Next Generation Advanced Instrumentation and Defense Applications Enabled by Analog Devices’ High-Speed A/D Converter

Analog Devices, Inc. today announced a 14-bit, 2.6 GSPS dual A/D converter which enables IF/RF sampling with superior speed and linearity. The AD9689 A/D converter features power dissipation of 1.55 W per channel, half the dissipation of comparable solutions in the market, thus further increasing suitability for many of its targeted design situations.

• View product page, download data sheet, order samples and evaluation boards: http://www.analog.com/AD9689
• Learn about Analog Devices’ highest-performance A/D converters for defense and instrumentation:
  • http://www.analog.com/en/applications/technology/high-speed-converters.html
  • http://www.analog.com/en/applications/markets/aerospace-and-defense-pavilion-home.html
  • http://www.analog.com/en/applications/markets/instrumentation-and-measurement.html
• Connect with engineers and ADI product experts on EngineerZone^®, an online technical support community: https://ez.analog.com/community/data_converters/high-speed_adcs

In addition to the high-performance AD9689, ADI introduced two related converters: the AD9695, a dual 14-bit 1300/625 MSPS device, and the AD9697, a single 14-bit, 1300-MSPS unit. Both are lower-power, pin-compatible upgrades for existing devices. All three A/D converters include JESD204B interfaces for efficient and highest-speed interconnection to FPGAs, and share the same register map, so they can be used across multiple platforms with minimal coding efforts. Since many system architectures require complementary signal-transmission channels, Analog Devices also offers the AD9172 and AD9162 D/A converters as counterparts to the AD9689 and AD9695.

Full-speed spur free dynamic range (SFDR) of the AD9689 is an exceptional 64 dB full scale for a 3-GHz analog input. Other features of this converter include user-programmable FIR filters which allow users to perform quadratic error correction and equalization for optimized performance, and an analog input bandwidth of 9 GHz in the BGA-packaged version to allow for RF sampling up to and beyond the 4^th Nyquist zone. The AD9689 A/D converter’s JESD204B interface supports 16 GBPS/lane performance, which exceeds the 12.5 GBPS/lane requirement of the standard. Thus, the system FPGA can use fewer lanes, while freeing resources for other functions.

Source: https://www.analog.com/en/index.html