ARM Microcontroller Training – Get Trained on the Most Popular Core Powering Millions of Portable Devices

ARM microcontroller training can be taken by electronics, telecommunications, instrumentation and electrical engineering graduates, existing professionals wishing to start working in the area of PIC microcomputer or for that matter anyone wishing to make a career in embedded systems. Currently, the de facto standard for 32-bit microcontrollers is the ARM microcontroller architecture. It has broad adoption in the embedded systems market. Having undergone numerous standardizations, ARM cores have made it simple to port codes from one microcontroller to another.

Where are ARM microcontrollers used?

ARM cores are used for various purposes and have innumerable applications. They are particularly used in Personal Digital Assistants and smartphones. Microsoft Surface, which is a family of tablet computers and interactive whiteboards, use ARM cores. Apple's iPAD, tablet PC, iPhone smartphones, iPod portable media player, Canon's PowerShot digital cameras and Eee Pad Transformer from ASUS use the ARM cores. ARM microcontrollers are also used in gaming consoles, a well-known one is Nintendo DS. ARM chips are renowned for their inexpensive and small construct, which consume less power. This aspect makes them widely used in single-board computers such as BeagleBoard, PandaBoard, and Raspberry Pi to name a few.

PIC microcontroller training

For those who are currently working on ARM cores, and want PIC microcontroller training can do so, given the common touchpoints between these two microcontroller technologies. There are subtle differences between them. ARM is based on the von Neumann architecture. PIC has the Harvard architecture, where RAM and program memory have separate memory spaces. There are advantages and disadvantages of one microcontroller over the other. For instance, ARM can address all RAM in a system, whereas PIC is limited to addressing only 256 bytes of RAM. PIC has separate memory spaces which make interprocess communication streamlined, whereas ARM does not have this facility. Learning both microcontroller technologies is good enough, be it PIC or ARM microcontroller training.