SU725089A1 - High-voltage cable - Google Patents

Description

the additional layer should not be less than three times the dielectric permeability of the material of basic insulation, and the core should be made of metal with a work function not lower than 3 in.

When using the cable under conditions of high temperature, polyvinylidene fluoride can be used as a filling material and an additional layer.

FIG. 1 shows a cable, cross section.

It contains the central core 1, the additional layer 2, the main insulation 3, the shield 4, the protective sheath 5, the interwire filling 6.

FIG. Figure 2 shows the dependence of the breakdown voltage on the ratio of the thickness of the additional layer to the total thickness of the insulation. The total thickness is plotted along the abscissa, and the breakdown voltage, along the ordinate axis. Dependence A is shown for a total thickness of 1.11 mm, the dependence B is for a thickness of 0.61 mm.

When a pulsed voltage is applied between the central core 1 and the screen 4, the electrons injected into the insulation from. the cores are accelerated by the field and form initial avalanches that increase and lead to insulation breakdown. However, the additional layer 2 and interwire filling-b, due to the high dielectric permeable ™, reduces the value of the voltage in close proximity to the central electrode, which violates the conditions necessary for the nucleation of primary avalanches. At the same time, an additional layer, occupying a part of the insulation volume, increases the field strength in the main insulation, which in turn leads to a maximum in the dependence of the electrical strength of the insulation on the thickness of the additional layer.

In accordance with the invention, compact cables have been manufactured for pulsed operation (see table).

Operational tests showed high reliability of these cables in the transmission mode of unipolar pulses with a voltage of 10 to 30 kV and a front duration of less than 1 µs.

Claims (2)

1. High-voltage cable, mainly for transmitting high-voltage pulses with a front length of less than 1 MKS, containing a central multi-wire core, main insulation, concentric with a conductive core, and, a screen located above the insulation, characterized in that reliability of the cable by reducing the level of local overvoltages, it contains an additional insulating layer, located between the yellow and main insulation and made of a material with a dielectric constant, less than twice the dielectric constant of the main insulation material, and the space between the inner surface of the additional insulating layer and the surface of the wires forming the core is filled with a material whose dielectric constant is not less than the dielectric constant of the additional layer material, while the ratio of the thicknesses of the main and additional insulation must e. be within - 0.08 - 0.30, where 8 + A b - thickness of additional insulation; D is the thickness of the main insulation. 2. Cable according to claim 1, characterized in that, in order to increase reliability when operating in the pulse transmission mode with a front duration less than 0.1 µs, the material of the additional layer has a dielectric constant not less than three times the dielectric constant of the main insulation material, at the same time, the conductive conductor is made of metal with a work function of at least 3 eV. Sources of information taken into account in the examination 1. US patent number 3885085, NCI 174- 36, 1975. 2. Technical conditions TU 16-505.379-72.