Mathematical Methods For Electrical Circuits And Fields Calculation
Contents
- Steadystate Processes In Line Circuits With
- Distributed And Lumped Parameters
- Telegraph Equations And Dimensionless Quantities
- The Fourier Series Method For Calculation Of Nonsinusoidal
- Regimes In Opened And Shortcircuited Circuits With
- Sinusoidal Current Or Voltage Sources
- Method Of Characteristics For Ideal And Undistorting Lines
- With Lumped Elements
- Moving Capacitor Discharge On Long Line With Losses
- The Pulse Mode Power Capacity Or Inductance Connection
- To Loaded Continuous Current Line
- Active And Reactive Powers Of The Long Line
- The Finitedifference Scheme: Principle Of Creation And
- Theoretical Foundation
- Stability Of Computational Scheme
- A Posteriori Analysis Of The Numerical Solutions Accuracy
- Emergency And Postemergency States Caused By
- I nstantaneous Changes Of Load Parameters In The Overhead
- Transmission Line Kv
- Chapter Ii Transmission Power And Efficiency
- Increase By Means Of “Bucking Out” Systems
Maximal Steadystate Voltages And Currents In Homogeneous
- Transmission Line
- Maximal Transmission Power And Efficiency In
- Alternating Voltage Line
- Load Parameters Compensation With The Object Of
- Transmission Power And Efficiency Increasing
- Line Parameters Longitudinal Compensation
- Line Parameters Transverse Compensation
- How To Tune The Quarterwave Line To The Halfwave Regime
- Idling And Natural Power Transfer Loss Saving By
- Means Of Shunt Reactors And Reactive Power Sources
- Decomposition Method For Calculation Of Two
- Generators Optimal Action Under General Loads
- Chapter Iii Transient And Steadysate Regimes
- Under The Ideal Transformers Connected