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    TDC-GP30YA 3K

    TDC-GP30 is the next generation in acam’s development for ultrasonic flow converters. The objectives of
    the TDC-GP30 development are as follows:
    ▪ Easy-to-adapt two-chip solution for ultrasonic heat and water meters (GP30 + simple µP)
    ▪ Single-chip solution for many industrial applications or pure flow meter parts
    ▪ All flow and temperature calculations are done by GP30
    ▪ External µP needed only for interfaces (e.g. LCD, wireless, etc.) and other general-purpose tasks
    ▪ Integrated standard pulse interface enables one-to-one replacement of mechanical meters by
    GP30 based single-chip heat and water meters – customer µP and software remains unchanged.
    All in all, the TDC-GP30 is the next step in ultrasonic flow metering. It drastically simplifies the
    design of ultrasonic heat and water meters and is the necessary step for compact energy-saving
    ultrasonic water meters. The ultra-low-current capabilities allow the use of standard 2/3 AA or AA
    lithium thionyl chloride batteries at 6-8 Hz measuring frequency even in the water meter version.
    The TDC-GP30 is a system-on-chip approach that allows you to perform all measurement tasks
    in one IC.

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    In stock will ship in 2 days. Real-time inventory pls confirm with us.

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      SPECIFICATION

      ▪ High performance + ultra-low power 32-Bit CPU with
      ▪ 128 * 32 bit NVRAM (non-volatile RAM) for user firmware parameter & data
      ▪ 4k * 8 bit NVRAM (non-volatile RAM) for user firmware program code
      ▪ 4k * 8 bit ROM for system task code and special flow library code
      ▪ Capability of MID-compliant flow & temperature calculation, GP30-supported
      ▪ Flexible interfaces, SPI, UART, pulse (flow only)
      ▪ Advanced high-precision analog part
      ▪ Transducers can be connected directly to GP30, no external components required
      ▪ Amplitude measurements of receiving signal for secure bubble, aging and empty spool piece
      detection
      ▪ Up to 31 multi-hits for flow measurement yield the highest accuracy
      ▪ High update rates with very low power consumption of for example 6 µA at 8 Hz, including
      flow and temperature calculations, measure rate adopted to the flow
      ▪ Very low space and component requirements

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