Title :
Analytical approximations for the rotating machine end-turn field distribution
Author :
Boggs, Steven A. ; Kumada, Akiko ; Yoshimitsu, Tetsuo
Author_Institution :
Nonlinear Syst., Inc., Ashford, CT, USA
fDate :
12/1/2015 12:00:00 AM
Abstract :
The end turn grading of a form-wound machine is coupled capacitively to the stator conductor so that only derivatives of the conductor voltage are relevant to the performance of the end turn grading. In other words, the key factors are the “slew rate”, i.e., the derivative of the conductor voltage with respect to time, and the capacitance per unit length between the stator conductor and conductor armor tape (CAT) and nonlinear stress grading (SG). Both the CAT and SG can participate in grading for high slew rates, and a condition is provided for such participation. The peak field along the SG, and the decay thereof as a function of time after a transition, can be estimated from fundamental considerations.
Keywords :
electric machines; stators; CAT; conductor armor tape; conductor voltage; end turn grading; form-wound machine; nonlinear SG; nonlinear stress grading; rotating machine end-turn field distribution; slew rate; stator conductor; Approximation methods; Conductivity; Conductors; Electric fields; Electric potential; Stators; Time-frequency analysis; Variable speed drive; adjustable speed drive; end turn grading;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
DOI :
10.1109/TDEI.2015.005240
