1. The history of the development of single-chip microcomputers
The initial stage of single-chip microcomputers:
In 1976, Intel launched the 8-bit MCS-48 series of single-chip microcomputers, which were widely used for their small size, light weight, complete control functions and low price, laying a solid foundation for the development of single-chip microcomputers.
The development stage of single-chip microcomputers:
In the early 1980s, Intel launched the 8-bit MCS-51 series of single-chip
microcomputers High-performance single-chip microcomputer development stage:
With the increase in the performance requirements of single-chip microcomputers in the control field, 16-bit single-chip microcomputers appeared, and other performances were also added inside the chip. For example, Intel's MCS-96 series of single-chip microcomputers integrate A/D converters and PWM outputs inside the single-chip microcomputer.
2. Characteristics of single-chip microcomputers:
Single-chip microcomputers have the characteristics of high integration, small size, low power consumption, complete series, easy function expansion, flexible and convenient use, strong anti-interference ability, reliable performance, and low price. In jargon, it is called "high cost performance".
Reference address:The development history and characteristics of 51 single chip microcomputer
The initial stage of single-chip microcomputers:
In 1976, Intel launched the 8-bit MCS-48 series of single-chip microcomputers, which were widely used for their small size, light weight, complete control functions and low price, laying a solid foundation for the development of single-chip microcomputers.
The development stage of single-chip microcomputers:
In the early 1980s, Intel launched the 8-bit MCS-51 series of single-chip
microcomputers High-performance single-chip microcomputer development stage:
With the increase in the performance requirements of single-chip microcomputers in the control field, 16-bit single-chip microcomputers appeared, and other performances were also added inside the chip. For example, Intel's MCS-96 series of single-chip microcomputers integrate A/D converters and PWM outputs inside the single-chip microcomputer.
2. Characteristics of single-chip microcomputers:
Single-chip microcomputers have the characteristics of high integration, small size, low power consumption, complete series, easy function expansion, flexible and convenient use, strong anti-interference ability, reliable performance, and low price. In jargon, it is called "high cost performance".
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