If you have learned the principle of microcomputer, please enter, how to learn the principle of micr

It just so happens that my undergraduate major is also electronics, and I have been learning single-chip microcomputer for a long time, and I still have some experience in single-chip programming software, Keil Uvision3, which supports assembly language and C language, and there are many libraries in it, and this software can also wake up and debug, and can observe the results through port level changes, it is an extremely powerful and essential software.

MCU learning is practice, practice, and practice! Although the software is very powerful, but it can't get perceptual cognition, so if you want to learn this course well, it is recommended to buy a board It is not expensive, at most more than 200 yuan, and look at the program you wrote on it. I started with the simplest running water lantern, and now I have the ability to write complex programs.

As long as you insist on practice, the single-chip microcomputer will definitely be able to learn well!

Hope it helps!

Assembly language to load programmable devices to control the chip.

If you want to learn the principles of microcomputers well, the following are some suggestions.

1. Master compilation knowledge. When learning the ruler cavity and learning the microcomputer, the compilation of knowledge is involved in each key dilemma.

2. Strict hardware requirements. Attention should be paid to the accumulation of foundations, which can be checked in the manual.

3. Correctly grasp the real nuclear reputation of the microcomputer principle, and achieve the combination of software and hardware.

4. Combine theory with practice. Combine book knowledge and experimental experience to apply what you have learned.

5. Cultivate interests and hobbies related to microcomputers, and drive learning emotions with interest.

The microcomputer principle refers to the basic working principle and components of a microcomputer. A microcomputer is a microprocessor-based computer system, which is usually composed of a processor, memory, input and output devices, and buses.

The microcomputer's processor (CPU) is the core of the entire system, responsible for executing instructions and processing data. A CPU usually consists of a combinator, a controller, and a register, where the cheating block combinator is used to perform arithmetic and logical operations, the controller is used to control the execution of instructions, and the registers are used to temporarily store data.

Memory is used to store data and instructions. In microcomputers, there are two main types: random access memory (RAM) and read-only memory (ROM). RAM is a volatile memory that can be read and written and used to store programs and data.

A ROM is a type of read-only memory that is typically used to store firmware where programs and data cannot be changed.

Input and output devices include keyboards, mice, monitors, printers, and more. The input device is used to input data to the computer rental system, and the output device is used to output the processing results of the computer system.

The bus is the channel for transmitting data and instructions between various components in the microcomputer, which is divided into address bus, data bus and control bus.

Microcomputer principle: Slow down a computer major posture model compulsory course back to the grip program.