MCUXpresso SDK Release Notes

Overview

The MCUXpresso SDK is a comprehensive software enablement package designed to simplify and accelerate application development with Arm Cortex-M-based devices from NXP, including its general purpose, crossover and Bluetooth-enabled MCUs. MCUXpresso SW and Tools for DSC further extends the SDK support to current 32-bit Digital Signal Controllers. The MCUXpresso SDK includes production-grade software with integrated RTOS (optional), integrated enabling software technologies (stacks and middleware), reference software, and more.

In addition to working seamlessly with the MCUXpresso IDE, the MCUXpresso SDK also supports and provides example projects for various toolchains. The Development tools chapter in the associated Release Notes provides details about toolchain support for your board. Support for the MCUXpresso Config Tools allows easy cloning of existing SDK examples and demos, allowing users to leverage the existing software examples provided by the SDK for their own projects.

Underscoring our commitment to high quality, the MCUXpresso SDK is MISRA compliant and checked with Coverity static analysis tools. For details on MCUXpresso SDK, see MCUXpresso-SDK: Software Development Kit for MCUXpresso.

MCUXpresso SDK

As part of the MCUXpresso software and tools, MCUXpresso SDK is the evolution of Kinetis SDK, includes support for LPC, DSC,PN76, and i.MX System-on-Chip (SoC). The same drivers, APIs, and middleware are still available with support for Kinetis, LPC, DSC, and i.MX silicon. The MCUXpresso SDK adds support for the MCUXpresso IDE, an Eclipse-based toolchain that works with all MCUXpresso SDKs. Easily import your SDK into the new toolchain to access to all of the available components, examples, and demos for your target silicon. In addition to the MCUXpresso IDE, support for the MCUXpresso Config Tools allows easy cloning of existing SDK examples and demos, allowing users to leverage the existing software examples provided by the SDK for their own projects.

In order to maintain compatibility with legacy Freescale code, the filenames and source code in MCUXpresso SDK containing the legacy Freescale prefix FSL has been left as is. The FSL prefix has been redefined as the NXP Foundation Software Library.

Development tools

The MCUXpresso SDK is compiled and tested with these development tools:

MCUXpresso IDE, Rev. 24.12

IAR Embedded Workbench for Arm, version is 9.60.3

Keil MDK, version is 5.41

MCUXpresso for VS Code v24.12
GCC Arm Embedded Toolchain 13.2.1

Xtensa Xplorer, version is 10.1.11
Xtensa C Compiler, version is RI-2023.11

RISCV LLVM 14.0.0

Supported development systems

This release supports board and devices listed in following table. The board and devices in bold were tested in this release.

Development boards	MCU devices
MIMXRT700-EVK	MIMXRT798SGAWAR, MIMXRT798SGFOA, MIMXRT735SGAWAR, MIMXRT735SGFOA, MIMXRT758SGAWAR, MIMXRT758SGFOA

MCUXpresso SDK release package

The MCUXpresso SDK release package content is aligned with the silicon subfamily it supports. This includes the boards, CMSIS, devices, middleware, and RTOS support.

Device support

The device folder contains the whole software enablement available for the specific System-on-Chip (SoC) subfamily. This folder includes clock-specific implementation, device register header files, device register feature header files, and the system configuration source files. Included with the standard SoC support are folders containing peripheral drivers, toolchain support, and a standard debug console. The device-specific header files provide a direct access to the microcontroller peripheral registers. The device header file provides an overall SoC memory mapped register definition. The folder also includes the feature header file for each peripheral on the microcontroller. The toolchain folder contains the startup code and linker files for each supported toolchain. The startup code efficiently transfers the code execution to the main() function.

Board support

The boards folder provides the board-specific demo applications, driver examples, and middleware examples.

Demo application and other examples

The demo applications demonstrate the usage of the peripheral drivers to achieve a system level solution. Each demo application contains a readme file that describes the operation of the demo and required setup steps. The driver examples demonstrate the capabilities of the peripheral drivers. Each example implements a common use case to help demonstrate the driver functionality.

RTOS

FreeRTOS

Real-time operating system for microcontrollers from Amazon

Middleware

Wireless EdgeFast Bluetooth PAL

For more information, see the MCUXpresso SDK EdgeFast Bluetooth Protocol Abstraction Layer User’s Guide.

IoT Sensing Software Development Kit (ISSDK)

The IoT Sensing Software Development Kit (ISSDK) is the embedded software framework enabling the NXP digital and analog sensors for IoT applications. ISSDK combines a set of robust sensor drivers and algorithms along with example applications that allow users to get started with using NXP IoT motion & pressure sensors. ISSDK is being offered as a middleware component in MCUXpresso SDK.

coreHTTP

coreHTTP

openvg

OpenVG library for devices with graphics acceleration hardware

NXP Wi-Fi

The MCUXpresso SDK provides driver for NXP Wi-Fi external modules. The Wi-Fi driver is integrated with LWIP TCPIP stack and demonstrated with several network applications (iperf and AWS IoT).

For more information, see Getting Started with NXP based Wireless Modules and i.MX RT Platform Running on RTOS (document: UM11441).

Voice intelligent technology library

Voice Intelligent Technology (VIT) Library provides wake word and voice command engine for voice control

VG-Lite GPU Library

VGLite library for devices with VGLite graphics hardware acceleration engine

USB Type-C PD Stack

See the MCUXpresso SDK USB Type-C PD Stack User’s Guide (document MCUXSDKUSBPDUG) for more information

USB Host, Device, OTG Stack

See the MCUXpresso SDK USB Stack User’s Guide (document MCUXSDKUSBSUG) for more information.

