( Vol 45 , Issue 08 ) | 20 Nov 2025
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( Vol 45 , Issue 08 ) | 30 Nov 2025
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
DC Fault Analytic Calculation and Fast Current Limiting Method for Hybrid Cascaded Converter Station
In the field of high-voltage, large-capacity, long-distance transmission, the hybrid converter topology has more technical advantages than the single converter. In order to cope with extremely hazardous DC short-circuit faults, the DC short-circuit fault traversal capability of the converter needs to be considered as a priority. First, this paper proposes a hybrid cascade topology with DC short-circuit fault ride-through capability based on line commutated converter (LCC) and modular multilevel converter (MMC). The DC short-circuit fault current limiting control method is then presented. Th
Low-carbon Distributed Scheduling Optimization for Multi-park Stochastic Situations Based on a Multi-stage Dual Game
To achieve the integrated energy system's low-carbon development, it is essential to coordinate the conflict of interest distribution under various park scenarios on the basis of protecting information privacy. This paper analyzes the principles of carbon emission trading and green certificate trading to build a two-tier trading framework of green card-carbon emission linkage theory. With the aim of setting the electricity selling and purchasing price and directing the park in setting the unit production plan, the Stackelberg theory is employed to create a leader-follower relationship.
Observer-based Distributed Self-triggered Secondary Control of Multi-bus DC Microgrid Over Directed Communication
Dynamic consensus-based average state observation is a common method for distributed secondary control (SC) of multi-bus microgrids. However, this method requires high communication and computation frequency, and currently available methods for static average consensus are not applicable for dynamic consensus. Meanwhile, it is not considered that the unbalanceness of directed networks can result observation and SC errors. Therefore, an observation- based distributed self-triggered SC strategy is proposed in this paper. First, a dynamic consensus-based distributed average state observer is d
Identification of High-impedance Ground Faults Under Dynamic Variations of Voltage Unbalance in Distribution Networks
In distribution networks, single-phase high impedance ground faults and dynamically varying asymmetric phase voltages exhibit similar waveforms of neutral point displacement voltage, which can lead to misjudgment of grounding protection. To address this issue, this paper establishes an asymmetric admittance vector model to analyze the causes of dynamically varying asymmetric phase voltages and reveal the changing mechanism of neutral point displacement voltage under non-fault conditions. A full-response fault circuit model is also developed to depict the variation trajectory of neutral poin
Enhanced Power Decoupling Strategy for VSG With Power Control Based on Virtual Power Angle
The adoption of virtual synchronous machines can enhance the system inertia of a "double high" power grid. However, the strong reactive power coupling inherent in the virtual synchronous machines can introduce power steady-state errors, significantly restricting the power transmission capacity of the converter, and potentially leading to system instability. Therefore, this paper conducts a detailed analysis of the power coupling mechanism of the VSG, and identifies the line impedance ratio (R/X) and phase angle (θ) as the two major factors that affect power coupling. The imp