03-11-2023 | Mouser Electronics | Semiconductors
Mouser has released a new eBook in collaboration with Microchip Technology, highlighting value propositions and use cases for 8-bit MCUs. In 'The Mighty 8-Bit Microcontroller', industry thought leaders present unique perspectives on how 8-bit MCUs can be the perfect choice in automotive, industrial, medical and consumer electronic applications, even over more powerful 16- and 32-bit devices.
In automotive applications, 8-bit MCUs can be favoured in vehicle subsystems because of their simplicity and efficiency, which help keep the design compact. Microchip supplies solutions, such as select AVR EA MCUs, tailored to automotive applications and featuring compliance with automotive standards.
These MCUs can also provide industrial designers with a streamlined solution, delivering only the required features for the job and eradicating overhead. The compact design of 8-bit MCUs allows industrial designers to deploy a module-based architecture while holding costs and system complexity to a minimum. Microchip provides 8-bit MCUs, including select AVR DD MCUs, created to withstand harsh industrial environments.
In the medical field, wearable devices and health trackers must include sensors for monitoring biometrics, MCUs for interpreting and communicating sensor data, and wireless communication hardware for transmitting data. At the same time, these devices are frequently portable and battery-powered, meaning power consumption is a concern. In these Internet of Medical Things (IoMT) applications, 8-bit MCUs deliver a unique blend of performance and power efficiency.
In consumer electronics, product size and affordability are key. For this reason, 8-bit MCUs such as the PIC16F18x series can be the perfect option due to their simpler design and small package size. Another primary consideration in the consumer electronics industry is battery life, as many consumer devices are portable and battery-powered. 8-bit MCUs such as the PIC16F171 series deliver extremely low power operation without sacrificing performance or functionality.