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This code example demonstrates displaying 2D graphics demo on a TFT display using the Light and Versatile Graphics Library. The 2D graphics displays a music player application which is listed as one of the standard demo in the LVGL page.

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PSoC™ 6 MCU: LVGL demo

This code example demonstrates displaying a 2D graphics demo on a TFT display using the Light and Versatile Graphics Library (LVGL). The 2D graphics displays a music player application, which is listed as one of the standard demo on the LVGL page.

View this README on GitHub.

Provide feedback on this code example.

Requirements

Supported toolchains (make variable 'TOOLCHAIN')

  • GNU Arm® Embedded Compiler v11.3.1 (GCC_ARM) – Default value of TOOLCHAIN
  • Arm® Compiler v6.16 (ARM)
  • IAR C/C++ Compiler v9.30.1 (IAR)

Supported kits (make variable 'TARGET')

Hardware setup

This code example requires CY8CKIT-028-TFT; TFT display shield board. This shield comes with PSoC™ 6 Wi-Fi Bluetooth® Pioneer Kit. It can also be purchased standalone and used with other supported kits.

Note: The PSoC™ 6 Bluetooth® LE Pioneer Kit (CY8CKIT-062-BLE) and the PSoC™ 6 Wi-Fi Bluetooth® Pioneer Kit (CY8CKIT-062-WIFI-BT) ship with KitProg2 installed. ModusToolbox™ requires KitProg3. Before using this code example, make sure that the board is upgraded to KitProg3. The tool and instructions are available in the Firmware Loader GitHub repository. If you do not upgrade, you will see an error like "unable to find CMSIS-DAP device" or "KitProg firmware is out of date".

Software setup

See the ModusToolbox™ tools package installation guide for information about installing and configuring the tools package.

Install a terminal emulator if you don't have one. Instructions in this document use Tera Term.

This example requires no additional software or tools.

Using the code example

Create the project

The ModusToolbox™ tools package provides the Project Creator as both a GUI tool and a command line tool.

Use Project Creator GUI
  1. Open the Project Creator GUI tool.

    There are several ways to do this, including launching it from the dashboard or from inside the Eclipse IDE. For more details, see the Project Creator user guide (locally available at {ModusToolbox™ install directory}/tools_{version}/project-creator/docs/project-creator.pdf).

  2. On the Choose Board Support Package (BSP) page, select a kit supported by this code example. See Supported kits.

    Note: To use this code example for a kit not listed here, you may need to update the source files. If the kit does not have the required resources, the application may not work.

  3. On the Select Application page:

    a. Select the Applications(s) Root Path and the Target IDE.

    Note: Depending on how you open the Project Creator tool, these fields may be pre-selected for you.

    b. Select this code example from the list by enabling its check box.

    Note: You can narrow the list of displayed examples by typing in the filter box.

    c. (Optional) Change the suggested New Application Name and New BSP Name.

    d. Click Create to complete the application creation process.

Use Project Creator CLI

The 'project-creator-cli' tool can be used to create applications from a CLI terminal or from within batch files or shell scripts. This tool is available in the {ModusToolbox™ install directory}/tools_{version}/project-creator/ directory.

Use a CLI terminal to invoke the 'project-creator-cli' tool. On Windows, use the command-line 'modus-shell' program provided in the ModusToolbox™ installation instead of a standard Windows command-line application. This shell provides access to all ModusToolbox™ tools. You can access it by typing "modus-shell" in the search box in the Windows menu. In Linux and macOS, you can use any terminal application.

The following example clones the "LVGLDemo" application with the desired name "LVGLDemo" configured for the CY8CKIT-062-WIFI-BT BSP into the specified working directory, C:/mtb_projects:

project-creator-cli --board-id CY8CKIT-062-WIFI-BT --app-id mtb-example-lvgl-demo --user-app-name LVGLDemo --target-dir "C:/mtb_projects"

Update the above paragraph and commands to match your CE.

