Profile

Electrical engineering represents the national level master's sections, "12th Five-Year Plan" key disciplines in Zhejiang Province, the first-class disciplines of "13th Five-Year Plan", key development disciplines in Wenzhou University, electrical engineering and automation majors for the national first-class undergraduate professional construction pilot and passes through the Ministry of Education engineering education professional certification.

Three distinct discipline directions:

(1) Power electronics and power transmission: special power technology and application, power electronics testing technology, green power conversion and control technology.

(2) Electric motors and electrical appliances: electrical theory and intelligent electrical technology, new photo-electronic light sources and devices, motor transmission and control.

(3) Electrical theory and new technology: photo-electronic functional devices and digital detection technology, electronic devices and circuit design, photo-electronic intelligent detection technology.

It owns more than 60 teachers including Chinese contemporary inventors, the national 100 million talent project, Zhejiang Province block economic transformation and upgrading experts, with key scientific and technological innovation team of Zhejiang Smart Grid low-voltage electrical technology, innovation team of Zhejiang Province coastal engineering special power technology.

It is built with 13 national, provincial, and municipal scientific and technological innovation platforms including electrical digital design technology national joint local engineering laboratory, low-voltage electrical technology innovation service platform at Wenzhou, in Zhejiang province. In the past 5 years, it has won once the second prize from the National Science and Technology Progress Award, once the first prize and once the second prize from the Ministry of Education's Science and Technology Progress Award, once Chinese Patent Prize, twice the second prizes from Zhejiang Province's Science and Technology Progress Award, and special award for 10th Invention and Entrepreneurship Award.

Senior engineers of State Grid (Electric Power System) are engaged in the operation and maintenance of the power grid, development design and testing High-power special power supply field, industrial electrical design and manufacturing field, electronics, and control field, photo-electronic testing field of senior engineers, and are also engaged in research and development, design, manufacturing, testing and other work.

Senior engineers in the field of photovoltaic power generation and wind power generation are engaged in development, design, testing, operation, and maintenance.

Teaching Language:English

Job Prospect

Senior engineers of State Grid (Electric Power System) are engaged in the operation and maintenance of the power grid, development design and testing High-power special power supply field, industrial electrical design and manufacturing field, electronics, and control field, photo-electronic testing field of senior engineers, and are also engaged in research and development, design, manufacturing, testing and other work.

Senior engineers in the field of photovoltaic power generation and wind power generation are engaged in development, design, testing, operation, and maintenance.

Core Courses

【Course Title】New Energy Technologies

【Credits】3.0

【Credit Hours】54

【Semester】Spring

【Instructor】Li Fuhua

【Course Description】

Designed for postgraduates, this course makes an introduction to emerging energy technologies, aiming at providing students with a scientific understanding of new energy generation technologies in response to climate change and energy crisis. This course first focuses on the fundamental processes of generating energy and storing energy in these new technologies, involving solar energy, hydrogen energy, ocean energy, biomass energy, wind energy and geothermal energy. It manages to make students comprehend the characteristics of these technologies. Based on the fundamental comprehension, it brings latest published research achievement to share and discuss with students, and further to encourage students to develop new ideas.  

【Course Title】Numerical Analysis

【Credits】3.0

【Credit Hours】54

【Semester】Fall

【Instructor】Shao Hezhu

【Course Description】

Numerical Analysis provides graduate students with basic numerical computation methods on the one hand, but also focuses on the latest developments in computing technology, such as artificial intelligence and big data science, etc. In this course, students will learn techniques such as solving systems of linear algebraic equations, function interpolation, function approximation and fitting, numerical integration and differentiation, numerical solution of nonlinear equations and systems of equations, solving matrix eigenvalue problems, and ordinary differential equations numerical solutions, and other techniques. The software platform we use is Mathematica, and students will learn basic programming methods. Most students will get good hands-on programming experience and an understanding of basic theoretical computational methods, and this class also helps students to broaden their horizons of cutting-edge computational techniques. The textbooks we use are self-published and will be selected from well-known domestic and international textbooks, from which we will learn from the best in order to adapt to the learning abilities and needs of our students.

Reference books include：

Elements of Numerical Analysis with Mathematica by John Loustau，

Computational Physics: Problem Solving with Computers by Rubin H. Landau, Manuel J. Páez, and Cristian C. Bordeianu

【Course Title】Smart Electric Apparatus and Control

【Credits】3.0

【Credit Hours】54

【Semester】Spring

【Instructor】Wu Ziran

【Course Description】

This course is mainly focus on the principles and applications of smart electrical apparatus, including the basic concepts of smart apparatus (Circuit breakers, electric contactors, relays, UPS, etc.), the functions, the systematic design, and the smart control methods. The course is divided into 8 parts. In part 1, the basic concepts of smart apparatus and the applications are introduced. In part 2, the basic classification, functions and control methods of primary equipment of smart apparatus are discussed. In part 3, design, smart sensing and control of electric apparatus are demonstrated. Applications of finite element method will be discussed to show how electromagnetic devices can be designed and optimized via advanced numerical methods. Also, different smart control methods are demonstrated to show the procedures of controller design to optimize the dynamic performance of different circuit breakers and electromagnetic devices. Advanced sensing methods and principles will also be discussed to help students to complete the design and control loops of smart apparatus. In part 4, principles of electromagnetic compatibility (EMC) and electromagnetic interference (EMI) will be discussed. Testing, standards, and testing procedures of EMC and EMI will be demonstrated.

【Course Title】Modern Control Systems

【Credits】2.0

【Credit Hours】36

【Semester】Fall

【Instructor】Zhang Zhengjiang

【Course Description】

Modern Control Systems is the course designed for the graduate students of Electrical engineering specialty. The purpose of this course is to let students understand and grasp the knowledge of the control theories from classical to modern control, and the current developments in modern control system. Students should have the basic knowledge of higher mathematics and the ability of independent development.

【Course Title】Switch Power Supply

【Credits】3.0

【Credit Hours】54

【Semester】Spring

【Instructor】Xie Wenhao

【Course Description】

This course is an introduction to switching converters for graduate students in Electrical Engineering, including the principles of steady-state converter analysis, circuit modeling for losses, circuit manipulations, magnetics theory and inductor design. Students are expected to acquire the following outcomes: the ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics; the ability to acquire and apply new knowledge as needed, using appropriate learning strategies; the ability to communicate effectively with a range of audiences. The fundamentals of circuits and electronics are prerequisites for this course.