Insulator (electricity)

About: Insulator (electricity) is a research topic. Over the lifetime, 15941 publications have been published within this topic receiving 108950 citations. The topic is also known as: electrical insulator.

Externally gapped line arrester

Abstract: An arrester for preventing an insulator supporting a power line from experiencing an electrical flashover comprises an electrode, a varistor, and a separating device. The electrode is spaced apart from the power line or a conductor that is electrically tied to the power line so as to define an external gap therebetween. The separating device, in turn, comprises two portions operative to separate from one another when the varistor experiences an electrical condition sufficient to cause the varistor to fail. The electrode, the external gap, the separating device, and the varistor are arranged in electrical series with one another and in electrical parallel with the insulator.

Thermal conductivity sheet

Abstract: A thermal conductivity sheet is provided which is superior all in heat radiating characteristics (thermal conductivity) in the direction of sheet thickness, close-contact with respect to parts to be cooled, and electrical insulation. In a thermal conductivity sheet 1 in which a plurality of highly thermally conductive insulators 3 are dispersed in a matrix insulator 2, the highly thermally conductive insulators 3 are oriented obliquely or erectly in the direction of thickness of the thermal conductivity sheet 1 such that at least one end faces of the highly thermally conductive insulators 3 are exposed to a surface of the matrix insulator 2. Preferably, a ratio of the total sectional area of the highly thermally conductive insulators 3 to the total surface area of the thermal conductivity sheet 1 is set to be equal to or larger than 1%.

Embedded thermal conductors for semiconductor chips

Abstract: A semiconductor chip structure includes a substrate, at least one thermal conductor embedded within the semiconductor chip structure, the thermal conductor providing electrical insulation and a plurality of devices formed within the structure adjacent to the at least one thermal conductor such that during operation heat produced in the devices is transferred into and through the at least one thermal conductor to reduce an operating temperature of the devices. This structure is particularly useful in silicon-on insulator devices. A method of forming embedded thermal conductors in a semiconductor chip includes the steps of providing a substrate having an oxide layer formed thereon, etching trenches into the oxide layer, depositing diamond to fill the trenches to form thermal conductors contacting the substrate and forming devices and contacts adjacent to the thermal conductors for providing heat flow paths to reduce an operating temperature of the devices.

Mechanism and effect of DC charge accumulation on SF/sub 6/ gas insulated spacers

Abstract: Mechanism and effect of DC charge accumulation on the surface of a solid insulating support (spacer) have been studied in compressed SF/sub 6/ gas using various cylindrical model spacers. The distribution of surface charged is closely related to the normal component (gas side) E/sub n/ of electric field on the spacer surface. The ,maximum charge density can be estimated from the condition of E/sub n/=0. When voltage is applied in a polarity opposite to prestressed DC, surface charge increases the maximum field strength in the arrangement, resulting in the reduction of the insulating ability. It is possible to estimate the lowest flashover voltage due to surface charges only from numerical fields calculations. An anticharging spacer shaped along electric lines of force is proposed and studied. >