Research Center for Electromagnetic Environmental Effects

Publisher:魏子琦Release time:2024-03-07Number of views:11

Research Center for Electromagnetic Environmental Effects (E3) of Southeast University (SEU) originated from themajor of electronic equipment structure established in 1965, which is one of the earliest institutions to carry out electromagnetic compatibility teaching and research activities in China. In 1992, Electromagnetic Compatibility Laboratory of Southeast University was established, and Electromagnetic Compatibility Professional Test Center of Jiangsu Province was led to be established in 2005. In 2007, the lab was authorized by International Radio, Communication and Electromagnetic Association (iNARTE) as the Electromagnetic Compatibility Engineer Certification Training and Examination Center. After that, Nanjing Wireless Valley Electromagnetic Compatibility Public Technical Service Center of Jiangsu Province was established in 2010. In 2019, Research Center for Electromagnetic Environmental Effects of Southeast University was established based on the lab. There are more than 50 teachers and students in the research center, including 3 professors, 3 associate professors. Two of them are the experts with special government subsidies from the State Council, and one of them is high-level scientific and technological innovation talent. There are more than 40 doctoral and master students here. The center has strong scientific research capability and profound technical foundation in the field of electromagnetic environmental effects, and has advanced research platforms and experimental conditions such as 5M semi-anechoic chamber, electromagnetic reverberation chamber, electromagnetic protective material performance laboratory, electromagnetic environment simulation laboratory and open area test site.


Guided by major national strategic demand such as intelligent manufacturing, new energy vehicles, advanced aerospace and equipment construction, the Center is committed to scientific issues, basic theories, key technologies, standards and applied technology research and cultivation of talents in the field of electromagnetic environmental effects. With the background of mechanical electronics, the center combines structural design with electromagnetic compatibility theory, and has remarkable disciplinary characteristics in the research of effects under electromagnetic, thermal, mechanical vibration and corrosion and other multi-environmental influences, electromagnetic compatibility standard compliance testing technology and standard formulation. TEM Cell, GTEM Cell, electromagnetic reverberation chamber, absorbing material performance test device, material and cable shielding performance test device and a large number of test equipment with independent intellectual property rights were self-developed, forming a material electromagnetic compatibility and protection performance test capability. In recent years, the Center has presided over more than 40 national strategic industrial projects in the fields of new energy vehicles, smart grid and communications, presided over and participated in the formulation of more than 20 national standards for electromagnetic compatibility, and won 8 provincial and ministerial scientific and technological progress awards.


Direction 1: E3 Design and Verification of Complex System 

(1) Modeling and simulation of electromagnetic environment with electrically large complex structure

n  Analysis and calculation of electromagnetic coupling of interconnected cables in complex systems

n  Design and Verification Evaluation of Multi-Platform E3 

n  Electromagnetic compatibility design of railway application, intelligent vehicles, robots and other equipment

Focus on E3 and verification evaluation of multi-platform, strengthen the comprehensive optimization design of information equipment structure; expand the research and development of electromagnetic compatibility technology in civil emerging industries. Aiming at electromagnetic modeling and simulation of complex systems such as ships, the integrated modeling method of antenna and platform, simulation of radio frequency electromagnetic environment of ultra-large electric size complex structures and distribution characteristics of radiated field are studied. Aiming at the electromagnetic interference caused by interconnected cables in complex systems, the method of constructing field-line coupling model of multi-conductor and the equivalent crosstalk model of wiring harness was studied.


Direction 2: E3 Testing and Evaluation of Complex Systems 

n  E3 Equivalent Testing and Evaluation Techniques 

n  Multi-environment integrated effect verification technology

n  Electromagnetic Safety Assessment Technology

n  E3 Test Evaluation of System in Complex Environment

For system level E3 test evaluation, carry out theoretical research on direct current injection method (DCI), develop DCI test device, study test method of low level method, equivalent mechanism, cabin electromagnetic coupling model and radiation field characteristics; propose to adopt double electromagnetic reverberation cavity simulation test environment to carry out high field radiation effect test research of interconnected system; Aiming at the problem of field measurement of radiation emission of large-scale system, the field measurement technology of radiation emission of system based on antenna array was studied.


Direction 3: The evaluation of Electromagnetic compatibility and protective materials and device performance

n  Measurement and Evaluation Technology of Electromagnetic Protection Performance of Materials and Devices in Time and Frequency Domain

n  Electromagnetic shielding performance test technology of materials under multiple environmental influences

n  Test and Evaluation Technology of Electromagnetic Protection Performance of Cable

n  Shielding Performance Test and Evaluation Technology of Shielding Enclosure

Strengthen the research on electromagnetic performance testing technology of materials and devices, expand the EMC performance testing and evaluation of electromagnetic protection materials, devices and chips, and develop test equipment, and explore the electromagnetic performance evaluation technology of special materials and devices. To solve the problem of extracting electromagnetic parameters of dielectric materials, magnetic materials, thin films, composites and so on, we independently developed measuring devices to study the measurement technology of dielectric constant and permeability of materials. To meet the requirements of environmental adaptability, we proposed a test method for electromagnetic shielding performance of materials under multiple environmental influences, and carried out high and low temperature, salt fog, vibration and strong electromagnetic environment test research.


Direction 4: Standard technology and application of electromagnetic environmental effects

n  E3 Standard development and conformity verification

n  Development of E3 Standard Application Management System 

n  E3 standard platform development 

n  Application of E3 standard in engineering and product development  

Focus on key technologies of E3 standards and their application technology research, carry out E3 standard application management system, and platform research. Develop E3 standard E-Learning network training system and electronic courseware, and carry out E3 standard limit requirements formulation basis, determination method and test verification research.

The team has long adhered to the combination of teaching and scientific research, published five textbooks and monographs, and cultivated electromagnetic compatibility professionals urgently needed by the nation in advance. In the past 60 years, more than 1000 undergraduate talents and more than 200 graduate students had been cultivated. While attaching importance to the theoretical training of students’ electromagnetic compatibility, the team takes scientific research projects as the traction, combines collective and special guidance, makes full use of laboratory hardware conditions, strengthens the cultivation of students engineering practice ability and innovation ability. The graduates are widely recognized in many fields such as aerospace, information communication, electronic technology, metrology and testing. Many students have become EMC experts in their industries or units, and have been employed as external tutors who can play important roles in the center. In recent years, more graduates have gone to China's leading enterprises. Some have further studied abroad and contributed to the development of the electromagnetic compatibility specialty.


Director of the Center:  Tang Shiping 

Members:  Zhou Zhongyuan, Wang Guihua, Zhou Xiang, Jing Shenhui, Ren Jinjing, Mingjie Sheng.