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ADS8688W

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SAR-ADC, 16 Bit, 500 kSPS, 8 Kanäle, Betrieb an einzelner Stromversorgung, ± 12 kV Differenzeingang

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ADS8688W

AKTIV
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Produktdetails

Resolution (Bits) 16 Sample rate (max) (ksps) 500 Number of input channels 8 Interface type SPI Architecture SAR Input type Differential, Single-ended Multichannel configuration Multiplexed Rating Catalog Reference mode External, Internal Input voltage range (max) (V) 10.24 Input voltage range (min) (V) -10.24 Features Daisy-Chainable, Oscillator, Over-Voltage Protection, PGA Operating temperature range (°C) -40 to 125 Power consumption (typ) (mW) 65 Analog supply voltage (min) (V) 4.75 Analog supply voltage (max) (V) 5.25 SNR (dB) 85 Digital supply (min) (V) 1.65 Digital supply (max) (V) 5.25
Resolution (Bits) 16 Sample rate (max) (ksps) 500 Number of input channels 8 Interface type SPI Architecture SAR Input type Differential, Single-ended Multichannel configuration Multiplexed Rating Catalog Reference mode External, Internal Input voltage range (max) (V) 10.24 Input voltage range (min) (V) -10.24 Features Daisy-Chainable, Oscillator, Over-Voltage Protection, PGA Operating temperature range (°C) -40 to 125 Power consumption (typ) (mW) 65 Analog supply voltage (min) (V) 4.75 Analog supply voltage (max) (V) 5.25 SNR (dB) 85 Digital supply (min) (V) 1.65 Digital supply (max) (V) 5.25
— (—) See data sheet
  • 16-Bit ADCs with Integrated Analog Front-End
  • 4-, 8-Channel MUX with Auto and Manual Scan
  • Channel-Independent Programmable Inputs:
    • ±12.288V, ±6.144V, and ±3.072V
    • 12.288V to 0V and 6.144V to 0V
  • 5V Analog Supply: 1.65V to 5V I/O Supply
  • Constant Resistive Input Impedance: 1.2MΩ
  • Input Overvoltage Protection: Up to ±20V
  • On-Chip, 4.096V Reference with Low Drift
  • Excellent Performance:
    • 500kSPS Aggregate Throughput
    • DNL: ±0.6LSB; INL: ±0.8LSB
    • Low Drift for Gain Error and Offset
    • SNR: 91.5dB; THD: –102dB
    • Low Power: 65mW
  • AUX Input → Direct Connection to ADC Inputs
  • ALARM → High and Low Thresholds per Channel
  • SPI™-Compatible Interface with Daisy-Chain
  • Industrial Temperature Range: –40°C to 125°C
  • 16-Bit ADCs with Integrated Analog Front-End
  • 4-, 8-Channel MUX with Auto and Manual Scan
  • Channel-Independent Programmable Inputs:
    • ±12.288V, ±6.144V, and ±3.072V
    • 12.288V to 0V and 6.144V to 0V
  • 5V Analog Supply: 1.65V to 5V I/O Supply
  • Constant Resistive Input Impedance: 1.2MΩ
  • Input Overvoltage Protection: Up to ±20V
  • On-Chip, 4.096V Reference with Low Drift
  • Excellent Performance:
    • 500kSPS Aggregate Throughput
    • DNL: ±0.6LSB; INL: ±0.8LSB
    • Low Drift for Gain Error and Offset
    • SNR: 91.5dB; THD: –102dB
    • Low Power: 65mW
  • AUX Input → Direct Connection to ADC Inputs
  • ALARM → High and Low Thresholds per Channel
  • SPI™-Compatible Interface with Daisy-Chain
  • Industrial Temperature Range: –40°C to 125°C

The ADS8684W and ADS8688W are 4-channel and 8-channel, integrated data acquisition systems based on a 16-bit successive approximation (SAR) analog-to-digital converter (ADC), operating at a throughput of 500kSPS. The devices feature integrated analog front-end circuitry for each input channel with overvoltage protection up to ±20V, a 4-channel or 8-channel multiplexer with automatic and manual scanning modes, and an on-chip, 4.096V reference with low temperature drift. Operating on a single 5V analog supply, each input channel on the devices can independently support bipolar input ranges of ±12.288V, ±6.144V, and ±3.072V and unipolar input ranges of 12.288V to 0V and 6.144V to 0V.

The ADS8684W and ADS8688W offer a simple SPI-compatible serial interface to the digital host and also support daisy-chaining of multiple devices. The digital supply operates from 1.65V to 5.25V, enabling direct interface to a wide range of host controllers.

The ADS8684W and ADS8688W are 4-channel and 8-channel, integrated data acquisition systems based on a 16-bit successive approximation (SAR) analog-to-digital converter (ADC), operating at a throughput of 500kSPS. The devices feature integrated analog front-end circuitry for each input channel with overvoltage protection up to ±20V, a 4-channel or 8-channel multiplexer with automatic and manual scanning modes, and an on-chip, 4.096V reference with low temperature drift. Operating on a single 5V analog supply, each input channel on the devices can independently support bipolar input ranges of ±12.288V, ±6.144V, and ±3.072V and unipolar input ranges of 12.288V to 0V and 6.144V to 0V.

The ADS8684W and ADS8688W offer a simple SPI-compatible serial interface to the digital host and also support daisy-chaining of multiple devices. The digital supply operates from 1.65V to 5.25V, enabling direct interface to a wide range of host controllers.
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Technische Dokumentation

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Top-Dokumentation Typ Titel Format-Optionen Datum
* Data sheet ADS868xW 16 -Bit, 500 kSPS, 4- and 8-Channel, Single-Supply, SAR ADCs With Bipolar Input Ranges datasheet PDF | HTML 03 Dez 2025
Circuit design High common-mode differential input voltage to ±10-V ADC input circuit (Rev. A) PDF | HTML 24 Sep 2024
Circuit design Reducing effects of external RC filter circuit on gain and drift error (Rev. B) PDF | HTML 19 Sep 2024
Circuit design Circuit to increase input range on an integrated analog front end (AFE) SAR ADC (Rev. B) PDF | HTML 12 Sep 2024
Circuit design Input Protection for High-Voltage ADC Circuit with TVS Diode (Rev. A) PDF | HTML 02 Mai 2023
Product overview PLC Analog Input Front-End Architectures PDF | HTML 31 Jul 2022
Application note EMC Compliance Testing for Precision ADC Systems (Rev. A) PDF | HTML 27 Mai 2022
Application note Circuit for detecting input floating on ADS8681 ADC PDF | HTML 31 Mär 2021
Application note Reducing Phase Delay by Averaging on ADS8686S with Burst Sequencer Mode PDF | HTML 11 Jan 2021
Circuit design Circuit for protecting ADC with TVS diode and PTC fuse 03 Aug 2020
Application note Extending Input Voltage Range and Understanding Associated Errors for ADC With I 09 Nov 2018
Technical article Improving sensor DAQ performance using the PRU-ICSS for grid protection and contro PDF | HTML 09 Okt 2018
Technical article Interfacing multiple ADCs to a single processor for grid protection and control PDF | HTML 13 Sep 2018
Technical article Analog interfacing for grid infrastructure with Sitara processors PDF | HTML 15 Feb 2018
White paper Voltage-reference impact on total harmonic distortion 01 Aug 2016
More literature SAR ADCs for PLC Applications 11 Feb 2016
User guide Phase-Compensated 8-Ch Multiplexed Data Acquisition System for Power Automation (Rev. B) 12 Mär 2015

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