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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...
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First 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.
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LPC800 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...
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LPC800 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...
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Getting 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...
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LPC812 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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