The ATmega4809 is a microcontroller featuring the 8-bit AVR® processor with hardware multiplier – running at up to 20MHz and with up to 48 KB Flash, 6 KB SRAM and 256 bytes of EEPROM in 48-pin ...

Microchip Technology Inc. launches new generation of 8-bit tinyAVR® MCUs. These new devices are the first tinyAVR® microcontrollers to feature Core Independent Peripherals(CIPs). CIPs allow the ...

As amazing as CircuitPython is, it hasn’t yet been ported to any 8-bit microcontrollers. [Chris Heo] was unsatisfied with his inability to use Python on his 8-bit ATmega4808 AVR, so he worked out a ...

With the rise of the ARM processor architecture and the widespread adoption of 32-bit microcontrollers it would be all too easy to assume that as 32-bit chips fall in price and power then the argument ...

Microchip has announced four new 8-bit tinyAVR MCUs, ranging from 14 to 24 pins and 4KB to 8KB of flash. They’re the first tinyAVR micro controllers to feature Core Independent peripherals (CIPs).

Microchip's Clifford Swartz presents the 8-bit AVR microcontroller with cellular connectivity. The EV70N78A AVR IoT-Cellular Mini evaluation module hosts an AVR128DB48 AVR 8-bit microcontroller along ...

The rise in popularity of 32-bit microcontroller (MCU) devices across the embedded community comes as no surprise. These function-rich devices suit an array of different applications, which explains ...

Most broadband solutions use high-end 32-bit processors coupled with large external memories and specialized media-access controllers (MACs), ASICs or FPGAs. There are several reasons that system ...

Whenever we write up a feature on a microcontroller or microcontroller project here on Hackaday, we inevitably get two diametrically opposed opinions in the comments. If the article featured an 8-bit ...