1.7 Clock Configuration

This example application shows how to configure the clock system to run the device at maximum frequency. It also outputs a prescaled clock signal on a GPIO pin for measurement and verification.

Description

Clock system generates and distributes the clock for the processor and peripherals. This example application shows how to use the clock manager to configure the device to run at the max possible speed. A prescaled clock signal is routed to GPIO pin to measure the frequency and accuracy of the internal device clock.

Downloading and Building the Application

To clone or download this application from Github, go to the main page of this repository and then click Clone button to clone this repository or download as zip file. This content can also be downloaded using content manager by following these instructions.

Path of the application within the repository is apps/clock/clock_config/firmware.

To build the application, refer to the following table and open the project using its IDE.

Project NameDescription
pic32mz_ef_sk.XMPLABX project for PIC32MZ Embedded Connectivity with FPU (EF) Starter Kit

Setting Up the Hardware

The following table shows the target hardware for the application projects.

Project NameDescription
pic32mz_ef_sk.XPIC32MZ Embedded Connectivity with FPU (EF) Starter Kit

Setting Up PIC32MZ Embedded Connectivity with FPU (EF) Starter Kit

  • Connect an oscilloscope to monitor the PORT pin PA14 (Pin number #7 on the J12 connector)
  • Connect the Debug USB port on the board to the computer using a mini USB cable

Running the Application

  1. Build and Program the application using its IDE
  2. Observe a clock of 4 MHz on the clock output pin
  3. LED should be blinking continuously

Refer to the following table for clock output pin and LED name for different boards:

BoardClock Output PinLED Name
PIC32MZ Embedded Connectivity with FPU (EF) Starter KitPA14 (Pin #7 on the J12 connector)LED1