SU1760559A1 - Cable - Google Patents

Abstract

Use: cables with increased noise immunity. SUMMARY OF THE INVENTION: The cable contains pairs of insulated conductive wires 1 intertwined with each other, each of which is placed in a metal screen 3 and covering a flexible sheath 4. A fraction of ferromagnetic material is placed between the metal screens 3 and the flexible sheath 4. 1 il.

Description

. The invention relates to electrical engineering, in particular to cable technology, and can be used when supplying electric current to various control systems for electric and radio devices, for example, pulse converters of direct current.

Known cable, consisting of insulated conductive cores twisted into coils and placed in an outer sheath of conductive material.

The disadvantage of this cable is that due to the placement of conductive wires in the air, it does not provide a sufficient reduction in voltage ripple, which limits its use in the transmission of electrical energy to consumers sensitive to the shape of the input signal.

Closest to the proposed is a flexible cable containing a central coil of pairs of insulated conductive conductors. each pair being shielded by a metal screen. A flexible metal screen is superimposed on top of the shielded center layers. Navivas of isolated conductive conductors are wound on the formed noise-resistant core. The obtained core of the flexible cable is enclosed in an elastic protective sheath.

The disadvantage of this cable is that an increase in its noise immunity due to the introduction of a pair of potential pairs and their shielding does not provide a significant reduction in voltage ripple at the input of the cable bus, and especially if they are used to simultaneously supply converters whose control frequencies coincide. In addition, the magnitude of the induced voltage on the shielded cores of the cable when exposed to external pulsed electromagnetic fields can be critical for the factor of thermal breakdown of elements or malfunction of the control system.

The aim of the invention is to increase the noise immunity of the cable while maintaining its flexibility.

To do this, in a cable containing pairs of insulated conductive conductors twisted together, each of which is placed in a metal screen and a flexible sheath covering them, a fraction of ferromagnetic material is placed between the metal screen and the flexible sheath.

A positive effect is achieved due to the fact that a fraction of the ferromagnetic material placed between the metal screens and the flexible cable sheath changes the electromagnetic environment of the surrounding space around the cable veins by increasing the relative magnetic permeability μ _τ > 1. As a result, the value of voltage ripples along the chains the power supply of consumers sensitive to the shape of the input signal is reduced due to an increase in reactive resistance shb, as well as due to an increase in the absorbed energy in the volume e fraction of ferromagnetic material in όμϊ time when subjected to an external electromagnetic field cable.

The drawing shows the proposed cable.

The cable consists of conductive conductors 1, covered with insulating material 2, which are twisted in pairs in coils and each of these coils is placed in a metal shield 3. The weight of the shielded pairs is enclosed in a flexible sheath 4 of insulating or conductive material, and in the space between the sheath 4 and pairs conductive conductors 1, enclosed in a screen 3, placed fraction 5 of ferromagnetic material.

Example Shielded pairs of twisted conductive conductors with insulating (lavsan, fluoroplastic or other) coating are placed on the prepared substrate from the shot with the specified properties and diameter. The shot for the manufacture of the substrate is poured into a rectangular box of polyvinyl chloride material at a given length, width and thickness.

After placing the shielded pairs, the box is completely filled with shot to the top. The box is closed with a lid of polyvinyl chloride material.

If necessary, it is envisaged to introduce various components and mechanical components that fasten the shot and shielded pairs of insulated cable conductors

This example shows that the proposed technical solution at the current level of development of cable technology using similar means of protection against magnetic fields can be designed for flat cables.

The proposed cable design provides noise immunity of the cable core chains from electrical and magnetic influences while maintaining its flexibility.

The increase in the mass of the cable due to the introduction of fractions of ferromagnetic material is compensated by the mass of expensive materials embedded in devices for reducing voltage ripples (filters, etc.) located in the control system.

Claims (1)

Claim A cable containing pairs of insulated conductive conductors twisted together, each of which is placed in a metal shield, and a flexible sheath covering them, characterized in that, in order to increase its noise immunity, a fraction of ferromagnetic material is placed between the metal shields and the flexible sheath.