Overview

The Microchip PIC32CM-LE Series Device Family Pack (DFP) is a CMSIS-Pack that:

• Enables compatible tools with device support.
• Contains support files for the MPLAB XC32 Compiler.
• Contains support files for the GCC compiler.
• Contains support files for the Arm Compiler for Embedded.
• Contains support files for the IAR Embedded Development Tools.
• Contains System View Description (SVD) descriptions of the peripherals.
• Flash algorithms for the on-chip flash memory.

Related packs

    - pack: ARM::CMSIS

Devices

PIC32CM1216LE00032

PIC32CM LE00 family of devices based on Arm® Cortex®-M23 processor bring ultra-low power, superior touch, and smart analog integration in one chip. They feature innovative low power techniques including SleepWalking peripherals, industry leading water tolerant touch, Op Amps, Analog to Digital Converter (ADC) & Digital to Analog Converter (DAC). They are supported by MPLABX IDE, MPLAB Harmony v3 and MPLAB Code Configurator (MCC).

Documentation:

• PIC32CM LE00/LS00/LS60 Family Data Sheet
• PIC32CM LE00/LS00/LS60 Family Data Sheet

Application Notes:

• AN4068 - PIC32CM LE00/LS00/LS60 Low-Power Features
• SERCOM USART on Microchip Cortex Devices (SAM and PIC32C)

Additional Documents:

• Atmel START to MPLAB Harmony v3 Migration Guide
• MPLAB Harmony Overview
• MPLAB Harmony v3 Synchronous Drivers and Their Usage in FreeRTOS-Based Applications
• MPLAB XC32 C/C++ Compiler User's Guide for PIC32C/SAM MCUs

PIC32CM1216LE00048

PIC32CM LE00 family of devices based on Arm® Cortex®-M23 processor bring ultra-low power, superior touch, and smart analog integration in one chip. They feature innovative low power techniques including SleepWalking peripherals, industry leading water tolerant touch, Op Amps, Analog to Digital Converter (ADC) & Digital to Analog Converter (DAC). They are supported by MPLABX IDE, MPLAB Harmony v3 and MPLAB Code Configurator (MCC).

Documentation:

• PIC32CM LE00/LS00/LS60 Family Data Sheet
• PIC32CM LE00/LS00/LS60 Family Data Sheet

Application Notes:

• AN4068 - PIC32CM LE00/LS00/LS60 Low-Power Features
• SERCOM USART on Microchip Cortex Devices (SAM and PIC32C)

Additional Documents:

• Atmel START to MPLAB Harmony v3 Migration Guide
• MPLAB Harmony Overview
• MPLAB Harmony v3 Synchronous Drivers and Their Usage in FreeRTOS-Based Applications
• MPLAB XC32 C/C++ Compiler User's Guide for PIC32C/SAM MCUs

PIC32CM2532LE00048

PIC32CM LE00 family of devices based on Arm® Cortex®-M23 processor bring ultra-low power, superior touch, and smart analog integration in one chip. They feature innovative low power techniques including SleepWalking peripherals, industry leading water tolerant touch, Op Amps, Analog to Digital Converter (ADC) & Digital to Analog Converter (DAC). They are supported by MPLABX IDE, MPLAB Harmony v3 and MPLAB Code Configurator (MCC).

Documentation:

• PIC32CM LE00/LS00/LS60 Family Data Sheet
• PIC32CM LE00/LS00/LS60 Family Data Sheet

Application Notes:

• AN4068 - PIC32CM LE00/LS00/LS60 Low-Power Features
• AN4511 - Getting Started with the PIC32CM LE00/LS00/LS60 Curiosity Pro Board
• SERCOM USART on Microchip Cortex Devices (SAM and PIC32C)

Additional Documents:

• MPLAB Harmony v3 Synchronous Drivers and Their Usage in FreeRTOS-Based Applications
• Atmel START to MPLAB Harmony v3 Migration Guide
• MPLAB Harmony Overview
• MPLAB XC32 C/C++ Compiler User's Guide for PIC32C/SAM MCUs
• How to Setup MPLAB Harmony v3 Software Development Framework
• 32-bit Microcontroller Collateral and Solutions Reference Guide

PIC32CM2532LE00064

PIC32CM LE00 family of devices based on Arm® Cortex®-M23 processor bring ultra-low power, superior touch, and smart analog integration in one chip. They feature innovative low power techniques including SleepWalking peripherals, industry leading water tolerant touch, Op Amps, Analog to Digital Converter (ADC) & Digital to Analog Converter (DAC). They are supported by MPLABX IDE, MPLAB Harmony v3 and MPLAB Code Configurator (MCC).

