6 Transmission Line Models Wire over Earth capacitance
- Slides: 12
6. Transmission Line Models Wire over Earth capacitance Electric Field Volts per meter for h >> r. 2π • 8. 854 p. F per meter length = 55. 6 p. F / meter ln(10000) = 9. 2, C = 6. 0 pf/m ln(1000) = 6. 9, C = 8. 1 pf/m ln(100) = 4. 6, C = 12. 1 pf/m Reasonable estimate is 10 p. F/m Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 1
6. Transmission Line Models, cont. Wire over Earth inductance Magnetic field intensity H Amperes per meter. for h >> r. (4π • 10 -7) / 2π Henries per meter length = 0. 2 μH/m ln(10000) = 9. 2, L = 1. 8 μH/m ln(1000) = 6. 9, L = 1. 4 μH/m ln(100) = 4. 6, L = 0. 92 μH/m Reasonable estimate is 1 μH/m Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 2
6. Transmission Line Models, cont. Symmetric bundles have an equivalent radius Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 3
6. Transmission Line Models, cont. Three phases If the transmission line is symmetric, then the “P matrix” has the equal diagonal, equal off-diagonal property that permits 0 -1 -2 analysis rather than a-b-c analysis Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 4
6. Transmission Line Models, cont. If the transmission line is symmetric, then the “L matrix” has the equal diagonal, equal off-diagonal property that permits 0 -1 -2 analysis rather than a-b-c analysis Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 5
6. Transmission Line Models, cont. Summary of Positive/Negative Sequence Capacitance and Inductance Calculations Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 6
6. Transmission Line Models, cont. Summary of Positive/Negative Sequence Capacitance and Inductance Calculations Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 7
6. Transmission Line Models, cont. Summary of Zero Sequence Capacitance and Inductance Calculations meters Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 8
6. Transmission Line Models, cont. Summary of Zero Sequence Capacitance and Inductance Calculations Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 9
6. Transmission Line Models, cont. Summary of Zero Sequence Capacitance and Inductance Calculations Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 10
6. Transmission Line Models, cont. Ready for Use! QL absorbed P 1 + j. Q 1 I 1 + 200 k. Vrms - R 1 jωC/2 QC 1 produced jω L 1 jω C/2 QC 2 produced P 2 + j. Q 2 I 2 + VR / δR - One circuit of the 345 k. V line geometry, 100 km long Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 11
6. Transmission Line Models, cont. 345 k. V Double-Circuit Transmission Line 22. 9 m at tower, sags down 10 m at mid-span to 12. 9 m. Double conductor phase bundles, bundle radius = 22. 9 cm, conductor radius = 1. 41 cm, conductor resistance = 0. 0728 Ω/km Single-conductor ground wires, conductor radius = 0. 56 cm, conductor resistance = 2. 87 Ω/km Prof. Mack Grady, TAMU Relay Conference Tutorial, Topic 6, March 31, 2015 12
- Parallel wire transmission line
- Lossless transmission line examples
- A flexible loop of wire lies in a uniform magnetic field
- Why do magnets repel
- Live neutral earth
- Representative fraction
- Difference between model and semi modals
- Lossless transmission line problems
- Transmission line examples
- Konstanta propagasi adalah
- Microstrip transmission line
- Microstrip transmission line
- Mechanical considerations of transmission line