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Three-Dimensional Reluctance Network Analysis Considering an Iron Loss Characteristic for an EIE-Core Variable Inductor
| Content Provider | CiteSeerX |
|---|---|
| Author | Nakamura, Kenji Hayakawa, Shuichi Akatsuka, Shigeaki Ohinata, Takashi Minazawa, Kazuo |
| Abstract | This paper presents a quantitative analysis method for an EIE-core variable inductor, which is applied as a voltage regulator in an elec-tric power system. We propose a three-dimensional nonlinear reluctance network analysis (RNA) model of an EIE-core considering mag-netic hysteresis. The RNA model of the core is coupled with external electric circuits, in order to simulate an EIE-core variable inductor. Using the coupled model, we can calculate the operating characteristics of the variable inductor including an iron loss. Furthermore, we describe the development of a trial 6.6 kV–300 kVA reactive power compensator using an EIE-core. Index Terms—Coupled analysis, EIE-core, iron loss, reactive power compensator, reluctance network analysis (RNA), variable inductor. I. |
| File Format | |
| Access Restriction | Open |
| Subject Keyword | Eie-core Variable Inductor Iron Loss Characteristic Three-dimensional Reluctance Network Analysis Considering Iron Loss Variable Inductor Index Term Three-dimensional Nonlinear Reluctance Network Analysis Reactive Power Compensator Voltage Regulator Rna Model Operating Characteristic Coupled Model Elec-tric Power System Quantitative Analysis Method Reluctance Network Analysis Mag-netic Hysteresis Kva Reactive Power Compensator External Electric Circuit |
| Content Type | Text |
| Resource Type | Article |
