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8.) Sketch the root locus, for positive K, of the system shown below using the (1, 1) Pade approximation for the delay. Note that this produces a 0° root locus for positive K. State the asymptote angles and their centroid, the arrival and departure angles at any complex pole or zero, the frequencies of any imaginary axis crossings, and the locations of any break-in or break-away points. nosit Its she tion fo scales. vimation the 0.25 SccoIG dCla -0.25s e Σ K Y s2 + 5s + 6

8.) Sketch the root locus, for positive K, of the system shown below using the (1, 1) Pade approximation for the delay. Note that this produces a 0° root locus for positive K. State the asymptote angles and their centroid, the arrival and departure angles at any complex pole or zero, the frequencies of any imaginary axis crossings, and the locations of any break-in or break-away points. nosit Its she tion fo scales. vimation the 0.25 SccoIG dCla -0.25s e Σ K Y s2 + 5s + 6

Power System Analysis and Design (MindTap Course List)
Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter11: Transient Stability
Section: Chapter Questions
Problem 11.27P
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8.) Sketch the root locus, for positive K, of the system shown below using the (1, 1) Pade approximation for the delay. Note that this produces a 0° root locus for positive K. State the asymptote angles and their centroid, the arrival and departure angles at any complex pole or zero, the frequencies of any imaginary axis crossings, and the locations of any break-in or break-away points. nosit viation fe scales. lov Ve 1ts she Tatia U1D vima the 0.25 SccOIG dClay -0.25s e R Σ K Y s2 + 5s + 6 +
Transcribed Image Text:8.) Sketch the root locus, for positive K, of the system shown below using the (1, 1) Pade approximation for the delay. Note that this produces a 0° root locus for positive K. State the asymptote angles and their centroid, the arrival and departure angles at any complex pole or zero, the frequencies of any imaginary axis crossings, and the locations of any break-in or break-away points. nosit viation fe scales. lov Ve 1ts she Tatia U1D vima the 0.25 SccOIG dClay -0.25s e R Σ K Y s2 + 5s + 6 +
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