Overview

Features and Benefits

  • Complete 12-Bit I/O System, Comprising:
    12-Bit ADC with Track/Hold Amplifier
    83 kHz Throughout Rate
    72 dB SNR
  • 12-Bit DAC with Output Amplifier
    3 ms Settling Time
    72 dB SNR
    On-Chip Voltage Reference
  • Operates from 65 V Supplies
  • Low Power – 130 mW typ
  • Small 0.3" Wide DIP

Product Details

The AD7868 is a complete 12-bit I/O system containing a DAC and an ADC. The ADC is a successive approximation type with a track-and-hold amplifier having a combined throughput rate of 83 kHz. The DAC has an output buffer amplifier with a settling time of 3 µs to 12 bits. Temperature compensated 3 V buried Zener references provide precision references for the DAC and ADC.

Interfacing to both the DAC and ADC is serial, minimizing pin count and giving a small 24-pin packages size. Standard control signals allow serial interfacing to most DSP machines. Asynchronous ADC conversion control and DAC updating is made possible with the CONVST and LDAC logic inputs.

The AD7868 operates from +-5 V power supplies, the analog input/output range of the ADC/DAC is +-3 V. The part is fully specified for dynamic parameters such as signal-to-noise ratio and harmonic distortion as well as traditional dc specifications.

The part is available in a 24-pin, 0.3" wide, plastic or hermetic dual-in-line package (DIP) and in 28-pin, plastic SOIC package.

Product Lifecycle icon-recommended Last Time Buy

All products in this family will be obsolete soon. Please contact ADI Sales or Distributors to arrange for final purchases and read our Obsolescence Information to review the time periods for placing final orders and receiving final shipments.

Design Resources

ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well.  "Zero defects" for shipped products is always our goal.

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