Electrical and Thermal Computation of Stress Grading System in Inverter-Driven Medium Voltage Motors
スポンサーリンク
概要
- 論文の詳細を見る
This paper focuses on analyzing the electric field and the temperature distribution in a typical stress grading system used in medium voltage rotating machines under pulse width modulation voltage source conditions. Two analysis models for electric field and heat transfer processes are developed to take into account the nonlinear relationship between the electric field and the electrical conductivity of Silicon Carbide (SiC) semi-conductive tape. The simulation results give a fundamental background to explain the failure of the stress grading system in inverter-driven medium voltage motors.
- The Institute of Electrical Engineers of Japanの論文
著者
関連論文
- Transmittance Characteristic of Alkylbenzene on Terahertz Band
- Wavelet Analysis using odd function for Partial Discharge Signal Detection
- Analysis of Waveform Parameters for Oscillating Impulse Voltage using the biquadratic equation for the IG Circuit
- High-voltage Testing on UHV Equipment : Overshoot and Base Curve for Oscillating Lightning Impulse
- Transmittance Characteristic of Alkylbenzene on Terahertz Band
- Wavelet Analysis using odd function for Partial Discharge Signal Detection
- V-t Characteristics and Approximation Formula for 6.6-kV Solid-core Distribution Insulator
- Inter-university Research on the Influence of High Frequency Surges on Insulation System in Inverter Fed Motors
- Inter-university Research on the Influence of High Frequency Surges on Insulation System in Inverter Fed Motors
- Electrical and Thermal Computation of Stress Grading System in Inverter-Driven Medium Voltage Motors