Documentation:

• PIC32CM LE00/LS00/LS60 Family Data Sheet
• PIC32CM LE00/LS00/LS60 Family Data Sheet

Application Notes:

• AN4068 - PIC32CM LE00/LS00/LS60 Low-Power Features
• AN4511 - Getting Started with the PIC32CM LE00/LS00/LS60 Curiosity Pro Board
• SERCOM USART on Microchip Cortex Devices (SAM and PIC32C)

Additional Documents:

• The Differences Between MPLAB Harmony v3 Synchronous and Asynchronous Drivers and When to Use Them
• MPLAB Harmony v3 Synchronous Drivers and Their Usage in FreeRTOS-Based Applications
• Atmel START to MPLAB Harmony v3 Migration Guide
• MPLAB Harmony Overview
• MPLAB XC32 C/C++ Compiler User's Guide for PIC32C/SAM MCUs
• 32-bit Quick Reference Guide
• How to Setup MPLAB Harmony v3 Software Development Framework
• 32-bit Microcontroller Collateral and Solutions Reference Guide

PIC32CM2532LE00100

PIC32CM LE00 family of devices based on Arm® Cortex®-M23 processor bring ultra-low power, superior touch, and smart analog integration in one chip. They feature innovative low power techniques including SleepWalking peripherals, industry leading water tolerant touch, Op Amps, Analog to Digital Converter (ADC) & Digital to Analog Converter (DAC). They are supported by MPLABX IDE, MPLAB Harmony v3 and MPLAB Code Configurator (MCC).

Documentation:

• PIC32CM LE00/LS00/LS60 Family Data Sheet
• PIC32CM LE00/LS00/LS60 Family Data Sheet

Application Notes:

• AN4068 - PIC32CM LE00/LS00/LS60 Low-Power Features
• AN4511 - Getting Started with the PIC32CM LE00/LS00/LS60 Curiosity Pro Board
• SERCOM USART on Microchip Cortex Devices (SAM and PIC32C)

Additional Documents:

• MPLAB Harmony v3 Synchronous Drivers and Their Usage in FreeRTOS-Based Applications
• Atmel START to MPLAB Harmony v3 Migration Guide
• MPLAB Harmony Overview
• MPLAB XC32 C/C++ Compiler User's Guide for PIC32C/SAM MCUs
• How to Setup MPLAB Harmony v3 Software Development Framework
• 32-bit Microcontroller Collateral and Solutions Reference Guide

PIC32CM5164LE00048

PIC32CM LE00 family of devices based on Arm® Cortex®-M23 processor bring ultra-low power, superior touch, and smart analog integration in one chip. They feature innovative low power techniques including SleepWalking peripherals, industry leading water tolerant touch, Op Amps, Analog to Digital Converter (ADC) & Digital to Analog Converter (DAC). They are supported by MPLABX IDE, MPLAB Harmony v3 and MPLAB Code Configurator (MCC).

Documentation:

• PIC32CM LE00/LS00/LS60 Family Data Sheet
• PIC32CM LE00/LS00/LS60 Family Data Sheet

Application Notes:

• AN4068 - PIC32CM LE00/LS00/LS60 Low-Power Features
• AN4511 - Getting Started with the PIC32CM LE00/LS00/LS60 Curiosity Pro Board
• SERCOM USART on Microchip Cortex Devices (SAM and PIC32C)

Additional Documents:

• MPLAB Harmony v3 Synchronous Drivers and Their Usage in FreeRTOS-Based Applications
• Atmel START to MPLAB Harmony v3 Migration Guide
• MPLAB Harmony Overview
• MPLAB XC32 C/C++ Compiler User's Guide for PIC32C/SAM MCUs
• How to Setup MPLAB Harmony v3 Software Development Framework
• 32-bit Microcontroller Collateral and Solutions Reference Guide

PIC32CM5164LE00064

PIC32CM LE00 family of devices based on Arm® Cortex®-M23 processor bring ultra-low power, superior touch, and smart analog integration in one chip. They feature innovative low power techniques including SleepWalking peripherals, industry leading water tolerant touch, Op Amps, Analog to Digital Converter (ADC) & Digital to Analog Converter (DAC). They are supported by MPLABX IDE, MPLAB Harmony v3 and MPLAB Code Configurator (MCC).

