Implementing Low Power with Sleepwalking | Peripheral Deep Dive (part 2)

In Part 2 of the Sleep Walking Deep Dive, we move from theory to implementation on a 32-bit microcontroller. After introducing the sleepwalking peripherals and low power operation in Part 1, this video demonstrates how to configure the Peripherals for a low power application using MPLAB® Code Configurator (MCC) inside VS Code® with the MPLAB Extensions. Using the PIC32CM PL10 Curiosity Nano, and curiosity nano explorer board to create an event responsive application. When the potentiometer is moved, a message is sent over UART and the an LED is blinked. The board will then operate in an idle or sleep mode when not interacted with. This example shows how ADC, RTC, GPIO, and UART can be combined to build a simple low-power application. What You'll Learn • Create a project in VS Code using MPLAB Extensions • Configure peripherals with MPLAB Code Configurator (MCC) • Set up peripherals in low power operations • Send messages over UART Resources PIC32CM PL10 Product Page : https://mchp.us/4u0TTwR PIC32CM PL10 Curiosity Nano Evaluation Kit : https://mchp.us/4tQxOAQ Sleepwalking Deep Dive – Part 1 : https://youtu.be/0rRYdcM6sbU?si=WuGufMJyMxw1nFEH Source Code for This Example : https://github.com/microchip-pic-avr-examples/pic32cm-pl10-getting-started-vscode-mplab MPLAB Extensions for VS Code: https://mchp.us/4888RZy