DE817766C - Switchgear for high-frequency transmitters with several incoming and outgoing high-frequency cables - Google Patents

Description

Switchgear for high frequency transmitters with several incoming and outgoing High-frequency cables In switchgear for high-frequency transmitters, it is common for incoming and outgoing high-frequency cables with plug contacts complete and mutual Connection of the high-frequency cables by means of special flexible switching or connecting cables to be carried out with the plug-in cores provided at the ends. Because of the relatively thick Execution of the connecting cables and the resulting heavy weight however, these are difficult to handle. Should now be used in high-frequency systems, for example either one transmitter on several acceptance devices or several transmitters on several operating systems can be switched optionally so that more frequent switchovers have to be made, so this disadvantage has a particularly strong effect. You would at the switching points each incoming cable with one corresponding to the number of outgoing cables Number of plug contacts provided, this would have a parallel connection at the cable ends the distribution cable and a disruptive change in the characteristic impedance or it would lead to difficulties in the characteristic impedance in all circuits to keep constant.

According to the invention, these disadvantages and difficulties in Switchgear for high-frequency transmitters with several incoming and outgoing high-frequency cables the same wave resistance avoided by each incoming and outgoing High-frequency cable (main cable) ends in a plug contact (main cable plug contact) and the optional connection of the main cables via their plug contacts fixed connecting cables with intermediate guides with .provided at the ends Plug contacts (connecting cable plug contacts) by means of easily switchable double plugs takes place, the wave impedance of the connecting cable and the connector with the Characteristic impedance of the main cables is at least approximately the same.

In this way it is achieved that all switchovers are easy to be handled and quickly operated plug can be executed and that at all circuits always a perfect contact and a constant resp. constant wave resistance is guaranteed. The fixed laying of the connecting cables compared to the use of movable switching cables also has the advantage that the Connecting cable against any-. what mechanical damage and overstressing and are secured against changes in the electrical properties.

In the following the invention is illustrated with reference to the figures Embodiments explained in more detail.

Fig. I initially shows schematically the circuit diagram of a system in which four high-frequency transmitters S1, S $, S3 and S4 are optionally to be connected to four antennas A1, Az, A3 and A4. The lines Ll-L4 leading from the transmitters S, -S4 to the switchover point as incoming lines end in the main cable plug contacts kl-k4. On the other hand, the outgoing lines L1'-L4 ', which lead to the antennas A1-A4, are connected to the main cable plug contacts ki -k4 in the switchover point. The plug contacts 1, 2, 3, 4 and 1 ', 2', 3 ',. arranged, ie a number of plug contacts which corresponds to the number of cables to be connected via these contacts. Furthermore, an exposed plug contact, labeled o, is provided at each plug contact point to accommodate the plug in the event that the connection is interrupted. Between the plug-in contacts kl-k4 on the one hand and the plug-in contacts kl'-ki on the other hand there are the permanently installed connecting cables, which are designated in the figure with V1 (1-1 #), V1 (2-1 #) etc. As can be seen, z. B. the connecting cable plug contacts i to 4 belonging to the incoming main cable L1 are each connected one after the other via a permanently installed connecting cable to one of the connecting cable plug contacts 1'-4 of the outgoing main cables L1 ', L2 , L3 and L4. Conversely, z. B. the connecting cable plug contacts i'-4 belonging to the outgoing main cable L l 'connected in sequence to one of the connecting cable plug contacts i-4 of the incoming main cables L1, L2, L3 and L4.

The optional connection of the main cable plug contacts with the connecting cable plug contacts is made by means of double plugs, which have a certain, the respective conditions have adapted mutual spacing of the plug-in organs. One to connect Coaxial high-frequency cable serving embodiment of such a connector shown in Fig.2. The plug contacts are in accordance with FIG for example denoted by k1 and l. The connector consists of the U-shaped bent Tube 5 as the outer conductor, in the middle of which the inner conductor 6 by means of the spacers 7 is arranged so as to be insulated from the air. Likewise is in the tubular plug contacts A central inner conductor is provided for k1 and l. The plug-in organs are designed so that a particularly good contact on the outer surface of the inner conductor and on the Inner surface of the outer conductor is guaranteed. The operation of the plug can by hand by means of shift levers, ratchet wheels or the like, possibly also by remote control Switching means take place. Such means are known per se, so that on their representation can be dispensed with. As mentioned earlier, the dimensions of the plugs and the connecting cable is chosen so that its wave impedance matches the wave impedance the main cable matches.

The entire switching point is, as FIG. 3 indicates, for example, expediently combined into a switch table, in which the connecting cables are fixed are built in. Since the parts that correspond to FIGS. I and 2 are the same If reference numerals are provided, the illustration of FIG. 3 is without further explanations understandable.

The invention is not limited to the possible embodiments described and illustrated limited. It can be used mutatis mutandis for all high-frequency systems, in particular for those who need the exact coordination of the wave resistance or the electrical length matters. Special locking devices and Signal systems may be provided.

Claims (4)

PATENT CLAIMS: i. Switchgear for high-frequency transmitters with several incoming and outgoing high-frequency cables of the same characteristic impedance, characterized in that each incoming and outgoing high-frequency cable (main cable) ends in a plug contact (main line plug contact) and the optional connection of the main cables via their plug contacts with the interposition of permanently installed connecting cables with provided at the ends Plug contacts (connecting cable plug contacts) by means of easily switchable double plugs, preferably U-shaped short-circuit plugs, the characteristic impedance of the connecting cables and the plug coinciding at least approximately with the characteristic impedance of the main cables. 2. Switchgear according to claim i, characterized in that each main cable plug contact is equidistant of this at least one corresponding to the number of cables to be connected to it Number of connecting cable plug contacts is assigned. 3. Switchgear according to claim 2, characterized in that the @ erbindungskabeisteckkontakte everyone Plug contact point of the incoming cables one after the other via a connecting cable each of the outgoing cables is connected to a connecting cable plug contact and vice versa. 4. Switchgear according to claim i, characterized in that the or the conductors of the short-circuit part of the plug and the connecting cables in accordance with the main cables are air space insulated.