CH704156A2 - Connector for coaxial high-frequency cable i.e. jumper cable, for use in mobile communication system, has housing portion comprising clamping sleeve on which nut is mounted, where connector is connected with another connector through nut - Google Patents

Abstract

The connector (1) has a housing (7) electrically connected to an outer conductor (18) i.e. pipe cladding, of a coaxial high-frequency cable (2). A nut (3) is mounted on the housing, where the connector is connected with another connector i.e. mobile radio antenna, through the nut. A housing portion (7b) of the housing comprises a clamping sleeve on which the nut is mounted. Another housing portion (7a) of the housing is connected with the outer conductor by a solder joint (11). The housing portions are manufactured as separate cylindrical parts.

Description

The invention relates to a connector to a high-frequency cable and in particular a Jumperkabel for a mobile radio system, which has an outer conductor in the form of a tubular jacket and an inner conductor, with a housing which is electrically connected, for example, with solder to the outer conductor and with a high-frequency cable Nut, which is mounted on the housing and with which the connector with another connector, such as a mobile antenna is connectable.

Mobile radio systems and in particular mobile radio antennas are electrically connected to at least one supply cable (feeder cable) with a base station. This supply cable is comparatively stiff and can only be bent in a comparatively large radius. As a rule, the supply cable runs vertically upwards parallel to the mast and is connected to the antenna at the upper end. For connecting the upper end to the antenna, a so-called jumper is provided, which is comparatively short and flexible. It has a much smaller outer diameter than the rest of the cable and can therefore be bent by hand for connecting the antenna. The usual outside diameters for such jumpers are one-quarter inch, one-half inch and three-eight inches. The jumper has a connector at each end. This should correspond for example to the standard DIN 7-16 (DIN 47223) or DIN 4.1-9.5 (DIN 47231). Another aspect is the passive intermodulation and return loss, which should be as low as possible.

A connector with a portion of a jumper cable according to the prior art is shown in Fig. 4. The connector A has a housing C, which is soldered to a corrugated tube casing E. The corrugated tube E forms the outer conductor. However, the cable outer conductor could also be a smooth tube. In the outer conductor extends the inner conductor F, which is surrounded by a dielectric, not shown here. On the housing C, a nut D is mounted, with which the housing C is connectable to a wide connector, not shown here. At the further end of the jumper cable B, not shown here, a further connector A is mounted. The jumper with the two connectors A is mounted on the side so that it can be connected comparatively easily and quickly to the mast.

The preparation of such a jumper is relatively expensive, since the items must be precisely manufactured and assembled in numerous steps. Significant costs are also the production of the housing made of brass and the silvering of the housing. For different cable diameter different housing must be made and kept in stock.

The invention has for its object to provide a connector of the type mentioned, which can be made much cheaper and yet meets the electrical requirements and in particular the requirements of passive intermodulation (PIM) and return loss (VSWR).

The object is achieved in a generic connector characterized in that the housing has at least a first housing part and a second rear side arranged on this second housing part and that this second housing part is a clamping sleeve on which said nut is mounted. In the inventive connector, the housing can be made much shorter than before. The material consumption of brass and silver can be significantly reduced. The case can also be made with fewer steps, which has a positive effect on the return loss.

Another advantage of the inventive connector is seen in the fact that the second housing part, which forms the clamping sleeve, can be used in the same design for different cable diameters. The connector can therefore be largely manufactured in a modular system.

Further advantageous features emerge from the dependent claims, the following description and the drawings.

An embodiment of the invention will be explained in more detail with reference to the drawing. Show it: <Tb> FIG. 1 <sep> a longitudinal section through the one end of a jumper, <Tb> FIG. 2 <sep> is a three-dimensional view of the end according to FIG. 1, <Tb> FIG. 3 <sep> is a view of a prepared cable end and <Tb> FIG. Figure 4 is a longitudinal section through the end of a prior art jumper.

The end of a jumper 26 shown in Figs. 1 and 2 has a connector 1 connected to a high frequency cable 2. With the connector 1, the coaxial RF cable 2 can be connected to the antenna or the feeder cable (not shown). The diameter of the high frequency cable 2 is one quarter inch, one half inch or three inches minor. Since the jumper 26 is comparatively short, the damping is hardly significant. For the usually three antennas of a mast three such jumpers 26 are provided accordingly. When connecting the jumper 26 on the mast are not shown here by the two connectors 1 protective cover removed and joined the compounds and secured with a threaded nut 5 having 3 the connection. The connector 1 is basically a connector in which the two conductors are electrically connected by axial joining.

The connector 1 has a circular cylindrical housing 7 which is made of a first housing part 7a and a second housing part 7b. The two housing parts 7a and 7b are made for example of brass and silvered. The first housing part 7a has on the back a sleeve-shaped projection 10, which is arranged on a radially extending bottom 9 and which is connected to an outer conductor 18 and in particular soldered to a soldering point 11. The outer conductor 18 is e.g. formed as a corrugated pipe jacket made of copper with a Schraubwellung according to FIGS. 1 and 3 or as a ring corrugation or as a smooth tube made of aluminum. In order to connect the first housing part 7a to the outer conductor 18, the illustrated end of the high-frequency cable 2 according to FIG. 3 is prepared. The outer conductor 18 is thereby exposed by removing a front end of an insulating sheath 19 as shown. To expose a front end of the inner conductor 16 also a part of the dielectric, not shown here, and the outer conductor 18 is removed. On the exposed end of the inner conductor 16, a cable-shaped inner conductor receptacle 17 is placed. As can be seen, the inner conductor 16 protrudes beyond a front side 25 of the outer conductor 18 and the electrical insulation, not shown here, between the outer conductor 18 and the inner conductor 16.

