1.1 Console Debug System Service using UART

Description

The application example first demonstrates the various debug system service macros
It then demonstrates the console related APIs
The application asks the user to enter a character on the console which is echoed back using the console system service read/write APIs

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/system/console_debug/sys_console_debug_uart_read_write/firmware.

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


Project Name	Description
pic32mm_usb_curiosity.X	MPLABX project for PIC32MM USB Curiosity Development Board

Setting Up the Hardware

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


Project Name	Description
pic32mm_usb_curiosity.X	PIC32MM USB Curiosity Development Board

Setting Up PIC32MM USB Curiosity Development Board

To run the demo, the following additional hardware are required:
- USB UART click board
Connect micro USB cable to the ‘USB1’ connector on the board to the computer
Install the USB UART click board on to the mikroBUS socket J4 of PIC32MM USB Curiosity Development Board
Connect mini USB cable to the USB UART click board. This will enumerate the USB to UART port
Note: Ensure that the series resistors on the mikroBUS headers are of value 0 Ohms.

Running the Application

Open the Terminal application (Ex.:Tera term) on the computer
Connect to the EDBG Virtual COM port and configure the serial settings as follows:
- Baud : 115200
- Data : 8 Bits
- Parity : None
- Stop : 1 Bit
- Flow Control : None
Build and Program the application using its IDE
Observe the following output on the terminal
- First few prints demonstrate the output from the debug system service APIs
- It then prints the free space available in the receive buffer
- It then asks the user to enter 10 characters
After entering 10 characters, observe the following output on the terminal
- The output first prints the free space available in the receive buffer
- Since 10 characters are pending to be read out from the receive buffer, the free space in the receive buffer is reduced by 10
- After this, it prints the received characters on the terminal
- Application then waits for the transmit buffer to become empty
- Once empty, the application prints the free space available in the transmit buffer, which should be same as the size of the transmit buffer configured in MHC minus 1
After this, the demonstration asks the user to enter a character, and echoes it back on the terminal.
- LED toggles every-time the character is printed on the terminal

Refer to the following table for LED name:


Board	LED Name
PIC32MM USB Curiosity Development Board	LED1