NXP LPC55S6x CPU Support Package

This package contains project templates and system files for the NXP LPC55S6x.

CrossWorks Version 4 Installation Instructions

To install this support package
  1. Click the Tools > Package Manager menu option to open the package manager window.
  2. Right click on the NXP LPC55S6x CPU Support Package entry and select Install Selected Packages.
  3. Click Next to take you to the summary page.
  4. Click Next to install the package.
  5. Click Finish to close the package manager window.
  6. Click the Tools > Show Installed Packages.
  7. Click on the NXP LPC55S6x CPU Support Package link to view the package and its contents.
To manually install this support package
  1. If you have not done so already, follow the CMSIS 5 CMSIS-Core(M) Support Package, CMSIS 5 CMSIS-DSP Support Package, CMSIS 5 Support Package and CrossWorks Tasking Library Package installation instructions.
  2. Download the file LPC55S6x.hzq using your web browser.
  3. Click the Tools > Manually Install Packages menu option.
  4. Select the file you have just downloaded to install the package.
  5. Click the Tools > Show Installed Packages.
  6. Click on the NXP LPC55S6x CPU Support Package link to view the package and its contents.

Release Notes

4.0

Documentation

Creating LPC55S6x Projects

To create a new LPC55S6x project
To import IAR project files supplied with the NXP LPC55S69 SDK
To build and debug an application the runs in Flash memory
To make the application startup from reset

LPC55S6x Project Specifics

Stack and Heap Sizes

The default stack and heap sizes are set to be 1024 and 1024 bytes by default when a project is created.

Target Startup Code

The startup code is device specific and is selected with the Target Processor entry. There are a set of preprocessor defines that configure the startup code and are documented in the startup file itself. The startup code calls out to a weak symbol SystemInit with the stack pointer set to the end of the stack section. The SystemInit function can be used to set the CPU clock or configure any external memories prior to the C initialisation code as such it cannot access initialised static data.

The startup code declares symbolic names (and weak implementations) for each interrupt service routine, for example the RTC_SEC_IRQHandler function will be called when the RTC second match interrupt occurs. The names of the interrupt service routines match those in the CMSIS header file. If you are porting code that has application specific interrupt service routines then you can use preprocessor definitions to rename the declared symbolic name for example RTC_SEC_IRQHandler=RTC_SEC_DriverIRQHandler.

Target Reset Script

The reset script LPC55S6x_Target.js is used by the debugger to reset the target board and to enable the tracing capabilities of the device.

Dual Core Sample

The Dual Core sample LPC55S6x_DualCore_Samples.hzp contains two projects that can be built, downloaded and debugged to the flash memory of the LPCXpresso55S69 board. The key points of this sample are:

TrustZone Sample

The TrustZone sample LPC55S6x_TrustZone_Samples.hzp contains two projects that can be build, downloaded and debugged to the flash memory of the LPCXpresso55S69 board. The key points of this sample are: