一、专业定位

东莞理工学院电气工程专业硕士（专业代码：085801）为全日制专业学位硕士，学制两年。该专业聚焦培养兼具电气工程理论、智能控制技术与实践创新能力的高层次复合型人才。专业导师在理论研究和工程技术应用方面成果丰硕，与企业行业联系紧密。

二、培养目标

本专业培养适应电力行业变革、具备电气工程系统思维与智能运维能力的专业人才。要求学生系统掌握电气工程基础理论与智能控制原理，具备电力系统分析、电气设备设计、新能源并网技术、工业自动化与数字化运维等核心能力，能够在智能电网、新能源发电、电气装备制造、工业自动化、能源管理等领域发挥专业价值。

三、专业特色与课程体系

专业设置电力系统安全经济运行技术、电力系统继电保护与控制技术、电能变换与智能变频驱动控制技术三大特色培养方向。采用全日制两年学制，课程体系兼顾理论与前沿，涵盖电力系统分析与计算、现代功率变换技术、新能源与分布式发电技术、电气设备在线监测、智能控制与嵌入式系统等核心内容，融入人工智能、数字孪生、物联网等新技术模块，注重电气工程思维与数字化技术的深度融合。

四、专业导师

电气工程专业拥有一支理论基础扎实、工程实践经验丰富的高水平导师队伍。导师团队在电力系统分析与控制、继电保护、电能变换、新能源发电等领域具有深厚的学术积累。

五、就业前景

毕业生可在电网公司、发电集团、电气设备制造企业、新能源企业、工业自动化公司等从事电气系统设计、运行控制、设备维护、能源管理、技术研发等工作。

1. Program Overview

The Master of Electrical Engineering (Major Code: 085801) at Dongguan University of Technology is a full-time professional master's program with a two-year duration. The program focuses on cultivating high-level composite talents who possess both electrical engineering theory and innovative capabilities in intelligent control technology and practice. The professional supervisors have achieved fruitful results in theoretical research and engineering technology application, and maintain close ties with enterprises and industries.

2. Training Objectives

This major aims to cultivate professionals who are adaptable to changes in the power industry and possess electrical engineering system thinking and intelligent operation and maintenance capabilities. Students are required to systematically master the basic theories of electrical engineering and the principles of intelligent control, and develop core competencies in power system analysis, electrical equipment design, new energy grid-connected technology, industrial automation, and digital operation and maintenance. They are expected to be able to leverage their professional expertise in fields such as smart grids, new energy power generation, electrical equipment manufacturing, industrial automation, and energy management.

3. Program Features and Curriculum

The program features three major specialized training directions: safe and economic operation technology of power systems, relay protection and control technology of power systems, and electric energy conversion and intelligent variable frequency drive control technology. Adopting a full-time two-year academic structure, the curriculum system balances theory and cutting-edge technologies, encompassing core subjects such as power system analysis and computation, modern power conversion technology, new energy and distributed generation technology, online monitoring of electrical equipment, intelligent control, and embedded systems. It integrates new technology modules like artificial intelligence, digital twins, and the Internet of Things, emphasizing the deep integration of electrical engineering thinking with digital technology.

4. Supervisors

The Electrical Engineering program boasts a high-level supervisory team with solid theoretical foundations and extensive engineering practice experience. The faculty has deep academic expertise in areas such as power system analysis and control, relay protection, power conversion, and new energy generation.

5. Career Prospects

Graduates can engage in electrical system design, operation control, equipment maintenance, energy management, technology research and development, etc. in power grid companies, power generation groups, electrical equipment manufacturing enterprises, new energy enterprises, industrial automation companies, etc.