SLAAE74A December   2022  – March 2023 MSPM0G1105 , MSPM0G1106 , MSPM0G1107 , MSPM0G1505 , MSPM0G1506 , MSPM0G1507 , MSPM0G3105 , MSPM0G3106 , MSPM0G3107 , MSPM0G3505 , MSPM0G3506 , MSPM0G3507 , MSPM0L1105 , MSPM0L1106 , MSPM0L1303 , MSPM0L1304 , MSPM0L1305 , MSPM0L1306 , MSPM0L1343 , MSPM0L1344 , MSPM0L1345 , MSPM0L1346

 

  1.   Abstract
  2.   Trademarks
  3. 1Software Porting Flow
  4. 2Development Environments
    1. 2.1 Integrated Development Environments (IDEs)
    2. 2.2 Software Ecosystems
      1. 2.2.1 MSP430 Software Support Package: MSP430Ware
        1. 2.2.1.1 Register-Level Example Code
        2. 2.2.1.2 Driver Library
        3. 2.2.1.3 Middleware
      2. 2.2.2 MSPM0 Software Support Package: MSPM0SDK
    3. 2.3 SysConfig for MSPM0 MCUs
      1. 2.3.1 Standalone SysConfig
      2. 2.3.2 CCS-Integrated SysConfig
      3. 2.3.3 Example of a SysConfig Project
    4. 2.4 MSP430 and MSPM0 Projects
    5. 2.5 Debugger Interfaces
      1. 2.5.1 MSP430 Debugger
        1. 2.5.1.1 MSPFET Connection Interface
      2. 2.5.2 MSPM0 Debugger
        1. 2.5.2.1 MSPM0 Debug Port Pins and Pinout
  5. 3Migration Considerations
    1. 3.1  Peripherals
    2. 3.2  System Clocks
      1. 3.2.1 Oscillators
        1. 3.2.1.1 MSPM0 Oscillators
      2. 3.2.2 Clock Signals
    3. 3.3  Operation Modes
    4. 3.4  Nonvolatile Memory (NVM)
      1. 3.4.1 MSPM0 Memory Protection Unit
      2. 3.4.2 MSP430 FRAM and MSPM0 Flash
      3. 3.4.3 MSP430 Flash and MSPM0 Flash
    5. 3.5  Event and Interrupt Handling
    6. 3.6  Reset Levels
    7. 3.7  GPIOs and Pin Multiplexing
    8. 3.8  Communication Interfaces
      1. 3.8.1 SPI
      2. 3.8.2 I2C
      3. 3.8.3 UART
      4. 3.8.4 CAN FD
    9. 3.9  BSL
    10. 3.10 Analog Peripherals
      1. 3.10.1 SAR ADC
        1. 3.10.1.1 Simultaneous Sampling
        2. 3.10.1.2 Window Comparator
      2. 3.10.2 COMP
        1. 3.10.2.1 Window Compare Mode
      3. 3.10.3 OPA
    11. 3.11 Timers
    12. 3.12 Hardware Design Guide
  6. 4Revision History

Abstract

The MSP430™ devices have nearly 30 years of history as TI's classic microcontroller. Many customers have used MSP430 MCUs on different projects and are still using them today. The new generation of MSPM0 products adopts the Arm® Cortex®-M0+ core, which has more function-rich peripheral resources and a smaller package. With the development of new products or upgrades to old products, you might have the need to use the newer MSP devices. This application note describes migration of software from MSP430 MCUs to MSPM0 MCUs.
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