Product details

Resolution (Bits) 14 Number of input channels 1 Sample rate (Max) (kSPS) 50 Interface type SPI Architecture SAR Input type Pseudo-Differential Multi-channel configuration Rating Catalog Reference mode Ext Input range (Max) (V) 1.8 Input range (Min) (V) 0 Features Operating temperature range (C) -40 to 85 Power consumption (Typ) (mW) 2.5 Analog voltage AVDD (Min) (V) 1.8 SNR (dB) 78 Analog voltage AVDD (Max) (V) 3.6 INL (Max) (+/-LSB) 2 Digital supply (Min) (V) 1.8 Digital supply (Max) (V) 3.6
Resolution (Bits) 14 Number of input channels 1 Sample rate (Max) (kSPS) 50 Interface type SPI Architecture SAR Input type Pseudo-Differential Multi-channel configuration Rating Catalog Reference mode Ext Input range (Max) (V) 1.8 Input range (Min) (V) 0 Features Operating temperature range (C) -40 to 85 Power consumption (Typ) (mW) 2.5 Analog voltage AVDD (Min) (V) 1.8 SNR (dB) 78 Analog voltage AVDD (Max) (V) 3.6 INL (Max) (+/-LSB) 2 Digital supply (Min) (V) 1.8 Digital supply (Max) (V) 3.6
VSSOP (DGK) 8 15 mm² 3 x 4.9
  • BIPOLAR INPUT RANGE
  • 1.8V OPERATION
  • 50kHz SAMPLING RATE
  • MICRO POWER:
      5.0mW at 2.7V
      2.5mW at 1.8V
  • POWER DOWN: 3 µA max
  • MSOP-8 PACKAGE
  • PIN-COMPATIBLE TO 12-BIT ADS7817
  • SERIAL (SPI/SSI)INTERFACE
  • APPLICATIONS
    • BATTERY OPERATED SYSTEMS
    • REMOTE DATA ACQUISITION
    • ISOLATED DATA ACQUISITION
    • SIMULTANEOUS SAMPLING, MULTI-CHANNEL SYSTEMS
    • INDUSTRIAL CONTROLS
    • ROBOTICS
    • VIBRATION ANALYSIS

All trademarks are the property of their respective owners.

  • BIPOLAR INPUT RANGE
  • 1.8V OPERATION
  • 50kHz SAMPLING RATE
  • MICRO POWER:
      5.0mW at 2.7V
      2.5mW at 1.8V
  • POWER DOWN: 3 µA max
  • MSOP-8 PACKAGE
  • PIN-COMPATIBLE TO 12-BIT ADS7817
  • SERIAL (SPI/SSI)INTERFACE
  • APPLICATIONS
    • BATTERY OPERATED SYSTEMS
    • REMOTE DATA ACQUISITION
    • ISOLATED DATA ACQUISITION
    • SIMULTANEOUS SAMPLING, MULTI-CHANNEL SYSTEMS
    • INDUSTRIAL CONTROLS
    • ROBOTICS
    • VIBRATION ANALYSIS

All trademarks are the property of their respective owners.

The ADS8324 is a 14-bit, sampling Analog-to-Digital (A/D) converter with tested specifications using a 1.8V supply voltage. It requires very little power, even when operating at the full 50kHz data rate. At lower data rates, the high speed of the device enables it to spend most of its time in the power-down mode—the average power dissipation is less than 1mW at 10kHz data rate.

The ADS8324 also features a synchronous serial (SPI/SSI compatible) interface, and a differential input. The reference voltage can be set to any level within the range of 500mV to VCC/2.

Ultra-low power and small size make the ADS8324 ideal for portable and battery-operated systems. It is also a perfect fit for remote data acquisition modules, simultaneous multi-channel systems, and isolated data acquisition. The ADS8324 is available in an MSOP-8 package.

The ADS8324 is a 14-bit, sampling Analog-to-Digital (A/D) converter with tested specifications using a 1.8V supply voltage. It requires very little power, even when operating at the full 50kHz data rate. At lower data rates, the high speed of the device enables it to spend most of its time in the power-down mode—the average power dissipation is less than 1mW at 10kHz data rate.

The ADS8324 also features a synchronous serial (SPI/SSI compatible) interface, and a differential input. The reference voltage can be set to any level within the range of 500mV to VCC/2.

Ultra-low power and small size make the ADS8324 ideal for portable and battery-operated systems. It is also a perfect fit for remote data acquisition modules, simultaneous multi-channel systems, and isolated data acquisition. The ADS8324 is available in an MSOP-8 package.

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Technical documentation

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Type Title Date
* Data sheet ADS8324: 14-Bit, 50-KSPS, 1.8-V Micropower Sampling Analog-to-Digital Converter datasheet (Rev. A) 11 Mar 2004
E-book Best of Baker's Best: Precision Data Converters -- SAR ADCs 21 May 2015
Technical article Input considerations for SAR ADCs 20 Jun 2014
Application note Determining Minimum Acquisition Times for SAR ADCs, part 2 17 Mar 2011
Application note Determining Minimum Acquisition Times for SAR ADCs, part 1 (Rev. A) 10 Nov 2010
Application note High-Voltage Signal Conditioning for Differential ADCs 14 Jun 2004

Design & development

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