High Speed DACs
High Speed DACs
Analog Devices’ high speed (≥30 MSPS) digital-to-analog converters (DACs) include wideband radio frequency, intermediate frequency signal processing, and general-purpose baseband classes. These products are employed in wired and wireless communications, instrumentation, radar, electronic warfare, and other applications. Our portfolio of high speed DACs ranges from 30 MSPS to multi-GSPS with resolutions ranging from 8 bits to 16 bits. Our DACs are fully supported with complete data sheets and evaluation boards to reduce time to market and system design costs. These DACs are recommended for use with ADI’s clocking and timing products, as well as RF products and power management.
Analog Devices’ high speed (≥30 MSPS) digital-to-analog converters (DACs) include wideband radio frequency, intermediate frequency signal processing, and general-purpose baseband classes. These products are employed in wired and wireless communications, instrumentation, radar, electronic warfare, and other applications. Our portfolio of high speed DACs ranges from 30 MSPS to multi-GSPS with resolutions ranging from 8 bits to 16 bits. Our DACs are fully supported with complete data sheets and evaluation boards to reduce time to market and system design costs. These DACs are recommended for use with ADI’s clocking and timing products, as well as RF products and power management.
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Virtual Eval - BETA
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ADIsimDDS (Direct Digital Synthesis)
High Speed Signal Processing: Making Space in a Crowded Spectrum
The airwaves are getting crowded, and system designers are looking to untapped portions of the frequency spectrum to support higher bandwidths and millimeter wave (mmW) technologies. New capabilities and features become possible as system designers in aerospace and defense, communication infrastructure, and instrumentation learn to leverage more of the frequency spectrum and create a better user experience.
High Speed Signal Processing: Making Space in a Crowded Spectrum
The airwaves are getting crowded, and system designers are looking to untapped portions of the frequency spectrum to support higher bandwidths and millimeter wave (mmW) technologies. New capabilities and features become possible as system designers in aerospace and defense, communication infrastructure, and instrumentation learn to leverage more of the frequency spectrum and create a better user experience.
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