The 'project-creator-cli' tool has the following arguments:

Argument Description Required/optional
--board-id Defined in the field of the BSP manifest Required
--app-id Defined in the field of the CE manifest Required
--target-dir Specify the directory in which the application is to be created if you prefer not to use the default current working directory Optional
--user-app-name Specify the name of the application if you prefer to have a name other than the example's default name Optional

Note: The project-creator-cli tool uses the git clone and make getlibs commands to fetch the repository and import the required libraries. For details, see the "Project creator tools" section of the ModusToolbox™ tools package user guide (locally available at {ModusToolbox™ install directory}/docs_{version}/mtb_user_guide.pdf).

Open the project

After the project has been created, you can open it in your preferred development environment.

Eclipse IDE

If you opened the Project Creator tool from the included Eclipse IDE, the project will open in Eclipse automatically.

For more details, see the Eclipse IDE for ModusToolbox™ user guide (locally available at {ModusToolbox™ install directory}/docs_{version}/mt_ide_user_guide.pdf).

Visual Studio (VS) Code

Launch VS Code manually, and then open the generated {project-name}.code-workspace file located in the project directory.

For more details, see the Visual Studio Code for ModusToolbox™ user guide (locally available at {ModusToolbox™ install directory}/docs_{version}/mt_vscode_user_guide.pdf).

Keil µVision

Double-click the generated {project-name}.cprj file to launch the Keil µVision IDE.

For more details, see the Keil µVision for ModusToolbox™ user guide (locally available at {ModusToolbox™ install directory}/docs_{version}/mt_uvision_user_guide.pdf).

IAR Embedded Workbench

Open IAR Embedded Workbench manually, and create a new project. Then select the generated {project-name}.ipcf file located in the project directory.

For more details, see the IAR Embedded Workbench for ModusToolbox™ user guide (locally available at {ModusToolbox™ install directory}/docs_{version}/mt_iar_user_guide.pdf).

Command line

If you prefer to use the CLI, open the appropriate terminal, and navigate to the project directory. On Windows, use the command-line 'modus-shell' program; on Linux and macOS, you can use any terminal application. From there, you can run various make commands.

For more details, see the ModusToolbox™ tools package user guide (locally available at {ModusToolbox™ install directory}/docs_{version}/mtb_user_guide.pdf).

Operation

If using a PSoC™ 64 "Secure" MCU kit (like CY8CKIT-064B0S2-4343W), the PSoC™ 64 device must be provisioned with keys and policies before being programmed. Follow the instructions in the "Secure Boot" SDK user guide to provision the device. If the kit is already provisioned, copy-paste the keys and policy folder to the application folder.

  1. Connect the board to your PC using the provided USB cable through the KitProg3 USB connector.

  2. Open a terminal program and select the KitProg3 COM port. Set the serial port parameters to 8N1 and 115200 baud.

  3. Program the board using one of the following:

    Using Eclipse IDE
    1. Select the application project in the Project Explorer.

    2. In the Quick Panel, scroll down, and click <Application Name> Program (KitProg3_MiniProg4).

    In other IDEs

    Follow the instructions in your preferred IDE.

    Using CLI

    From the terminal, execute the make program command to build and program the application using the default toolchain to the default target. The default toolchain is specified in the application's Makefile but you can override this value manually:

    make program TOOLCHAIN=<toolchain>
    

    Example:

    make program TOOLCHAIN=GCC_ARM
    
  4. After programming, the application starts automatically. Confirm that "PSoC™ 6 MCU LVGL demo" is displayed on the UART terminal.

    Figure 1. Terminal output on program startup

  5. Observe that the startup screen displays a music player demo application.

    Figure 1. LVGL screen


Debugging

You can debug the example to step through the code.

In Eclipse IDE

Use the <Application Name> Debug (KitProg3_MiniProg4) configuration in the Quick Panel. For details, see the "Program and debug" section in the Eclipse IDE for ModusToolbox™ user guide.

Note: (Only while debugging) On the CM4 CPU, some code in main() may execute before the debugger halts at the beginning of main(). This means that some code executes twice – once before the debugger stops execution, and again after the debugger resets the program counter to the beginning of main(). See KBA231071 to learn about this and for the workaround.

In other IDEs

Follow the instructions in your preferred IDE.

