Category: Mcu
![Meet the New USB Type-C based, PIC32 Development Board from Lophtware Meet the New USB Type-C based, PIC32 Development Board from Lophtware](https://www.electronics-lab.com/wp-content/uploads/2020/08/PIC32-Breakout-Board-1024x683.jpg)
Meet the New USB Type-C based, PIC32 Development Board from Lophtware
The USB Type-C / PIC32 development board from Lophtware is a low-cost Microchip PIC32-based development board, compatible with HID (Human Interface Device) endpoint standard. It is a USB 2.0 Type-C / PIC32 breakout board that offers full-speed USB 2.0 development for breadboarding and...
Continue Reading![Azzy Electronics Launches Breakout boards for the new AVR DA-series Azzy Electronics Launches Breakout boards for the new AVR DA-series](https://www.electronics-lab.com/wp-content/uploads/2020/08/Screenshot_2020-08-19-AVR128DA-breakout-board-assembled-by-Azzys-Electronics-on-Tindie.jpg)
Azzy Electronics Launches Breakout boards for the new AVR DA-series
AVR DA Product Family are known for real time control functionality and easy capacitive touch to the low power performance of AVR Microcontrollers. It pairs the latest Core Independent Peripherals (CIPs) with a robust Intelligent Analog portfolio to create a device that not only...
Continue Reading![ST Release STM32WB Wireless Microcontrollers with Zigbee® 3.0 ST Release STM32WB Wireless Microcontrollers with Zigbee® 3.0](https://www.electronics-lab.com/wp-content/uploads/2020/08/zigbee_pro_800.jpg)
ST Release STM32WB Wireless Microcontrollers with Zigbee® 3.0
STM32WB55 microcontrollers also support Thread and Bluetooth 5.0 with Flash Memory up to 1Mb STMicroelectronics STM32WB55 Wireless Microcontrollers now incorporate Zigbee® 3.0, based on Zigbee PRO protocol stack support, enabling STM32 developers to leverage the interoperability and...
Continue Reading![World’s First Development Board Based on the Swift Programming Language World’s First Development Board Based on the Swift Programming Language](https://www.electronics-lab.com/wp-content/uploads/2020/08/Screen-Shot-2020-08-19-at-7.45.14-PM-1024x601.jpg)
World’s First Development Board Based on the Swift Programming Language
One growing trend across the embedded systems development world is the development of boards, Microcontrollers, and general development platforms, that aim to be more inclusive, with respect to supporting other programming languages asides the traditional C/C++ that are synonymous with...
Continue Reading![MAX32670 – High Reliability, Ultra-Low Power Microcontroller Powered by Arm Cortex M4 Processor MAX32670 – High Reliability, Ultra-Low Power Microcontroller Powered by Arm Cortex M4 Processor](https://www.electronics-lab.com/wp-content/uploads/2020/08/maxim-max32670-bd-1024x634.jpg)
MAX32670 – High Reliability, Ultra-Low Power Microcontroller Powered by Arm Cortex M4 Processor
In the Darwin family, the MAX32670 is an ultra-low power, cost-effective, high reliability 32-bit microcontroller enabling designs with complex sensor processing without compromising battery life. It combines a flexible and versatile power management unit with the powerful Arm®...
Continue Reading![Reboot-o-matic is an Automatic power-cycling microcontroller and a DC power interrupting watchdog Reboot-o-matic is an Automatic power-cycling microcontroller and a DC power interrupting watchdog](https://www.electronics-lab.com/wp-content/uploads/2020/08/Screenshot_2020-08-04-Reboot-o-matic-by-Geppetto-Electronics-on-Tindie.jpg)
Reboot-o-matic is an Automatic power-cycling microcontroller and a DC power interrupting watchdog
Nick Sayer has posted on Hackaday his recent project, the Reboot-o-matic, which is a Automatic power-cycling microcontroller. The inspiration for the project came when he saw the need to monitor remotely some home automation devices in their vacation home over the internet remotely,...
Continue Reading![Meet the AtmegaZero: An ATmega32U4 with a Raspberry Pi Zero Form Factor Meet the AtmegaZero: An ATmega32U4 with a Raspberry Pi Zero Form Factor](https://www.electronics-lab.com/wp-content/uploads/2020/08/Screen-Shot-2020-08-03-at-8.32.54-PM-1024x752.jpg)
Meet the AtmegaZero: An ATmega32U4 with a Raspberry Pi Zero Form Factor
Arduino and others have produced quite a number of Arduino-compatible boards with small form factors, but most of them are not compatible with standard shields and other platform niceties. Instead, they end up being just breakout boards for the microcontroller. On the other hand of...
Continue Reading![Getting Started with STM8S using STVD and Cosmic C Compiler Getting Started with STM8S using STVD and Cosmic C Compiler](https://www.electronics-lab.com/wp-content/uploads/2020/08/STM8s-blue.jpg)
Getting Started with STM8S using STVD and Cosmic C Compiler
Last time we examined how to program the STM8s microcontroller using the Arduino IDE. This way may work for developers who are familiar with the IDE and want to build quickly, and professional projects, but there are more ways to get the same result. Thus for today’s tutorial, we are...
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