Title :
Virtual Instrument for Lightning Impulse Tests
Author :
Palani, A. ; Jayashankar, V.
Author_Institution :
IIT Madras, Madras
fDate :
7/1/2007 12:00:00 AM
Abstract :
We propose an objective formulation of the impulse analysis problem from a signal analysis viewpoint. The winding response is quintessentially that of a deterministic network to a finite energy signal, with breakdown and partial discharge being inherently nonlinear events. A significant improvement to the acquisition of waveforms is demonstrated by a virtual instrument approach. It retains the advantages of the time- and frequency-domain methods. The drawbacks of the transfer function method are highlighted and a new piecewise linear approach is proposed for analysis. Experiments on a discrete lumped parameter model of the winding are used to validate the PXI based instrument.
Keywords :
electric breakdown; impulse testing; lumped parameter networks; partial discharges; transfer functions; transformer windings; breakdown discharge; discrete lumped parameter model; finite energy signal; frequency-domain methods; impulse analysis problem; lightning impulse tests; partial discharge; signal analysis; time-domain methods; transfer function; virtual instrument; winding response; Electric breakdown; Frequency domain analysis; Impulse testing; Instruments; Lightning; Partial discharges; Shape; Signal analysis; Transfer functions; Utility programs; Breakdown; extrapolation; impulse test; partial discharge; virtual instrument;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2007.900089