In order to solder the first housing part 7a to the outer conductor 18, the connector 1 is placed on the prepared according to FIG. 3 cable end. The second housing part 7b and the nut 3 are in this case moved in the longitudinal direction of the high-frequency cable 2 to the rear or in Fig. 3 down, so that the first housing part 7a is freely accessible for soldering. The soldering or optionally another connection technique is carried out in a conventional manner. If the first housing part 7a connected to the outer conductor 18 and in particular soldered, the nut 3 and the second housing part 7b are brought in the longitudinal direction in the position shown in FIG. 1 and held in this. Now, an insulating member 20 is applied from a suitable plastic and in particular molded. This insulating member 20 has a front end 21 and a rear end 22. Preferably, the insulating member 20 is formed so as to completely fill the space 24 shown here. The solder joint 11 is in this case also surrounded by the insulating member 20. The front end 21 of the insulating part 20 also bears against an outer side 15 of the second housing part 7b. The rear end 22 is connected to the outside of the insulation sheath 19. The exposed part of the outer conductor 18 and the Lotstelle 11 are thus protected by the insulation member 20 to the outside. In addition, the second housing part 7b is fixed in the position shown in Fig. 1. As can be seen, the second housing part 7b bears against a clamping surface 14 arranged at the rear on the first housing part 7a. The second housing part 7b transmits when screwing the axial clamping force of the nut 3 on the first housing part 7a. Since the second housing part 7b is largely independent of the outer diameter of the high-frequency cable 2, it can be used for different outer diameter. The adaptation to different outer diameter is required only for the approach 10. The first housing part 7a is much shorter compared to the prior art according to FIG. He also has fewer stages, which allows an optimization of the return loss.

Since the first housing part 7a is much shorter than before, the cost of silver and brass is correspondingly smaller. As can be seen, the first housing part 7a is not substantially longer than the nut 3.

If the connector 1 is connected to the high-frequency cable 2, a dielectric ring 8 is pressed in from a front side 4. In addition, a sealing ring 6 is also inserted from the front side 4 ago.

LIST OF REFERENCE NUMBERS

[0015] <Tb> 1 <sep> connector <Tb> 2 <sep> High-frequency cable <Tb> 3 <sep> Mother <Tb> 4 <sep> Front Page <Tb> 5 <sep> Thread <Tb> 6 <sep> seal <Tb> 7 <sep> Housing <tb> 7a <sep> first housing part <tb> 7b <sep> second housing part <tb> 8 <sep> dielectric ring <Tb> 9 <sep> Floor <Tb> 10 <sep> Approach <Tb> 11 <sep> soldering <Tb> 12 <sep> Rand <Tb> 13 <sep> bead <Tb> 14 <sep> clamping surface 'Tb> 15 <sep> outside <Tb> 16 <sep> inner conductor <Tb> 17 <sep> inner conductor receiving <Tb> 18 <sep> outer conductor <Tb> 19 <sep> insulating sheath <Tb> 20 <sep> insulation part <tb> 21 <sep> front end <tb> 22 <sep> back end <Tb> 23 <sep> space <Tb> 24 <sep> space <Tb> 25 <sep> Front Page <Tb> 26 <sep> Jumper

Claims (11)

1. A connector to a high-frequency cable (2) and in particular a Jumperkabel for mobile communication systems, which high-frequency cable (2) has an outer conductor (18) in the form of a tubular jacket and an inner conductor (16), with a housing (7) connected to the outer conductor (18) is electrically connected and with a on the housing (7) mounted nut (3) with which the connector (1) is connectable to another connector, characterized in that the housing (7) has a first housing part (7a) and a second rear side arranged on this second housing part (7b) and that this second housing part (7b) is a clamping sleeve, on which said nut (3) is mounted. 2. Connector according to claim 1, characterized in that the first housing part with the outer conductor (18) by means of a solder joint (11) is connected. 3. Connector according to claim 1 or 2, characterized in that the two housing parts (7a, 7b) are separately produced circular cylindrical parts. 4. Connector according to one of Ansprächen 1 to 3, characterized in that the outer conductor (18) has a Ringwellung or a Schraubwellung. 5. Connector according to one of claims 1 to 4, characterized in that the second housing part (7b) bears against a rear side (14) of the first housing part. 6. Connector according to one of claims 1 to 5, characterized in that the first housing part (7a) on the back has a sleeve-shaped projection (10) which is surrounded by the second housing part (7b) at a distance therefrom. 7. Connector according to one of claims 1 to 6, characterized in that the high-frequency cable (18) has an insulation sheath (19) which is stripped to a predetermined length. 8. A connector according to claim 7, characterized in that an insulating part (20) is sprayed or cast, which at a front end (16) with the second housing part (7b) and at a rear end (22) with the insulating sheath (19) connected is. 9. A connector according to claim 8, characterized in that the insulating part (20) engages in the second housing part (7b) and fixes it. 10. Connector according to claim 8 or 9, characterized in that the insulating part fills an annular space between the two housing parts (7a, 7b). 11. Connector according to one of claims 1 to 10, characterized in that the first housing part (7a) seen in the longitudinal direction of the high-frequency cable (7) is substantially the same length as the nut (3).