EP0036627A1 - Galvanic uncoupling device for a television antenna or TV teledistribution cable - Google Patents

Abstract

Device for galvanic uncoupling of a television antenna or TV distribution cable at its junction with a connector (15) for linking the TV receiver. The external conductor (12) of the antenna cable is interrupted close to the connector, the dielectric sheath (13) of the cable is interrupted at a slightly shorter distance from the connector, and a conductor element concentric with the sheath surrounds the end of the external conductor over a length which is a quarter of the wavelength in the dielectric of the sheath at the central frequency of the channels to be received, and is attached to the external conductive part (15A) of the connector. <IMAGE>

Description

The present invention relates to a device for galvanically decoupling a cable from a television antenna or from a cable television distribution system at its junction with a connection connector of the television receiver.

Television receivers are generally connected by coaxial cables to external antennas placed on the roofs of buildings so as to present an effective height as large as possible to capture the maximum of electromagnetic field and to escape the ambient parasitic signals. In collective buildings these antennas may be common to a greater or lesser number of users. However, many television receivers are for reasons of economy lacking an isolation transformer between the 50 or 60 Hz supply network and the receiver supply circuits. The rectifiers supplying the DC voltages necessary for the operation of the receiver are connected to one pole of the network and the other pole is connected to the metal part of the chassis or "ground" of the receiver, so that this ground can be brought to a potential. several hundred volts AC to earth. The antenna connection cable is therefore also brought to the network potential, either by its external conductor (which is generally a metallic braid), or even by the internal and external conductors of the connection cable, despite the presence decoupling capacitors whose efficacy is generally questionable. This results in serious dangers, both for the user of the television when he connects or disconnects his antenna cable and for any installers or repairers called upon to work on a collective antenna, because despite the earthing of the masts 'antennas, the antennas themselves are generally isolated and connected to the central conductor of the connecting cables, therefore likely to be brought to the network potential. If several receivers without isolation transformer are connected to different phases of the supply network, there may even be short circuits or extremely troublesome leakage currents, so a long time has been sought for a solution to these problems.

In the case of television receivers supplied by a cable, this cable includes remote-powered repeaters supplied with direct current. A fault in either of these repeaters can lead to the passage of direct current through one or other of the cable conductors.

The aim of the present invention is to remedy these drawbacks by ensuring effective galvanic decoupling of the antenna or cable cable by blocking the passage of the component at 50 Hz (or 60 Hz) from the supply network, or else a direct current coming from a repeater, without presenting any notable obstacle to the passage of the high frequency currents coming from the antenna or the distribution circuit, and by further introducing an effective filtering of these high frequency currents by limiting their band transmitted to that of the reception channels actually used, which eliminates a large part of the high frequency spurious signals due to the ignition of automobiles, electrical equipment or trolleybus traction lines in particular.

The device according to the invention is characterized in that the external conductor of the antenna cable is interrupted near the connector, in that the sheath of dielectric material of the cable is interrupted at a slightly shorter distance from the connector than said conductor , and in that a conductor element concentric with said sheath around it surrounds the end of the outer conductor of the cable over a length equal to a quarter of the average length of the waves to be transmitted in the dielectric of the sheath in the vicinity of the central frequency of the television channels to be received, then connects to the external conductive part of the connector.

• - Le conducteur intérieur du câble d'antenne est également interrompu à proximité du connecteur, entouré d'un manchon isolant sur une longueur un peu supérieure à un quart de la longueur d'onde dans l'isolant du manchon au voisinage de la fréquence centrale des canaux de télévision à recevoir, interrompu à une distance un peu plus faible du connecteur que le conducteur intérieur, et un élément de conducteur électrique concentrique au manchon autour de celui-ci entoure l'extrémité du conducteur intérieur sur une longueur égale au quart de ladite longueur d'onde dans l'isolant du manchon, puis se raccorde par un tronçon de conducteur interne à la partie conductrice interne du connecteur.
• - Les éléments de conducteur électrique sont des éléments de tresse métallique.
• - Le câble est fixé mécaniquement au connecteur par au moins un élément en un matériau isolant.

It also preferably meets at least one of the following characteristics:

• - The inner conductor of the antenna cable is also interrupted near the connector, surrounded by an insulating sleeve over a length slightly greater than a quarter of the wavelength in the insulator of the sleeve in the vicinity of the central frequency of the television channels to be received, interrupted at a slightly shorter distance from the connector than the internal conductor, and an element of electrical conductor concentric with the sleeve around the latter surrounds the end of the inner conductor over a length equal to a quarter of said wavelength in the insulation of the sleeve, then is connected by a section of internal conductor to the internal conductive part of the connector.
• - The electrical conductor elements are metallic braid elements.
• - The cable is mechanically fixed to the connector by at least one element made of an insulating material.

