Harmony v3 Peripheral Libraries on SAM D5x/E5x: Step 6

Step 6: Build, program, and observe the outputs


Verify that the temperature sensor (I/O1 Xplained Pro Extension Kit) is connected to Extension Header 1 (EXT1) on the SAM E54 Xplained Pro Evaluation Kit.



As shown below, connect the I/O current measurement mode as bypass mode (since no current measurements are performed in this lab) on the SAM E54 Xplained Pro Evaluation Kit.



The SAM E54 Xplained Pro Evaluation Kit allows the use of the Embedded Debugger (EDBG) for debugging. Connect the Type-A male to micro-B USB cable to the micro-B DEBUG USB port to power and debug the SAM E54 Xplained Pro Evaluation Kit.



Go to File > Project Properties and make sure that the EDBG is selected as the debugger under the Hardware Tools and XC32 (v4.30) is selected as the Compiler Toolchain for XC32.



Clean and build your application by clicking on the Clean and Build button as shown.



Program your application to the device, by clicking on the Make and Program button as shown.


The lab should build and program successfully.


Now, open the Tera Term terminal application on your PC (from the Windows® Start menu by pressing the Start button). Select the Serial Port as shown.



Change the baud rate to 115200.



You should see the temperature values (in °F) being displayed on the terminal every 500 milliseconds, as shown.


Also, notice the LED0 blinking at a 500 millisecond rate.


You may vary the temperature by placing your finger on the temperature sensor (for a few seconds).



Press the switch SW0 on the SAM E54 Xplained Pro Evaluation Kit to change the default sampling rate to one second.



Every subsequent pressing of switch SW0 on the SAM E54 Xplained Pro Evaluation Kit changes the default sampling rate to two seconds, four seconds, and 500 ms and back to one second in cyclic order as shown.


While the temperature sampling rate changes on every switch SW0 press, notice the LED0 toggling at the same sampling rate.


You observed that the application displayed the current room temperature values on the serial terminal every 500 milliseconds. You were able to change the temperature sampling values dynamically by pressing a user switch on the development kit. You could exercise sampling changes to one second, two seconds, or four seconds, and cycle back to 500 milliseconds every time you press the user switch. You also observed that a user LED was toggled every time the current temperature was displayed on the serial terminal.


You have successfully created your first application using MPLAB® Harmony v3 on SAM D5x/E5x microcontroller. Your application used all the fundamental elements that go into building a real-time application. Your application successfully read temperature sensor values and displayed them periodically over a serial terminal on a PC. The application also took user input by pressing a switch on the development board.

In this application, you used MPLAB Code Configurator (MCC) to configure SAM D5x/E5x and to use the MPLAB Harmony v3 Framework. You used the clock configurator to set up the CPU clock and timer (Real-Time Clock (RTC)) clock. You configured SERCOM3 (as I²C), SERCOM2 (as USART), RTC, and External Interrupt Controller (EIC) peripheral libraries. You also configured Direct Memory Access (DMA) using the DMA configurator. You used the pin configurator to set up the pins for LED and switch functions.


This tutorial provided you training in configuring and using all the fundamental components needed to build a real-time application on a SAM D5x/E5x microcontroller with MPLAB Harmony v3 Framework. As a next step, you may customize this application and reconfigure some of the components used in this tutorial. You could also add new components (PLIBs, etc.) to enhance this application to realize your end application.

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