XCZU27DR-2FFVE1156I integrates a single chip direct RF sampling data converter on an adaptive SoC, eliminating the need for external data converters, thus achieving a highly flexible solution. Compared with multi-component solutions, this solution can reduce power consumption and space occupation by 50%, including eliminating high power FPGA analog interfaces such as JESD204
Overview of XCZU21DR-2FFVD1156I RF Data Converter Subsystem Most Zynq UltraScale+RFSoCs include an RF data converter subsystem that includes multiple radios Frequency analog-to-digital converter (RF-ADC) and multiple RF analog-to-digital converters Converter (RF-DAC). High precision, high-speed, and energy-efficient RF-ADC and RF-DAC Can be configured separately for real data, or in most cases can be configured in pairs for real and imaginary numbers
XCVU3P-2FFVC1517I is a high-performance FPGA based on 14nm/16nm FinFET nodes, supporting 3D IC technology and various computationally intensive applications.
The XC7K325T-2FFG676I field programmable gate array, after optimization, has the best cost-effectiveness, which is twice as high as the previous generation product, realizing a new type of FPGA.
XC7Z010-2CLG225I Adopting a dual core ARM Cortex-A9 processor configuration, it integrates 7 series programmable logic (up to 6.6M logic units and 12.5Gb/s transceivers), providing highly differentiated design for various embedded applications
XCKU060-1FFVA1517I has been optimized for system performance and integration under the 20nm process, and adopts single chip and next-generation stacked silicon interconnect (SSI) technology. This FPGA is also an ideal choice for DSP intensive processing required for next-generation medical imaging, 8k4k video, and heterogeneous wireless infrastructure.