TinyCBOR

Concise Binary Object Representation (CBOR) Library

PSA Test Suite

Arm Platform Security Architecture Test Suite

SDMMC stack

The SDMMC software is integrated with MCUXpresso SDK to support SD/MMC/SDIO standard specification. This also includes a host adapter layer for bare-metal/RTOS applications.

PKCS#11

The PKCS#11 standard specifies an application programming interface (API), called “Cryptoki,” for devices that hold cryptographic information and perform cryptographic functions. Cryptoki follows a simple object based approach, addressing the goals of technology independence (any kind of device) and resource sharing (multiple applications accessing multiple devices), presenting to applications a common, logical view of the device called a “cryptographic token”.

Multicore

Multicore Software Development Kit

MCU Boot

Open source MCU Bootloader.

mbedTLS

mbedtls SSL/TLS library v3.x

lwIP

The lwIP TCP/IP stack is pre-integrated with MCUXpresso SDK and runs on top of the MCUXpresso SDK Ethernet driver with Ethernet-capable devices/boards.

For details, see the lwIP TCPIP Stack and MCUXpresso SDK Integration User’s Guide (document MCUXSDKLWIPUG).

lwIP is a small independent implementation of the TCP/IP protocol suite.

eIQ

The package contains several example applications using the eIQ TensorFlow Lite for Microcontrollers library.

eIQ machine learning SDK containing:

Arm CMSIS-NN library (neural network kernels optimized for Cortex-M cores)
Inference engines:
- TensorFlow Lite Micro
- DeepView RT
Example code for TensorFlow Lite Micro, Glow, and DeepView RT

LVGL

LVGL Open Source Graphics Library

llhttp

HTTP parser llhttp

LittleFS

LittleFS filesystem stack

JPEG library

JPEG library

FreeMASTER

FreeMASTER communication driver for 32-bit platforms.

File systemFatfs

The FatFs file system is integrated with the MCUXpresso SDK and can be used to access either the SD card or the USB memory stick when the SD card driver or the USB Mass Storage Device class implementation is used.

emWin

The MCUXpresso SDK is pre-integrated with the SEGGER emWin GUI middleware. The AppWizard provides developers and designers with a flexible tool to create stunning user interface applications, without writing any code.

DSP Neural Networks

DSP Neural Networks Framework based on Xtensa Neural Networks Library from Cadence Design Systems for Xtensa HiFi Audio Engines.

NatureDSP for Hifi4

Digital Signal Processing for Xtensa Hifi4 DSP Audio Engines.

NatureDSP for Hifi1

Digital Signal Processing for Xtensa Hifi1 DSP Audio Engines.

DSP Audio Streamer

DSP Audio Streamer Framework based on Xtensa Audio Framework from Cadence Design Systems for Xtensa DSP Audio Engines.

DSP Codecs for HiFi4

DSP Codecs for HiFi4

DSP Codecs for Hifi1

DSP Codecs for HiFi1

AWS IoT

Amazon Web Service (AWS) IoT Core SDK.

NXP PSA CRYPTO DRIVER

PSA crypto driver for crypto library integration via driver wrappers

NXP ELS PKC

ELS PKC crypto library

CMSIS DSP Library

The MCUXpresso SDK is shipped with the standard CMSIS development pack, including the prebuilt libraries.

Release contents

Provides an overview of the MCUXpresso SDK release package contents and locations.

Deliverable	Location
Boards	INSTALL_DIR/boards
Demo Applications	INSTALL_DIR/boards/<board_name>/demo_apps
Driver Examples	INSTALL_DIR/boards/<board_name>/driver_examples
eIQ examples	INSTALL_DIR/boards/<board_name>/eiq_examples
Board Project Template for MCUXpresso IDE NPW	INSTALL_DIR/boards/<board_name>/project_template
Driver, SoC header files, extension header files and feature header files, utilities	INSTALL_DIR/devices/<device_name>
CMSIS drivers	INSTALL_DIR/devices/<device_name>/cmsis_drivers
Peripheral drivers	INSTALL_DIR/devices/<device_name>/drivers
Toolchain linker files and startup code	INSTALL_DIR/devices/<device_name>/<toolchain_name>
Utilities such as debug console	INSTALL_DIR/devices/<device_name>/utilities
Device Project Template for MCUXpresso IDE NPW	INSTALL_DIR/devices/<device_name>/project_template
CMSIS Arm Cortex-M header files, DSP library source	INSTALL_DIR/CMSIS
Components and board device drivers	INSTALL_DIR/components
RTOS	INSTALL_DIR/rtos
Release Notes, Getting Started Document and other documents	INSTALL_DIR/docs
Tools such as shared cmake files	INSTALL_DIR/tools
Middleware	INSTALL_DIR/middleware

Known issues

None

lwip_httpssrv_ota_wifi example fails to accept the new image on EVKMIMXRT685

After uploading the new image over https, and rebooting the board the new image starts. However, reboot starts it is not possible to accept the update and make it permanent. This issue is specific to combination of EVKMIMXRT685 board and AW-NM191NF-uSD Wi-Fi module. Other configurations are not affected.

The aws_shadow_wifi_nxp example doesn’t work

The example ends with message: Failed to initialize file system.

Affected toolchains: mcux Affected platforms: mimxrt700evk

The flexio_spi_int_b2b flexio_spi_edma_b2b examples don’t work

Boards cannot transfer data successfully.

Affected toolchains: armgcc, mdk Affected platforms: mimxrt700evk

EdgeFast_Bluetooth handsfree example codec init fail

The audio codec initialization can fail during “bt aincall” command.

Workaround: Manually release the I2C bus by temporarily configuring the I2C pin as GPIO before codec initialization Examples: handsfree, handsfree_ag Affected platforms: mimxrt700evk

XAF_playback limitation

SBC decoder is not working on the hifi4 core of RT700.