부산대학교 도서관

Spatially dispersive nonlinear transmission lines (NLTLs) have attracted interest as pulsed RF sources. The characteristics of these sources need to be further evaluated and understood to optimize their design. This paper presents the performance of a spatially dispersive nickel-zinc (NiZn) NLTL for two experiments. The first experiment evaluated the RF power and frequency generated as a function of the primary dielectric medium for SF 6 compared to the previously implemented Royco 602 transformer oil. The second experiment evaluated the RF power and frequency generated as a function of the ferrites' loss tangents, initial permeabilities, and dimensions. The NLTL's performance is presented for each experiment across a range of operational input voltage levels and ferrite bias conditions. Experimental primary dielectric performance results demonstrate approximately 4X increase in RF power at frequencies above 1.2 GHz for replacement of oil with SF 6 . Experimental ferrite performance results show output frequencies from 0.9 to 1.39 GHz and peak RF powers >2X higher for the higher permeability and larger volume ferrite.