Get Started with the OM13098

Plug It In!

Let's take your LPCXpresso54628 board for a test drive!

1.1 Attach the USB Cable

OM13098: LPCXpresso board for LPC54628

1.2 Run the Out-of-Box Demo

Your LPCXpresso54628 board comes preloaded with a graphical HMI demo that leverages the included touchscreen. The demo demonstrates various simple GUIs, graphs and text rendering.

Choose a Development Path:

2.1 Getting Started with the MCUXpresso SDK!

The MCUXpresso Software Development Kit (SDK) is complimentary and includes full source code under a permissive open-source license for all hardware abstraction and peripheral driver software.

Click below to download a pre-configured SDK release for the LPCXpresso54608, which includes versions for MCUXpresso IDE, Keil MDK and IAR EWARM. Use LPCXpresso54608 as the target board; LPCXpresso54628 will have a specific SDK package from November 2017, but is binary compatible with LPCXpresso54608.

You can also use the online MCUXpresso web tool to create a custom SDK package for the LPCXpresso54628 using the SDK builder.

2.2 Install your toolchain

NXP offers a free, GNU/Eclipse based toolchain called MCUXpresso IDE.

Want to use a different toolchain?

No problem! The MCUXpresso SDK includes support for other tools such as IAR and Keil.

To set up your LPCXpresso54628 for use with 3rd party tools, first install LPCScrypt in order to install the board’s device drivers. The video below shows how to use LPCScrypt to program your board’s debug probe using this utility.

The video on this Getting Started section are for LPCXpresso54608, but the steps are the same for LPCXpresso54628.

2.3 MCUXpresso Config Tools

The MCUXpresso Config Tool is an integrated suite of configuration tools that guides users in creating new MCUXpresso SDK projects, and provides pin and clock tools to generate initialization C code for custom board support.



2.4 Serial terminal

Most of the MCUXpresso SDK examples set up for IAR and Keil tools use the MCU UART for printf output, and this is also an option for the MCUXpresso IDE. If you are not sure how to use a terminal application try one of these tutorials:

Not sure how to use a terminal application? Try one of these tutorials:

Build, Run

3.1 Explore the MCUXpresso SDK Example Code

The MCUXpresso SDK comes with a long list of example applications code. To see what's available, browse to the SDK boards folder of your SDK installation and select LPCXpresso54608 (/boards/LPCXpresso54628).

To learn more about specific example code, open the readme.txt file in an example’s directory.

3.2 Build, Run and Debug MCUXpresso SDK Examples

If one or more of the demo applications or driver examples sounds interesting, you're probably wanting to know how you can build and debug yourself. The Getting Started with SDK v.2.0 for LPC546xx guide provides easy, step-by-step instructions on how to configure, build, and debug demos for all toolchains supported by the SDK.

Use the guide below to learn how to open, build and debug an example application using the MCUXpresso IDE.

3.3 To run the LPCXpresso54628 board at over 180MHz

To run the LPCXpresso54628 board at over 180MHz, a modified version of the device power library found in the MCUXpresso SDK (for LPCXpresso54608) and appropriate clock configurations need to be used. A package, including a Technical Note, power library and example code to show how to do this is provided under the Software & Tools tab for this board.

Building and debugging with MCUXpresso IDE

The video on this Getting Started section are for LPCXpresso54608, but the steps are the same for LPCXpresso54628.

Using a different toolchain?