It is described below, by way of example and with reference to the figures of the appended drawing, two devices according to the invention for galvanic decoupling of a television or cable television antenna cable at its junction with a connection connector to the receiver.

• FIG. 1 represents a device in which decoupling is only carried out on the external conductor.
• FIG. 2 represents a device in which decoupling is carried out both on the outer conductor and on the inner conductor.

In Figure 1, the braid 12 constituting the outer conductor of the cable 11 for connecting the television to the antenna is interrupted a few centimeters before the entry of this cable into the connector connecting to the receiver. The insulating sheath 13 of this cable is extended from a few millimeters to a maximum of one centimeter over the braid to allow the latter to be isolated. This operation is generally quite easy, because it is possible to slide the sheath over the braid, cut it and then fold or bring the braid over the sheath. An external metal braid 14 is then fitted over the end of the cable sheath which will ensure the high frequency connection of the cable with the external part of the connection connector. The length of the outer braid covering the end portion of the inner braid 12 through the sheath 13 is chosen to be substantially equal to a quarter wavelength in the dielectric of the sheath in the vicinity of the central frequency of the television channels to be received, so that the high frequency currents pass without difficulty from the braid 12 to the braid 14 to enter the receiver through the external conductive part 15A of the connector 15, the low coupling admittance at the start being transformed into high admittance by the quarter wave coupling, while the presence of the insulating sheath 13 between the two concentric braids 12 and 14 prohibit any passage of current at industrial frequency (or even of possible direct current) from the chassis of the television through the antenna cable. In addition, since the coupling length of the two braids is tuned to a quarter wave only for the central frequency of the desired channels, the high parasitic frequencies are greatly attenuated, which can greatly improve reception. As we have seen on the other hand that this device also blocked the passage of direct currents, it can be used on cable television installations where the connection cables include remote powered repeaters, so that the risks due to remote power currents are also deleted.

The inner conductor 16 and the insulator 17 are not modified. Of course, the external braid 14 of FIG. 1 can itself be protected by a second external insulating sheath 18 concentric with this braid, although this is not strictly necessary, before entering the connector 15.

FIG. 2 represents the case where decoupling is also applied to the inner conductor of the connecting cable 21.

As in FIG. 1, the braid 22 forming an external conductor is cut and covered over a quarter wavelength by an external braid 24. The latter is protected by a second external insulating sheath 28.

The inner conductor 26 of this cable is also cut a few centimeters before entering the connector and its end is covered with an insulating sleeve 30 over a length substantially greater than a quarter wavelength in the insulator at the average frequency of the channels to be transmitted. A braid 31 is then slid over the sleeve 30 so as to cover the latter over a length equal to * n quarter wavelength above the end of the inner conductor on the antenna side, then is connected by a solder 32 at the other end (after interruption) 29 of the internal conductor on the connector side (and receiver), itself connected to the internal conductive part 29A of the connector. In this case, the galvanic decoupling of the antenna connection cable is ensured for the two concentric conductors without the possibility of passing network currents or remote supply currents (in the case of cable television), and the filtering efficiency of high frequency stray currents is further improved.

The metallic braids ensuring the coupling for the high frequency currents on the outside and inside conductors can be replaced by solid strips.

Claims (3)

1 / Galvanic decoupling device for a television or TV distribution antenna cable at its junction with a connector (15, 25) for connecting the television receiver, characterized in that the external conductor (12, 22) of the antenna cable is interrupted near the connector, in that the sheath (13, 23) of dielectric material of the cable is interrupted at a slightly shorter distance from the connector than said conductor, and in that an element of conductor (14, 24) concentric with said sheath around it surrounds the end of the outer conductor of the cable over a length equal to a quarter of the average length of the waves to be transmitted in the dielectric of the sheath in the vicinity of the central frequency television channels to receive, then connects to the external conductive part (15A, 25A) of the connector. 2 / Device according to claim 1, characterized in that the inner conductor (26, fig.2) of the antenna cable is also interrupted near the connector, surrounded by an insulating sleeve (30) over a slightly greater length at a quarter of said wavelength in the insulation of the sleeve in the vicinity of the central frequency of the television channels to be received, interrupted at a slightly shorter distance from the connector than the internal conductor, and in that an element of electrical conductor (31) concentric with the sleeve around the latter surrounds the end of the inner conductor for a length equal to a quarter of said wavelength in the insulation of the sleeve, then is connected by a section of internal conductor ( 29) to the internal conductive part (29A) of the connector. 3 / Device according to one of claims 1 and 2, characterized in that the electrical conductor elements (14, 24, 31) are metallic braid elements. 4 / Device according to one of claims 1 to 3, characterized in that the cable is mechanically fixed to the connector by at least one element (17, 27) of an insulating material.

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