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The term “System on Chip” or SoC is applied broadly in the field of embedded systems. In simple terms, SoC refers to the usage of microcontrollers, digital signal processors, analog-to-digital converters, and other hardware components in a single coordinated system. The term “System on Chip” implies that all of these components are integrated onto a single chip.

This type of technology is becoming increasingly popular in the space of embedded systems due to its ability to reduce size and cost while at the same time streamlining the design process. By combining components into a single chip, the system design process can become much simpler. Additionally, there are several advantages to using a single chip including: reduced footprint, improved power consumption, accelerated time to market and increased scalability. All of these components should be considered in any embedded system design.

The System on Chip technology is applicable in a wide range of embedded systems as it can be adapted to meet the needs of specific applications. It can be used in everything from consumer electronic devices, to industrial monitoring and control systems, to intelligent systems for smart city applications and beyond.

In addition to the applications, it is also important to understand the working principles of SoC. The fundamental building block of any SoC system is the integrated circuit chip. Generally, these chips are designed to include various embedded processors and analog/digital components all on the same board, integrated port to port. The benefits to this include a lower cost and simpler design process, but most importantly, the coupling of many different components all onto one single chip reduces the size and power consumption of the overall embedded system.

Additionally, one of the key principles of SoC technology is inter-component communication. To communicate between different components on the chip, digital communication protocols such as UART, I2C, SPI, 1-wire, and USB are typically used. Additionally, there are other wireless technologies such as Bluetooth, Zigbee and Wi-Fi that can also be used to enable communication between different devices on the chip.

Overall, System on Chip technology is becoming increasingly popular in the field of embedded systems due to its ability to reduce size and cost and to streamline the design process. It is applicable in a wide range of applications, from consumer electronic devices to industrial monitoring systems and beyond. The working principles of SoC involve integration of various embedded processors and analog/digital components onto a single board and use of digital communication protocols for communication between different components on the chip.

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