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Electrical Engineering and Automation (Excellent Engineer Program)

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Overview

This program is designed to meet the future needs of smart-city development, while respecting students’ individual interests and strengths and supporting interdisciplinary integration. Through a “3+1” training model that combines teaching, practice, research, and application, and with real engineering scenarios as the foundation and engineering technology as the main thread, the program aims to cultivate versatile and application-oriented talents. Graduates will be equipped with strong engineering awareness, practical skills, innovative thinking, and a global perspective. They will be able to engage in engineering design, manufacturing, system operation, system commissioning, system analysis, and technology development in fields such as electrical automatic control systems, power systems, and computer control systems.

Why we choose Electrical Engineering and Automation(Excellent Engineer Program)?

  • Broad professional development prospects. The level of electrical engineering and automation is a key indicator of a nation’s economic advancement and the modernization of daily life. This discipline offers extensive opportunities across various industries, enabling graduates to work in organizations such as the State Grid, engineering design institutes, digital factories, and intelligent manufacturing enterprises. With a wide range of application scenarios and career pathways, the programme provides strong employment prospects.
  • A “3+1” joint training model is adopted, integrating on-campus learning with off-campus industry practice. Under an optimized enterprise-based learning scheme, students complete a one-year internship in partner companies, where they gain firsthand experience with production processes, master manufacturing technologies and product standards, and develop a deeper understanding of professional knowledge. This model effectively strengthens students’ professional competence and engineering capabilities.
  • An excellent teaching team. The programme is supported by a group of highly qualified “dual-qualified” faculty members, many of whom hold doctoral degrees and possess extensive industry experience. Most of the programme’s lecturers and researchers obtained their master’s or doctoral degrees from Double First-Class universities or have overseas study and research experience, ensuring strong academic depth and practical capability.
  • Advanced and Open-Access Laboratories. The program is equipped with six state-of-the-art professional laboratories and three student workstations, all closely aligned with the major’s training requirements. These facilities are open to students 24 hours a day, providing excellent technical conditions for experimental learning and hands-on practice. The open-lab environment effectively enhances students’ practical skills and strengthens their ability to apply engineering knowledge.

Basic Information

  • School School of Mechanical and Electrical Engineering
  • Study Mode Full-time
  • Program Length 4 years
  • Degree Bachelor of Engineering in Electrical Engineering and Automation (Bachelor of Engineering)

Knowledge and Skills

Graduates of this program will have the following abilities:

  • Master a comprehensive foundation of theories and skills in the fields of electronics and electrical engineering.
  • Acquire interdisciplinary fundamental knowledge, including mathematics, physics, mechanics, computer science, industrial design, project management, and 3D printing, as well as professional knowledge and technical competencies in electrical engineering.
  • Develop strong general competencies in problem-solving, teamwork and communication, and project management.

Message from the Program Director

“Electrical engineering is the foundation of modern technology and intelligent manufacturing. The field encompasses a wide range of applications—from the safe design of a simple light switch to the command and dispatch of the national power grid—and is closely connected to daily life, industrial and agricultural production, as well as national defense sectors such as aviation, aerospace, and navigation.In response to the national Excellence Engineer Program, and with the mission of serving China’s energy development strategy, we remain committed to cultivating outstanding engineers with dedication and vision. Here, we look forward to seeing you integrate emerging technologies in the electrical field, advance industrial digitization and information transformation, and make remarkable contributions to improving human life.”

Yuanyuan Shao

Curriculum

First Year
  • The first year primarily consists of general education courses.
  • Calculus I (1)
  • Calculus I (2)
  • Linear Algebra I
  • College Physics (1)
  • College Physics (2)
  • Circuit Theory and Applications
  • Introduction to International Frontiers
Professional Practice:
  • College Physics Laboratory (1)
  • College Physics Laboratory (2)
  • Mathematics Experiment and Mathematical Modeling
  • Cognitive Internship
Second Year
  • Calculus I (3)
  • Probability Theory and Mathematical Statistics I
  • Fundamentals of Programming (C Language)
  • Fundamentals of Analog Electronic Technology
  • Fundamentals of Digital Electronic Technology
  • Electrical Machines
  • Power Electronics Technology
Elective Courses (Optional):
  • Advanced Mathematical Modeling
  • Python Programming
  • Electrical CAD Techniques
  • Complex Functions and Integral Transforms
Professional Practice:
  • Circuit Theory and Applications Laboratory
  • Analog Electronic Technology Laboratory
  • Digital Electronic Technology Laboratory
  • Comprehensive Innovation Practice in Electronic Design
  • Course Design of Electrical Machines
  • Metalworking Practice
Third Year
  • Automatic Control Theory
  • Power System Analysis
  • Programmable Logic Controllers and SCADA Configuration
  • Factory Power Supply Technology
  • Intelligent Vision Inspection Technology
  • Technical English for Electrical Engineering
  • Principles and Applications of Microcontrollers
Elective Courses (Optional):
  • MATLAB Software and Applications
  • Electric Drive Automatic Control Systems
  • Advanced Process Control
  • Protel PCB Design
  • EPLAN Electrical Design
  • Artificial Intelligence Technology
  • Modern Control Theory
  • Power System Relay Protection
  • Computer Control Principles and Applications
  • Industrial Robotics Technology and Applications
Professional Practice:
  • PLC and SCADA Configuration Training
  • Course Design of Factory Power Supply Technology】
  • Course Design of Microcontroller Principles and Applications
Fourth Year
  • Enterprise Training (1)
  • Enterprise Training (2)
  • Undergraduate Graduation Project (Thesis)

Career Prospects

Graduates of this program enjoy excellent career prospects. They may work in a wide range of industries, including national power grid design and research institutes, intelligent manufacturing, aviation systems, steel and construction industries, and more. Typical positions include Electrical Engineer, Control and Instrumentation Engineer, Electrical Fire Protection Engineer, and other related technical roles. Graduates may also choose to pursue master’s degrees in fields related to electrical engineering or other advanced engineering disciplines.