3.3.1 Getting Started Application Using Harmony PLIBs on PIC32CZ CA70 Curiosity Ultra Development Board

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Description

The application reads the current room temperature from the temperature sensor on the I/O1 Xplained Pro Extension. The temperature read is displayed on a serial console periodically every 500 milliseconds. The periodicity of the temperature values displayed on the serial console is changed to 1 second, 2 seconds, 4 seconds, and back to 500 milliseconds every time the user press the switch SW0 on the PIC32CZ CA70 Curiosity Ultra development board. An LED, LED0, is toggled every time the temperature is displayed on the serial console.

Modules/Technology Used

  • Peripherals
    • PORT
    • UART
    • Timer
    • XDMAC
    • TWIHS (I2C)
The following figure provides the MCC Harmony project graph with all the components.

Hardware Used

Software/Tools Used

This project has been verified to work with the following versions of software tools:

Refer to the Project Manifest present in harmony-manifest-success.yml under the project folder pic32cz_ca70_getting_started/firmware/src/config/default.

  • Refer to the Release Notes to know the MPLAB X IDE and MCC Plug-in version
  • Any Serial Terminal application, such as Tera Term terminal application

Due to Microchip regularly updates tools, occasionally issue(s) could be discovered while using the newer versions of the tools. If the project does not seem to work and version incompatibility is suspected. It is recommended to double-check and use the same versions that the project was tested with. To download original version of MPLAB Harmony v3 packages, refer to the document How to Use the MPLAB Harmony v3 Project Manifest Feature (DS90003305).

Setup

  • Verify that the temperature sensor (I/O1 Xplained Pro Extension kit) is connected to Extension Header 1 (EXT1) on the PIC32CZ CA70 Curiosity Ultra development board.
  • The PIC32CZ CA70 Curiosity Ultra development board allows the Embedded Debugger (EDBG) to be used for debugging. Connect the Type-A male to Micro-B USB cable to the Micro-B DEBUG USB port to power and debug the PIC32CZ CA70 Curiosity Ultra development board.

Programming Hex File

The pre-built hex file can be programmed by following the below steps.

Steps to program the hex file
  • Open MPLAB X IDE
  • Close all existing projects in IDE, if any project is opened
  • Go to File>Import>Hex/ELF file
  • In the Import Image File window,
    1. Create Prebuilt Project,
      • Click the Browse button to select the prebuilt hex file
      • Select Device as PIC32CZ2051CA70144
      • Ensure the proper tool is selected under Hardware Tool and click the Next button
    2. Select Project Name and Folder,
      • Select appropriate project name and folder and click the Finish button
  • In MPLAB X IDE, click the Make and Program Device button to program the device
  • Follow the steps in Running the Demo section below

Programming/Debugging Application Project

  • Open the project (pic32cz_ca70_getting_started\firmware\pic32cz_ca70_getting_started.X) in MPLAB X IDE
  • Ensure PIC32CZ CA70 Curiosity Ultra is selected as hardware tool to program/debug the application
  • Build the code and program the device by clicking on the Make and Program button in MPLAB X IDE tool bar
  • Follow the steps in Running the Demo section below

Running the Demo

  • Open the Tera Term terminal application on the PC (from the Windows Start menu by pressing the Start button)
  • Set the baud rate to 115200
  • Reset or power cycle the device
  • The user should see the temperature values (in °F) being displayed on the terminal every 500 milliseconds, as shown below
  • Notice the LED0 blinking at 500 millisecond rate
  • The user may vary the temperature by placing the finger on the temperature sensor (for a few seconds)
  • Press the switch SW0 on PIC32CZ CA70 Curiosity Ultra development board to change the default sampling rate to 1 second
  • Every subsequent pressing of switch SW0 on PIC32CZ CA70 Curiosity Ultra development board changes the default sampling rate to 2 seconds, 4 seconds, and 500 ms and back to 1 second in cyclic order as shown below
  • While the temperature sampling rate changes on every switch SW0 press, notice the LED0 toggling at the same sampling rate

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