Product details

Sample rate (Max) (MSPS) 60 Resolution (Bits) 8 Number of input channels 1 Interface type Parallel CMOS Analog input BW (MHz) 300 Features Low Power Rating Catalog Input range (Vp-p) 1, 2 Power consumption (Typ) (mW) 215 Architecture Pipeline SNR (dB) 49.5 ENOB (Bits) 7.7 SFDR (dB) 67 Operating temperature range (C) -40 to 85 Input buffer No
Sample rate (Max) (MSPS) 60 Resolution (Bits) 8 Number of input channels 1 Interface type Parallel CMOS Analog input BW (MHz) 300 Features Low Power Rating Catalog Input range (Vp-p) 1, 2 Power consumption (Typ) (mW) 215 Architecture Pipeline SNR (dB) 49.5 ENOB (Bits) 7.7 SFDR (dB) 67 Operating temperature range (C) -40 to 85 Input buffer No
SSOP (DBQ) 20 52 mm² 8.65 x 6
  • HIGH SNR: 49.5dB
  • INTERNAL/ EXTERNAL REFERENCE OPTION
  • SINGLE-ENDED OR DIFFERENTIAL ANALOG INPUT
  • PROGRAMMABLE INPUT RANGE:
    1Vp-p/2Vp-p
  • LOW POWER: 170mW
  • LOW DNL: 0.2LSB
  • SINGLE +5V SUPPLY OPERATION
  • SSOP-20 PACKAGE
  • APPLICATIONS
    • MEDICAL IMAGING
    • VIDEO DIGITIZING
    • COMMUNICATIONS
    • DISK-DRIVE CONTROL
  • HIGH SNR: 49.5dB
  • INTERNAL/ EXTERNAL REFERENCE OPTION
  • SINGLE-ENDED OR DIFFERENTIAL ANALOG INPUT
  • PROGRAMMABLE INPUT RANGE:
    1Vp-p/2Vp-p
  • LOW POWER: 170mW
  • LOW DNL: 0.2LSB
  • SINGLE +5V SUPPLY OPERATION
  • SSOP-20 PACKAGE
  • APPLICATIONS
    • MEDICAL IMAGING
    • VIDEO DIGITIZING
    • COMMUNICATIONS
    • DISK-DRIVE CONTROL

The ADS830 is a pipeline, CMOS Analog-to-Digital (A/D) converter that operates from a single +5V power supply. This converter provides excellent performance with a single-ended input and can be operated with a differential input for added spurious performance. This high performance converter includes an 8-bit quantizer, high bandwidth track/hold, and a high accuracy internal reference. It also allows for the user to disable the internal reference and utilize external references. This external reference option provides excellent gain and offset matching when used in multi-channel applications or in applications where DC full scale range adjustment is required.

The ADS830 employs digital error correction techniques to provide excellent differential linearity for demanding imaging applications. Its low distortion and high SNR give the extra margin needed for medical imaging, communications, video, and test instrumentation.

The ADS830 is specified at a maximum sampling frequency of 60MHz and a single-ended input range of 1.5V to 3.5V. The ADS830 is available in a SSOP-20 package and is pin-for-pin compatible with the 8-bit, 80MHz ADS831.

The ADS830 is a pipeline, CMOS Analog-to-Digital (A/D) converter that operates from a single +5V power supply. This converter provides excellent performance with a single-ended input and can be operated with a differential input for added spurious performance. This high performance converter includes an 8-bit quantizer, high bandwidth track/hold, and a high accuracy internal reference. It also allows for the user to disable the internal reference and utilize external references. This external reference option provides excellent gain and offset matching when used in multi-channel applications or in applications where DC full scale range adjustment is required.

The ADS830 employs digital error correction techniques to provide excellent differential linearity for demanding imaging applications. Its low distortion and high SNR give the extra margin needed for medical imaging, communications, video, and test instrumentation.

The ADS830 is specified at a maximum sampling frequency of 60MHz and a single-ended input range of 1.5V to 3.5V. The ADS830 is available in a SSOP-20 package and is pin-for-pin compatible with the 8-bit, 80MHz ADS831.

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Technical documentation

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Type Title Date
* Data sheet ADS830: SpeedPlus? 8-Bit, 60MHz Sampling Analog-To-Digital Converter datasheet (Rev. A) 23 Feb 2001
Technical article Keys to quick success using high-speed data converters 13 Oct 2020
Technical article How to achieve fast frequency hopping 03 Mar 2019
Technical article RF sampling: Learning more about latency 09 Feb 2017
Technical article Why phase noise matters in RF sampling converters 28 Nov 2016
Application note Driving High-Speed ADCs: Circuit Topologies and System-Level Parameters (Rev. A) 10 Sep 2010
Application note Smart Selection of ADC/DAC Enables Better Design of Software-Defined Radio 28 Apr 2009
Application note CDCE62005 as Clock Solution for High-Speed ADCs 04 Sep 2008
Application note CDCE72010 as a Clocking Solution for High-Speed Analog-to-Digital Converters 08 Jun 2008
Application note Phase Noise Performance and Jitter Cleaning Ability of CDCE72010 02 Jun 2008

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