on-chip radio solution that achieves a wide RF tuning range of 300 MHz to 6 GHz, 100-MHz signal bandwidth, and power consumption of less than 5W under standard operating conditions. It replaces or eliminates as many as 20 discrete radio components and can be used as a common design platform across multiple applications and standards, increasing R&D efficiency and reducing time-to-market of the end product. Other products in this wideband RF transceiver series include the AD9361 and AD9364.
RadioVerse Technology and Design Ecosystem Accelerates Time-to-Market
This technology and design ecosystem will accelerate the customers time-to-market by providing integrated RF transceivers, software API, design support packages, robust documentation, access to their EngineerZone online technical support community, and more. ADI is providing integrated wideband RF transceiver evaluation boards that directly connect to an FPGA development platform, allowing customers to perform chip-level performance evaluation and rapid prototyping of complete wireless scenarios using a single hardware platform. These boards are supported by a toolkit that includes HDL, Linux drivers, software API, a GUI, and design files necessary for customers to kick-start their own designs. An exact, verified model of the AD9371 transceiver, enabling advanced simulation and analysis of the transceiver, can be developed by using MATLAB and Simulink. End users can then use the model to configure the transceiver and verify performance, correct problems earlier, and accelerate completion of their RF system design.
This design environment will continue to expand to include third-party design houses, COTS providers and other partners to further enable customers to rapidly deploy their products to market.
The AD9371 integrated wideband RF transceiver is ideal for applications such as wireless communications, aerospace and defense electronics, and electronic test and measurement equipment that require high-performance radios across a wideband frequency range while maintaining industry leading low-power consumption levels. It covers a 300-MHz to 6-GHz frequency range and supports receiver and transmit large signal instantaneous bandwidths up to 100 MHz, observation receiver and transmit synthesis bandwidths up to 250 MHz, fully integrated LO and clocking functions, and highly advanced on-chip calibration and correction algorithms. It supports a wide range of standards and applications, and enables customers to reduce component and development costs by reducing their need for multiple design variants.
The versatility, ease-of-use, and reduced SWaP of this transceiver enable designers to deploy radios in an array of applications:
- Small-form-factor, multi-band base stations on buildings, light poles, and office walls
- Long-range, high-definition video links in unmanned aerial vehicles
- Wide bandwidth military satellite communication systems
- Electronic test and measurement equipment supporting testing of multi-mode, multi-band applications.
