A microcontroller (abbreviatedMCU or µC) is a computer system on a chip that does a job. It contains an integrated processor, memory (a small amount of RAM, program memory, or both), and programmable input/outputperipherals, which are used to interact with electronic components connected to the chip.[1] A microcontroller is different than a microprocessor, which only contains a CPU (the kind used in a Personal Computer).[2]
First released in 1971 by the Intel company, microcontrollers began to become popular in their first few years. The extremely useful Intel 8008 microprocessor was then released, but it was still impractical because of high cost for each chip. These first microcontrollers combined different types of computer memory on one unit.[3] After people began to see how useful they were, micro controllers were constantly being upgraded, with people trying to find new ways to make them better. Cost was reduced over time and by the early 2000s, microcontrollers were widely used across the world.
Other terms for a microcontroller are embedded system and embedded controller, because the microcontroller and its support circuits are often built into, or embedded in, a single chip.[4]
Microcontrollers often operate at very low speed compared to microprocessors used in smartphones and personal computers. Clock speeds may be as little as 32 kHz, but this is useful for typical applications. They consume very little power (milliwatts or even micro watts).[6]
Microcontrollers are used in automatic products and devices, such as car engine systems, remote controls, machines, appliances, power tools, and toys. These are called embedded systems. Microcontrollers can also be found at work in solar power and energy harvesting, anti-lock braking systems in cars, and have many uses in the medical field as well.[7]
Like other integrated circuits, microcontrollers are designed on special masks, and are later treated with ultraviolet light, which creates special traces (usually made out of silicon) that build up different parts of the integrated circuit. Modern microcontrollers may use technology producing silicon traces as small as 2µm.[8]