New-Tech Europe | March 2017 | Digital Edition

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discrete radio components compared to commercially available alternatives. Additionally, the AD9371 can be used as a common design platform across multiple applications and standards, increasing R&D efficiency and reducing product time-to-market. Industry distinctions earned in 2016 include: EE Times and EDN ACE (Annual Creativity in Electronics) Award EDN Hot 100 Products award in the category of RF, wireless and networking Microwaves & RF 2016 Top New Products award Platinum Technology Innovation Award from Military & Aerospace Electronics and Intelligent Aerospace Learnmore about the RadioVerse technology and design ecosystem including the wideband RF transceiver product series: http://www.analog.com/RadioVerse. View the AD9371 RF wideband transceiver product page, download data sheets, order samples and evaluation boards: http://www.analog.com/AD9371.

integration of high performance ADCs and DACs in an All Programmable SoC, radio and wireless backhaul units can now meet previously unattainable power and form factor requirements, while increasing channel density. Additionally, RFSoC devices allow manufacturers to streamline design and development cycles to meet 5G deployment timelines. The integrated 16nm-based RF data conversion technology includes: Direct RF sampling for simplified analog design, greater accuracy, smaller form factor, and lower power 12-bit ADCs at up to 4GSPS, high channel count, with digital down-conversion 14-bit DACs at up to 6.4GSPS, high channel count, with digital up conversion “The shift to FinFET technology blends high integration density with improvements in analog device performance characteristics,” said Boris Murmann, Professor of Electrical Engineering at Stanford University. “This enables the integration of leading-edge analog/RF macros using a digitally assisted analog design approach.” “The RFSoC solution from Xilinx is a game changer in the RRU/massive MIMO active antenna array market,” said Earl Lum, President, EJL Wireless Research. “It also allows the company to become the preferred digital solution provider to this market for current and next generation 4G, 4.5G and 5G wireless networks.” “Integrating RF signal processing into All Programmable SoCs enables our customers to dramatically change their systems architectures. It also continues the Xilinx imperative for continuous, breakthroughs in system integration,” said Liam Madden, Corporate Vice President, FPGA Development and Silicon Technology at Xilinx. “This will effectively enable our 5G customers to commercially deploy highly differentiated, large-scale, massive-MIMO and millimeter-wave backhaul systems. Our new RFSoC architecture comes at the perfect time, addressing this urgent problem in 5G development.”

Xilinx Unveils Disruptive Integration and Architectural Breakthrough for 5G Wireless with RF-Class Analog Technology Today announced a disruptive integration and architectural breakthrough for 5G wireless with the infusion of RF- class analog technology into its 16nm All Programmable MPSoCs. Xilinx’s new All Programmable RFSoCs eliminate discrete data converters, providing 50-75% power and footprint reduction for 5G massive-MIMO and millimeter wave wireless backhaul applications. Large scale 2D antenna array systems will be key to the increase in spectral efficiency and network densification needed for 5G. Manufacturers must find new ways to meet stringent requirements for commercial deployment. With the

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