SLAAER4 March   2025 AFE781H1 , AFE782H1 , AFE881H1 , AFE882H1 , DAC8740H , DAC8741H , DAC8742H

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Introduction
    1. 1.1 The 4-20mA Loop
    2. 1.2 The HART Protocol
      1. 1.2.1 Adding HART to the 4-20mA Loop
      2. 1.2.2 HART FSK
  5. 2AFE882H1 EVM-Based HART Transmitter
    1. 2.1 AFE882H1 HART Modem
    2. 2.2 AFE882H1 Evaluation Module
    3. 2.3 HART Transmitter Construction
      1. 2.3.1 Detailed Schematic
        1. 2.3.1.1 Input Protection
        2. 2.3.1.2 Start Up With Low-Dropout Regulator
        3. 2.3.1.3 Voltage-to-Current Stage
        4. 2.3.1.4 Voltage-to-Current Calculation
        5. 2.3.1.5 HART Signal Transmission
        6. 2.3.1.6 HART Input Protection
        7. 2.3.1.7 HART Transmitter Board
        8. 2.3.1.8 Current Consumption
      2. 2.3.2 HART Protocol Stack
  6. 3HART Testing and Registration
    1. 3.1  HART History and the FieldComm Group
    2. 3.2  HART Testing Overview
      1. 3.2.1 HART Protocol Specifications
      2. 3.2.2 HART Protocol Test Specifications
      3. 3.2.3 Field Transmitter Device Testing
    3. 3.3  HART Test Equipment
    4. 3.4  HART Physical Layer Testing
      1. 3.4.1 FSK Sinusoid Test
      2. 3.4.2 Carrier Start and Stop Time Tests
      3. 3.4.3 Carrier Start and Stop Transient Tests
      4. 3.4.4 Output Noise During Silence
      5. 3.4.5 Analog Rate of Change Test
      6. 3.4.6 Receive Impedance Test
      7. 3.4.7 Noise Sensitivity Test
      8. 3.4.8 Carrier Detect Test
    5. 3.5  Data Link Layer Tests
      1. 3.5.1 Data Link Layer Test Specifications
      2. 3.5.2 Data Link Layer Test Logs
    6. 3.6  Universal Command Tests
    7. 3.7  Common-Practice Command Tests
    8. 3.8  Device Specific Command Tests
    9. 3.9  HART Protocol Test Submission
    10. 3.10 HART Registration
  7. 4Summary
  8. 5Acknowledgments
  9. 6References

3.2 HART Testing Overview

Previously, Figure 2-1 showed the block diagram of the AFE882H1 device. In the middle of the figure is the HART communication protocol logo. The logo indicates the device was designed into a transmitter in a HART-registered product.

To be HART registered, the device is first tested by the company that created the device. Test results are used to generate a report sent to the FieldComm Group with an application for registration. Test results include physical layer tests that verify the waveform, check the timing of the HART FSK carrier signal, and verify timing with some HART specific digital lines built into the HART modem. Additionally, there are many tests that verify the HART protocol to check that the device has the proper response to commands from a HART controller.