Documentation:

• PIC32CM LE00/LS00/LS60 Family Data Sheet
• PIC32CM LE00/LS00/LS60 Family Data Sheet

Application Notes:

• AN4068 - PIC32CM LE00/LS00/LS60 Low-Power Features
• Introduction to MPLAB Harmony v3 for Atmel Studio and ASF Users
• AN4511 - Getting Started with the PIC32CM LE00/LS00/LS60 Curiosity Pro Board
• SERCOM USART on Microchip Cortex Devices (SAM and PIC32C)

Additional Documents:

• The Differences Between MPLAB Harmony v3 Synchronous and Asynchronous Drivers and When to Use Them
• MPLAB Harmony v3 Synchronous Drivers and Their Usage in FreeRTOS-Based Applications
• Atmel START to MPLAB Harmony v3 Migration Guide
• MPLAB Harmony Overview
• MPLAB XC32 C/C++ Compiler User's Guide for PIC32C/SAM MCUs
• How to Setup MPLAB Harmony v3 Software Development Framework
• 32-bit Microcontroller Collateral and Solutions Reference Guide

PIC32CM5164LE00100

PIC32CM LE00 family of devices based on Arm® Cortex®-M23 processor bring ultra-low power, superior touch, and smart analog integration in one chip. They feature innovative low power techniques including SleepWalking peripherals, industry leading water tolerant touch, Op Amps, Analog to Digital Converter (ADC) & Digital to Analog Converter (DAC). They are supported by MPLABX IDE, MPLAB Harmony v3 and MPLAB Code Configurator (MCC).

Documentation:

• PIC32CM LE00/LS00/LS60 Family Data Sheet
• PIC32CM LE00/LS00/LS60 Family Data Sheet

Application Notes:

• AN4068 - PIC32CM LE00/LS00/LS60 Low-Power Features
• AN4511 - Getting Started with the PIC32CM LE00/LS00/LS60 Curiosity Pro Board
• SERCOM USART on Microchip Cortex Devices (SAM and PIC32C)

Additional Documents:

• MPLAB Harmony v3 Synchronous Drivers and Their Usage in FreeRTOS-Based Applications
• Atmel START to MPLAB Harmony v3 Migration Guide
• MPLAB Harmony Overview
• MPLAB XC32 C/C++ Compiler User's Guide for PIC32C/SAM MCUs
• How to Setup MPLAB Harmony v3 Software Development Framework
• 32-bit Microcontroller Collateral and Solutions Reference Guide

Videos

• https://www.youtube.com/watch?v=tigCfhOmqmc

MISRA-C:2023 Compliance Deviations List

Deviation ID: MFWCG-40

• Rule 5.5: Identifiers shall be distinct from macro names.
• Use case: Identifiers corresponding to register names.

Example:

```C typedef union { struct { uint32_t GPIO:29; uint32_t :3; } vec; uint32_t reg; } ECIA_SRC8_Type;

#define GPIO (0x40081000) ```

• Reason: Access to hardware.

The macros expand into the same identifiers, which allow users to detect for the presence of specific registers during preprocessing.

• Scope: Device headers for the DEC15xx and MEC15xx family (<device-name>.h).

Deviation ID: MFWCG-42

• Rule 20.9: All identifiers used in the controlling expression of #if or #elif preprocessing directives shall be #define'd before evaluation.
• Use case: Use of compiler builtin macros.

Example:

C #ifdef (__ARM_FP == 14) || (__ARM_FP == 4) fpu_enable(); #endif

• Reason: Access to hardware.

Headers may rely on builtin macros from the compiler and are written under the assumption that if the macro is not defined, its value is zero.

• Scope: All device headers (<device-name>.h).

Deviation ID: MFWCG-43

• Rule 21.1: #define and #undef shall not be used on a reserved identifier or reserved macro name.
• Use case: Reserved names, beginning with _ followed by a capital letter or __ followed by a lower-case are within the compiler's namespace.

Example:

C #define __IO volatile

• Reason: Access to hardware; Code Quality (Usability: Accessibility).

Within these headers originate many reserved names that are within the compiler's namespace.

• Scope: All device headers (<device-name>.h).

Deviation ID: MFWCG-44

• Rule 21.2: A reserved identifier or reserved macro name shall not be declared.
• Use case: Reserved names, beginning with _ followed by a capital letter or __ followed by a lower-case are within the compiler's namespace.

Example:

C extern const VECTOR_TABLE_Type __VECTOR_TABLE;

• Reason: Access to hardware; Code Quality (Usability: Accessibility).

Within these headers originate many reserved names that are within the compiler's namespace.

• Scope: All device headers (<device-name>.h).

Support

For support questions, contact Microchip Support through https://www.microchip.com/en-us/support.