Abstract:
Electromagnetic transients in arbitrary single- or multiphase networks are solved by a nodal admittance matrix method. The formulation is based on the method of character...Show MoreMetadata
Abstract:
Electromagnetic transients in arbitrary single- or multiphase networks are solved by a nodal admittance matrix method. The formulation is based on the method of characteristics for distributed parameters and the trapezoidal rule of integration for lumped parameters. Optimally ordered triangular factorization with sparsity techniques is used in the solution. Examples and programming details illustrate the practicality of the method.
Published in: IEEE Transactions on Power Apparatus and Systems ( Volume: PAS-88, Issue: 4, April 1969)
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Digital Computer ,
- Time Step ,
- Linear Equation ,
- Power System ,
- Travel Time ,
- Sudden Changes ,
- Storage Systems ,
- Off-diagonal ,
- Series Resistance ,
- Frequency Dependence ,
- Method Of Characteristics ,
- Trapezoidal Rule ,
- System Of Linear Equations ,
- Triangular Matrix ,
- Mutual Coupling ,
- Nonlinear Parameters ,
- Single Branch ,
- Traveling Wave ,
- Nonlinear Element ,
- Switching Network ,
- Economic Dispatch ,
- Computer Program ,
- Skin Depth ,
- Equivalent Source ,
- Voltage Source ,
- Linear Interpolation ,
- Current Source ,
- Step Width ,
- Numerical Stability ,
- Truncation Error
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Digital Computer ,
- Time Step ,
- Linear Equation ,
- Power System ,
- Travel Time ,
- Sudden Changes ,
- Storage Systems ,
- Off-diagonal ,
- Series Resistance ,
- Frequency Dependence ,
- Method Of Characteristics ,
- Trapezoidal Rule ,
- System Of Linear Equations ,
- Triangular Matrix ,
- Mutual Coupling ,
- Nonlinear Parameters ,
- Single Branch ,
- Traveling Wave ,
- Nonlinear Element ,
- Switching Network ,
- Economic Dispatch ,
- Computer Program ,
- Skin Depth ,
- Equivalent Source ,
- Voltage Source ,
- Linear Interpolation ,
- Current Source ,
- Step Width ,
- Numerical Stability ,
- Truncation Error