Design and implementation

This project uses a CY8CKIT-028-TFT; a TFT display shield together with a pioneer board. The TFT shield has a Newhaven 2.4″ 320×240 TFT display with a Sitronix ST7789 display controller and uses the 8080-series parallel interface. The mtb_st7789v_init8() function initializes GPIOs for 8-bit the 8080-series parallel interface. The Sitronix ST7789 display controller is initialized by using st7789v_init() function.

The lv_init() function is used to initialize LVGL and set up the essential components required for LVGL to work correctly. The display driver is initialized using the lv_port_disp_init() function. The LVGL demo music player is displayed on the CY8CKIT-028-TFT display by calling the LVGL demo widget API lv_demo_music().

Resources and settings

Table 1. Application resources

Resource Alias/object Purpose
UART (HAL) cy_retarget_io_uart_obj UART HAL object used by Retarget-IO for debug UART port
GPIO (HAL) CYBSP_J2_2 TFT data I/O
GPIO (HAL) CYBSP_J2_4 TFT data I/O
GPIO (HAL) CYBSP_J2_6 TFT data I/O
GPIO (HAL) CYBSP_J2_10 TFT data I/O
GPIO (HAL) CYBSP_J2_12 TFT data I/O
GPIO (HAL) CYBSP_D7 TFT data I/O
GPIO (HAL) CYBSP_D8 TFT data I/O
GPIO (HAL) CYBSP_D9 TFT data I/O
GPIO (HAL) CYBSP_D10 TFT display read signal I/O
GPIO (HAL) CYBSP_D11 TFT display write signal I/O
GPIO (HAL) CYBSP_D12 TFT display data/command Signal I/O
GPIO (HAL) CYBSP_D13 TFT display reset signal I/O

Related resources

Resources Links
Application notes AN228571 – Getting started with PSoC™ 6 MCU on ModusToolbox™
AN215656 – PSoC™ 6 MCU: Dual-CPU system design
AN79953 – Getting started with PSoC™ 4
AN85951 – PSoC™ 4 and PSoC™ 6 MCU CAPSENSE™ design guide
Code examples Using ModusToolbox™ on GitHub
Device documentation PSoC™ 6 MCU datasheets
PSoC™ 6 technical reference manuals
PSoC™ 4 datasheets
PSoC™ 4 technical reference manuals
Development kits Select your kits from the Evaluation board finder.
Libraries on GitHub mtb-pdl-cat1 – PSoC™ 6 Peripheral Driver Library (PDL)
mtb-hal-cat1 – Hardware Abstraction Layer (HAL) library
retarget-io – Utility library to retarget STDIO messages to a UART port
mtb-pdl-cat2 – PSoC™ 4 Peripheral Driver Library (PDL)
mtb-hal-cat2 – Hardware Abstraction Layer (HAL) library
Middleware on GitHub capsense – CAPSENSE™ library and documents
psoc6-middleware – Links to all PSoC™ 6 MCU middleware
Tools ModusToolbox™ – ModusToolbox™ software is a collection of easy-to-use libraries and tools enabling rapid development with Infineon MCUs for applications ranging from wireless and cloud-connected systems, edge AI/ML, embedded sense and control, to wired USB connectivity using PSoC™ Industrial/IoT MCUs, AIROC™ Wi-Fi and Bluetooth® connectivity devices, XMC™ Industrial MCUs, and EZ-USB™/EZ-PD™ wired connectivity controllers. ModusToolbox™ incorporates a comprehensive set of BSPs, HAL, libraries, configuration tools, and provides support for industry-standard IDEs to fast-track your embedded application development.

Other resources

Infineon provides a wealth of data at www.infineon.com to help you select the right device, and quickly and effectively integrate it into your design.

Document history

Document title: CE238680PSoC™ 6 MCU: LVGL demo

Version Description of change
1.0.0 New code example

All referenced product or service names and trademarks are the property of their respective owners.

The Bluetooth® word mark and logos are registered trademarks owned by Bluetooth SIG, Inc., and any use of such marks by Infineon is under license.


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This code example demonstrates displaying 2D graphics demo on a TFT display using the Light and Versatile Graphics Library. The 2D graphics displays a music player application which is listed as one of the standard demo in the LVGL page.

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