Maxim’s microcontrollers provide low-power, efficient, and secure solutions for challenging embedded applications. Maxim’s processors embed cutting-edge technologies to secure data and intellectual property, proven analog circuitry for real-world applications, and battery-conserving low power operation.
For more detailed information please visit vendor site.
Examples are listed from Maxim 32 development platform repository:
PIO Unified Debugger - “1-click” solution for debugging with a zero configuration.
Boards listed below have on-board debugging tools and ARE READY for debugging! You do not need to use/buy external debugger.
||Maxim ARM mbed Enabled Development Platform for MAX32600||CMSIS-DAP (on-board)||MAX32600||24MHz||256KB||32KB|
; Latest stable version [env:latest_stable] platform = maxim32 board = ... ; Custom stable version [env:custom_stable] platform = firstname.lastname@example.org board = ...
[env:upstream_develop] platform = https://github.com/platformio/platform-maxim32.git board = ...
|tool-pyocd||Open source python library for programming and debugging ARM Cortex-M microcontrollers using CMSIS-DAP|
|mbed||The mbed framework The mbed SDK has been designed to provide enough hardware abstraction to be intuitive and concise, yet powerful enough to build complex projects. It is built on the low-level ARM CMSIS APIs, allowing you to code down to the metal if needed. In addition to RTOS, USB and Networking libraries, a cookbook of hundreds of reusable peripheral and module libraries have been built on top of the SDK by the mbed Developer Community.|
||Maxim ARM mbed Enabled Development Platform for MAX32600||Yes||MAX32600||24MHz||256KB||32KB|
||Maxim Health Sensor Platform||No||MAX32620||96MHz||2MB||256KB|
||Maxim MAX32630FTHR Application Platform||No||MAX32630||96MHz||2MB||512KB|
||Maxim Wireless Sensor Node Demonstrator||Yes||MAX32610||24MHz||256KB||32KB|