Fiber Optic Communication Optoelectronics Circuit Analysis BasicsWhich is easier?

Circuit analysis is relatively easy, but it also varies from person to person, the expression ability is average, and the knowledge learned is limited, so I hope to help you!

The basics of circuit analysis are simple. The Principles of Communication is a professional course based on the study of circuit analysis, advanced mathematics, linear algebra, complex functions, signals and systems, digital circuits, analog circuits, etc.

Optical communication, the basis of optoelectronic circuit analysis, I think it is easier to communicate with optical fiber, after all, optical fiber is more suitable for modern society.

Divide between making a system or making a device.

Doing relational communication systematization, learning communication principles, fiber optics, fiber optic communication, DSP, digital signal processing, nonlinear fiber optics, physical optics (mainly interference and polarization), high-speed RF circuits, etc.

If you want to make optical devices, you need to learn semiconductor physics, integrated optics, laser principles, some numerical analysis algorithms and software, semiconductor optoelectronics, etc., and understand the processing and manufacturing process and packaging and testing.

It is definitely that the circuit analysis is simpler, and the first two design calculations are still a lot and relatively more difficult.

Personally, I think it's optical fiber communication, and this major is a little easier.

I don't think any of these subjects are easy, but they may be the basics of circuit analysis, so it's easier.

Let me tell you, these are all science and engineering majors, and most of them are things that have to be understood, and they are all difficult, not particularly easy.

Fiber optic communication, optoelectronics circuit analysis basics must be circuit analysis basics a little easier.

None of them are easy? All of them need to be studied on a solid basis.

Communication engineering belongs to electronic engineering majors, science and engineering.

Communication engineering (also known as telecommunication engineering, formerly known as long-distance communication engineering and weak current engineering) is an important branch of electronic engineering, a sub-major of electronic information, and also one of the basic disciplines.

This discipline is concerned with the principles and applications of information transmission and signal processing in the communication process. Students will learn the knowledge of communication technology, communication systems and communication networks, and be able to engage in research, design, manufacturing, and operation in the field of communications, as well as in the development and application of communication technologies and equipment in various sectors of the national economy and the defense industry.

This discipline is a field with rapid development and great vitality of information science and technology, especially digital mobile communication, optical fiber communication, and Internet network communication, which have made it unprecedented for people to transmit information and obtain information. Communication engineering has a very broad development prospect, and it is also one of the majors with a serious shortage of talents.

Students will learn the knowledge of communication technology, communication systems and communication networks, and be able to engage in research, design, manufacturing, and operation in the field of communications, as well as in the development and application of communication technologies and equipment in various sectors of the national economy and the defense industry. Communication engineering is the study of the transmission of information from the sender (source) to one or more receivers (sink) in the form of electromagnetic waves, sound waves or light waves through electrical impulses.

Whether the receiver can correctly recognize the information depends on the level of loss in the transmission. Signal processing is an important part of communication engineering, including filtering, encoding and decoding. After graduation, they can engage in research, design, technology introduction and technology development in the fields of wireless communication, television, large-scale integrated circuits, intelligent instruments and applied electronic technology, design and communication engineering.

Main courses: Main disciplines: electronic science and technology, information and communication engineering, computer science and technology. Main Courses:

Circuit Theory and Application Courses, Computer Technology Courses, Digital Circuits, Analog Circuits, Signals and Systems, Electromagnetic Field Theory, Digital Systems and Logic Design, Digital Signal Processing, Communication Principles, etc.

Practical links: The main practical teaching links: including computer training, electronic technology practice, circuit comprehensive experiment, production practice, curriculum design, graduation project, etc., generally require no less than 30 weeks of practical teaching.

Main professional experiments: communication principle experiments, electronic circuit experiments, digital system and logic design experiments, electromagnetic field experiments, etc.

It belongs to the category of electronic information.

It is a branch of electronic engineering, but the school is not the same, the department is different, some are in the computer school, some are in the school of information engineering, some are in the school of information engineering, and so on. However, according to the general category, it still belongs to the electrical information category, but it does not belong to the electrical category.

