Barrier-layer dielectrics

Abstract

Barrier-layer dielectrics are bodies exhibiting an anomalously high permittivity as a result of continuous thin layers of low-loss dielectric enclosing regions of high conductivity. This inhomogeneity is brought about in ceramic dielectrics containing titanium dioxide by a reduction process followed by partial reoxidation, the reduced ceramic behaving as an n-type semiconductor. According to the porosity, barrier layers are formed either between the ceramic grains or at the ceramic surface.Dielectrics have been developed with permittivities between 10⁵ and 10⁶, loss tangents below 0.05, and very low temperature coefficients of permittivity between −40°C and +150°C. A limitation on the use of such dielectrics is that they are non-ohmic, the resistance falling steeply with increasing voltage and limiting the working potential to a few volts.The dielectrics are shown to be electrically equivalent to two resistance-shunted capacitors connected in series, corresponding to the stoichiometric and reduced portions of the ceramic. An unexpected feature is that the reduced ceramic behaves in itself as a dielectric with anomalously high permittivity.Properties of barrier-layer dielectrics based on a wide range of materials are given, together with preparatory techniques. Data are also presented on two types of commercial barrier-layer capacitors.