Cortex-M0+ hits spot for low-power systems
The Cortex-M0+ processor builds on the successful Cortex-M0 processor released in 2009. The Cortex-M0 processor provides excellent code density and best in class energy efficiency in about the same...
View ArticleFirst Thoughts on NXP's New M0+ LPC800 MCUs
At Electronica today, NXP unveiled the details of their new LPC800 family, their first MCUs based on ARMs smallest, lowest-power core to date, the ARM Cortex M0+. As a long-time ARM Cortex M0 and LPC...
View ArticleIntroducing the Cortex-M0+ Processor
The ARM Cortex-M0+ processor has just been announced. In this article we will introduce this new processor and explain how it can bring additional advantages to your embedded products.
View ArticleLPC800 Switch Matrix: Making life easier one pin at a time
As a follow-up to my earlier blog post on NXP's new ARM Cortex M0+ LPC800 family of MCUs -- First Thoughts on NXP's New M0+ LPC800 MCUs -- I wanted to dig into what's probably the most innovative...
View ArticleLPC800 Low Power Features
Low power is at the heart of the ARM Cortex M0+ core and NXP's LPC800 family. Its power-to-performance ratio is one of the most compelling arguments in its favor.Aside from the clear performance gains...
View ArticleGetting Started with the LPC810
Adafruit Industries getting started guide for the DIP8 LPC810 explains how to program the devices using any inexpensive USB-UART adapter cable, and how to set it up in a breadboard for quick...
View ArticleLPC812 MAX Experiment: Overview
The LPC812 MAX Experiment Kit has been created as a guided tour to learn embedded programming with the mbed framework and the NXP's LPC800 microcontroller family with Cortex-M0+ core. The experiments...
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