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Dual-Channel, 16-Bit, 370-MSPS Analog-to-Digital Converter (ADC)


Package | PIN: RME | 56
Temp: I (-40 to 85)
Carrier: Cut Tape
Qty Price
1-9 $295.50
10-24 $279.08
25-99 $272.04
100-999 $267.35
1000+ $266.50


  • Resolution: 16-Bit
  • Conversion Rate: 370 MSPS
  • 1.7 VP-P Input Full Scale Range
  • Performance:
    • Input: 150 MHz, –3 dBFS
      • SNR: 69.6 dBFS
      • Noise Spectral Density: –152.3 dBFS/Hz
      • SFDR: 88 dBFS
      • Non-HD2 and Non-HD3 SPUR: –90 dBFS
  • Power Dissipation: 800 mW/channel
  • Buffered Analog Inputs
  • On-Chip Precision Reference Without External Bypassing
  • Input Sampling Clock Divider With Phase Synchronization
    (Divide-by- 1, 2, 4, or 8)
  • JESD204B Subclass 1 Serial Data Interface
    • Lane Rates up to 7.4 Gb/s
    • Configurable as 1- or 2-Lanes/Channel
  • Fast Over-Range Signals
  • 4-Wire, 1.2-V, 1.8-V, 2.5-V, or 3-V Compatible Serial
    Peripheral Interface (SPI)
  • 56-Pin WQFN Package, (8 × 8 mm, 0.5-mm Pin-Pitch)

Texas Instruments  ADC16DX370RMET

The ADC16DX370 device is a monolithic dual-channel high performance analog-to-digital converter capable of converting analog input signals into 16-bit digital words with a sampling rate of 370 MSPS. This converter uses a differential pipelined architecture with integrated input buffer to provide excellent dynamic performance while maintaining low power consumption.

The integrated input buffer eliminates charge kickback noise coming from the internal switched capacitor sampling circuits and eases the system-level design of the driving amplifier, anti-aliasing filter, and impedance matching. An input sampling clock divider provides integer divide ratios with configurable phase selection to simplify system clocking. An integrated low-noise voltage reference eases board level design without requiring external decoupling capacitors. The output digital data is provided through a JESD204B subclass 1 interface from a 56-pin, 8-mm × 8-mm WQFN package. A SPI is available to configure the device that is compatible with 1.2-V to 3-V logic.