The major of communication engineering is mainly to study the generation of signals, the transmission, exchange and processing of information, as well as the theoretical and engineering application problems in computer communication, digital communication, satellite communication, optical fiber communication, cellular communication, personal communication, stratospheric communication, multi-technology technology, information superhighway, digital program-controlled exchange, etc.

Communication engineering is a major in electronic information science and engineering, and it is also one of the basic disciplines. The degree is a Bachelor of Engineering.

Discipline category: 08 Engineering.

0807 Electronic information.

080701 Electronic and Information Engineering (Note: Bachelor of Engineering or Bachelor of Science can be awarded).

A 080702 Electronic Science and Technology (Note: Bachelor of Engineering or Science is available).

080703 Communication Engineering.

080704 Microelectronics Science and Engineering (Note: Bachelor of Engineering or Science is available).

080705 Optoelectronic Information Science and Engineering (Note: Bachelor of Engineering or Science can be awarded).

080706 Information Engineering.

Electronic science and technology and electronic information engineering are all similar majors, which belong to the "electrical information class", not the "electronic information science class"!

It's almost the difference between weak electricity and strong electricity!

The service objects of electrical are motors, high-voltage equipment in the power system, circuit breakers, power transformers, high-voltage transmission and transformation equipment, etc.; The electric actuator is the ultimate control target;

The service object of electronic information is electronic equipment, including civil and industrial use, which is generally not associated with high voltage, and solves problems from the perspective of civil electricity, such as communications, computers, electronic science and technology, instrumentation, etc.

Major Courses. On the basis of strengthening general education, the college further broadens the professional caliber, and the curriculum system pays attention to the combination of science, engineering and management, the penetration of arts and sciences and the interdisciplinarity, so as to cultivate innovative talents with a solid foundation, broad knowledge, strong ability, high quality, and all-round development of morality, intelligence, physical fitness and beauty. Students' main course of study:

Fundamentals of Circuits, Computer Structure and Logic Design, Introduction to Electronic Science and Technology, Signals and Systems, Fundamentals of Electronic Circuits, Microcomputer Systems and Interfaces, Electromagnetic Field Theory, Fundamentals of Solid State Physics, Semiconductor Physics, Fundamentals of Modern Optics, Fields and Waves in Information and Electronic Technology, Fundamentals of Optoelectronic Physics, Electronic Devices, VLSI Design Basics, Display Technology, Optoelectronic Technology, Microwave and Millimeter Wave Electronics, Optical Fiber Communications, Digital Signal Processing, Semiconductor Integrated Circuits, Introduction to Embedded Systems, etc.

Major in Optoelectronic Information Science and Engineering.

Optoelectronic information science and engineering is a cutting-edge discipline of scientific research and technology application of optoelectronics in the field of information, with the integration of science and engineering as the professional characteristics, cultivating a solid foundation in mathematics and physics, mastering the basic theories, basic knowledge and basic skills in the field of optical information science and technology, and being able to engage in scientific research, teaching, product design and development, and production technology management in the fields of optoelectronic information processing, optoelectronics, electronic information technology, communication technology, etc. This major will focus on optoelectronic devices and application systems in the information industry. Graduates can be employed in the information and communication industry, as well as in research, product development, management, etc. in the application of optical technology.

Students who are interested in further studies can continue to pursue master's and doctoral studies in electronic science and technology, optical engineering and other disciplines.

The main disciplines of this major are Electronic Science and Technology, Information and Communication Engineering, Computer Science and Technology, and Physics.

This major systematically studies mathematics, physics, computer foundation series courses, physical optics, electrodynamics, electronic circuit basics, digital systems and logic design, signals and systems, quantum mechanics, solid state physics and semiconductor physics, communication principles, laser principles and technologies, optoelectronics, optical information processing, optoelectronic instruments and systems, photoelectric detection and sensing technology, optical fiber communication systems, communication optoelectronic devices and applications, nonlinear optics, etc.

This major sets up practical teaching links such as electronic technology practice, computer practice, professional practice, curriculum design, graduation project, etc.

The duration of study in this program is four years, and students will be awarded a bachelor's degree in engineering after completing all the courses specified in the training plan and passing the examination.

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