SBAU352 June   2020 ADS131B04-Q1

 

  1.   ADS131B04-Q1 Evaluation Module
    1.     Trademarks
    2. 1 EVM Overview
      1. 1.1 ADS131B04-Q1EVM Kit
      2. 1.2 ADS131B04-Q1EVM Board
    3. 2 EVM Analog Interface
      1. 2.1 ADC Analog Input Signal Path
      2. 2.2 ADC External Clock (CLKIN) Options
    4. 3 Digital Interface
      1. 3.1 SPI Communication
      2. 3.2 Connection to the PHI
      3. 3.3 Digital Header
      4. 3.4 LaunchPad Connectors
    5. 4 Power Supplies
    6. 5 ADS131B04-Q1EVM Initial Setup
      1. 5.1 Default Jumper Settings
      2. 5.2 EVM Graphical User Interface (GUI) Software Installation
    7. 6 ADS131B04-Q1EVM Operation
      1. 6.1 EVM GUI Global Settings for ADC Control
      2. 6.2 Register Map Configuration Tool
      3. 6.3 Time Domain Display Tool
      4. 6.4 Spectral Analysis Tool
      5. 6.5 Histogram Tool
    8. 7 ADS131B04-Q1EVM Bill of Materials, PCB Layout, and Schematic
      1. 7.1 Bill of Materials
      2. 7.2 PCB Layout
      3. 7.3 Schematic

6.1 EVM GUI Global Settings for ADC Control

Although the EVM GUI does not allow direct access to the levels and timing configuration of the ADC digital interface, the EVM GUI does give users high-level control over virtually all functions of the ADS131B04-Q1 including interface modes, sampling rate, and number of samples to be captured. Figure 12 identifies the input parameters of the GUI (as well as their default values) through which the various functions of the ADS131B04-Q1 can be exercised.

input_param_sbau352.gifFigure 12. EVM GUI Global Input Parameters

There are four pages available in the ADS131B04-Q1EVM GUI. The information area displays the results of each of the pages. Each of these pages display a different control or measurement of the device. The Register Map Config page is used to read and write to the registers of the device. The Time Domain Display page is used to collect a set of data from the device and display the result. The Spectral Analysis page can determine the FFT of the collected data, and the Histogram Analysis page shows a histogram of the collected data and displays basic statistics of the result.

The Single Commands section allows for direct control of the device for three basic functions. First the Reset button sends a signal to the SYNC/RESET pin to reset the device. The Standby button puts the device into a low-power state in which all channels are disabled, and the reference and other non-essential circuitry are powered down. The Wakeup button exits the standby mode.

The Interface Configuration options in this pane allows the user to choose from different frame word sizes available on the ADS131B04-Q1. This section also sets the data rate by setting the oversampling ratio (OSR) in the ADC. Finally, this section may used to set the power modes in the registers. The ADS131B04-Q1 can be set to high-resolution, low power, and very-low power modes in conjunction with the jumper settings of JP6 for the CLKIN pin, as outlined in Table 4. This information is also discussed in Section 2.2.

The Clock and Sampling Rate section allows the user to specify a target SCLK frequency (in Hz) and the GUI tries to match this frequency as closely as possible by changing the PHI PLL settings, but the achievable frequency may differ from the target value entered. This section also displays the sampling rate of the ADC as controlled by the OCR.

The GUI is switched between hardware mode and simulation mode by checking and unchecking the Connected to Hardware box in the top right area of the screen at any time.