Tag: STM32L4
![X-CUBE-AZURE – Microsoft Azure software expansion for STM32Cube X-CUBE-AZURE – Microsoft Azure software expansion for STM32Cube](https://www.electronics-lab.com/wp-content/uploads/2020/08/st-x-cube-azure.jpg)
X-CUBE-AZURE – Microsoft Azure software expansion for STM32Cube
The X-CUBE-AZURE Expansion Package consists of a set of libraries and application examples for STM32L4 Series, STM32F4 Series, and STM32F7 Series microcontrollers acting as end devices. X-CUBE-AZURE runs on four platforms. The B-L475E-IOT01A and 32F413HDISCOVERY boards support Wi-Fi®...
Continue Reading![Getting Started with STM32G0 Getting Started with STM32G0](https://www.electronics-lab.com/wp-content/uploads/2019/01/STM32G0.png)
Getting Started with STM32G0
The STM32G0 is ST's newest series of mainstream microcontrollers (MCU) for cost-oriented consumer and industrial applications. [via] This new generation offers an Arm® Cortex®-M0+ core at 64 MHz as well as a Securable Memory Area, more RAM and Flash, numerous I/Os, and more...
Continue Reading![SensorTile, An Accurate Development Kit For Biometric Wearables SensorTile, An Accurate Development Kit For Biometric Wearables](https://www.electronics-lab.com/wp-content/uploads/2017/01/301c48d603db267c9025d14e206c1b09_original-e1484308162156-994x1024.jpg)
SensorTile, An Accurate Development Kit For Biometric Wearables
Valencell, a biometric wearable sensor technology company, in partnership with STMicroelectronics, an electronics and semiconductor manufacturer, announced a new highly accurate and scalable development kit for biometric wearables. The kit combines ST's compact SensorTile turnkey...
Continue Reading![Butterfly & Ladybug, STM32L4-Based Arduino-Programable Development Boards Butterfly & Ladybug, STM32L4-Based Arduino-Programable Development Boards](https://www.electronics-lab.com/wp-content/uploads/2017/01/DragonFly.jpg)
Butterfly & Ladybug, STM32L4-Based Arduino-Programable Development Boards
Arduino boards are very useful for beginners to get started with building hardware projects. But at some point, more powerful controller than the Arduino’s 8 MHz one will be needed, featuring faster clock rate, floating point engine, and rich peripherals. As Kris Winer found, the...
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