( Vol 46 , Issue 01 ) | 15 Jun 2026
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( Vol 46 , Issue 01 ) | 30 Jun 2026
Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering
Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering (ISSN:0258-8013) is a monthly peer-reviewed scopus-indexed journal from 1985 to present. The publisher of this journal is Chinese Society for Electrical Engineering. PCSEE committed to gathering and disseminating excellent research achievements. The journal welcomes all kind of research/review/abstract papers regarding Engineering: Electrical and Electronic Engineering.
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AIM AND SCOPES
Zhongguo Dianji Gongcheng Xuebao/Proceedings Of The Chinese Society Of Electrical Engineering
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Electrical Engineering
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Biological Biosystem Engineering
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Hardware-software co-design and interfacing
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Nanotechnology
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Turbines micro-turbines
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Power quality
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Energy optimization
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HVDC transmission
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Telecommunication Engineering
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Integrated Engineering
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Semiconductor chip
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Advanced control theories and applications
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FACTS devices
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High voltage engineering
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Electric drives
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Power electronics
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Electro-mechanical System Engineering
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Electronic Engineering
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Peripheral equipments
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Machine design and optimization
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Insulation systems
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Electrical machines
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Semiconductor chip
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Electronic Engineering
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Zhongguo Dianji Gongcheng Xuebao/Proceedings Of The Chinese Society Of Electrical Engineering
Distributed Energy Storage Cluster Configuration Method of Distribution Network Considering Carbon Emission Reduction Allocation
Under the background of the gradual establishment of the "carbon emission" market, aiming at the mismatch between the absorption capacity and growth rate of the system caused by a large number of distributed renewable energy accessed to the distribution network, this paper proposes an energy storage cluster partition method that considers the allocation of carbon emission reduction income among different subjects. First, all nodes are divided into several cluster regions based on the electrical distance and its power and load characteristics. Next, according to the characteristics
Conduction Interference Suppression Method for MC-WPT System Based on Balanced Impedance
Suppressing electromagnetic interference (EMI) to improve electromagnetic compatibility is an urgent problem that must be solved in the application of magnetic-coupled wireless power transfer systems. This paper takes the traditional LCC-S type magnetic coupled wireless power transfer (MC-WPT) system as the research object. A fusion topology of EMI filters and harmonic compensation networks was proposed aiming at conducted interference caused by impedance imbalance and parasitic parameters. This paper analyzes the generation mechanism and transmission channel characteristics of conduction i
Fault Prediction of Wind Turbine Rolling Bearing Considering Multi-time Scale Information
The fault of wind turbine rolling bearing will cause long-term downtime. To accurately predict the fault of wind turbine rolling bearing, this paper proposes a fault prediction method of wind turbine rolling bearing considering multi-time scale information. First, successive variational mode decomposition(SVMD) is used to adaptively extract the multi-dimensional characteristics of bearing health data. Next, the decomposed IMFS is input into the Informer model to extract multi-scale time information for training, and the nonstandard Bayesian optimization algorithm based on tree structure Par
System Strength Supported Flexible Converter (I): Transient Current Safety and Electromagnetic Transient Verification
The insufficient overcurrent capability of power electronic devices is one of the key factors restricting the application of grid-forming (GFM) voltage source converter(VSC). Ensuring the transient safety of VSCs while maintaining their voltage support capability under current limiting constraints remains an outstanding issue. Therefore, this paper proposes a new control framework based on potential vector remolding (PVR) for a system strength supported flexible converter(SSS FC). The proposed method focuses on analyzing the transient overcurrent mechanism of SSS FC. It introduces a novel a
Anti-islanding Protection Method for Multi-source Distribution Network Impedance Measurement Based on Signal Synchronization Injection
Grid-connected distributed generators(DG) need to be equipped with anti-islanding protection to avoid unplanned islanding due to power grid blackouts. The impedance measurement method has the advantages of low non-detection zone and less prone to maloperation compared with passive anti-islanding protection such as over/under voltage and over/under frequency. However, in multi-DG systems, the existing signal injection strategy and islanding identification criteria cannot cope with the protection failure caused by signal interference between DGs. To this end, an impedance measurement method i