ADS801

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12-Bit, 25 MSPS ADC SE/Diff inputs. Internal References, pin compatible to ADS800/2

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Product details

Parameters

Sample rate (Max) (MSPS) 25 Resolution (Bits) 12 Number of input channels 1 Analog input BW (MHz) 65 Features Low Power Rating Catalog Input range (Vp-p) 2 Power consumption (Typ) (mW) 270 Architecture Pipeline SNR (dB) 66 ENOB (Bits) 10.3 SFDR (dB) 77 Operating temperature range (C) -40 to 85 Input buffer No open-in-new Find other High-speed ADCs (>10MSPS)

Package | Pins | Size

SOIC (DW) 28 184 mm² 17.9 x 10.3 open-in-new Find other High-speed ADCs (>10MSPS)

Features

  • NO MISSING CODES
  • LOW POWER:270mW
  • INTERNAL REFERENCE
  • WIDEBAND TRACK-AND-HOLD:65MHz
  • SINGLE +5V SUPPLY
  • PACKAGE:SO-28 and SSOP-28
  • APPLICATIONS
    • IF AND BASEBAND DIGITIZATION
    • DIGITAL COMMUNICATIONS
    • TEST INSTRUMENTATION
    • CCD IMAGING
      • Copiers
      • Scanners
      • Cameras
    • VIDEO DIGITIZING
    • GAMMA CAMERAS

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open-in-new Find other High-speed ADCs (>10MSPS)

Description

The ADS801 is a low-power, monolithic 12-bit, 25MHz Analog-to-Digital (A/D) converter utilizing a small geometry CMOS process. This complete converter includes a 12-bit quantizer, wideband track-and-hold, reference, and three-state outputs. It operates from a single +5V power supply and can be configured to accept either single-ended or differential input signals.

The ADS801 employs digital error correction to provide excellent Nyquist differential linearity performance for demanding imaging applications. Its low distortion, high SNR, and high-oversampling capability give it the extra margin needed for telecommunications, instrumentation, and video applications.

This high-performance A/D converter is specified over temperature for ac and DC performance at a 25MHz sampling rate. The ADS820 is available in an SO-28 package.

open-in-new Find other High-speed ADCs (>10MSPS)
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Technical documentation

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No results found. Please clear your search and try again. View all 10
Type Title Date
* Datasheet 12-Bit, 25MHz Sampling Analog-To-Digital Converter datasheet (Rev. B) Feb. 14, 2005
Technical articles How to achieve fast frequency hopping Mar. 03, 2019
Technical articles RF sampling: Learning more about latency Feb. 09, 2017
Technical articles Why phase noise matters in RF sampling converters Nov. 28, 2016
Technical articles How to minimize filter loss when you drive an ADC Oct. 20, 2016
Application notes Driving High-Speed ADCs: Circuit Topologies and System-Level Parameters (Rev. A) Sep. 10, 2010
Application notes Smart Selection of ADC/DAC Enables Better Design of Software-Defined Radio Apr. 28, 2009
Application notes CDCE62005 as Clock Solution for High-Speed ADCs Sep. 04, 2008
Application notes CDCE72010 as a Clocking Solution for High-Speed Analog-to-Digital Converters Jun. 08, 2008
Application notes Phase Noise Performance and Jitter Cleaning Ability of CDCE72010 Jun. 02, 2008

Design & development

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Design tools & simulation

CALCULATION TOOLS Download
Jitter and SNR Calculator for ADCs
JITTER-SNR-CALC JITTER-SNR-CALC can be used for calculating theoretical Signal to Noise (SNR) performance of ADCs based on input frequency and clock jitter.

CAD/CAE symbols

Package Pins Download
SOIC (DW) 28 View options

Ordering & quality

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