EP1689056A1 - Overvoltage arrester device - Google Patents

Abstract

Shown and described is an overvoltage protection device for antenna systems, comprising a housing (2), having a plurality of overvoltage protection elements (3) arranged in the housing (2) and having a plurality of inputs (4) and outputs (5) corresponding to the number of overvoltage protection elements (3). , wherein in each case an overvoltage protection element (3) is arranged between an input (4) and an output (5), so that an electronic device (6) connected to the outputs (5) is protected against overvoltages.

Description

The invention relates to an overvoltage protection device for antenna systems, comprising a housing and arranged in the housing overvoltage protection elements.

Antenna systems are generally considered to be particularly vulnerable to overvoltage, as the usually very long antenna cables and the antennas themselves (both terrestrial antennas and satellite antennas) are exposed directly to atmospheric discharges. For this reason, cables are used with a coaxial design, the EMC technically more favorable properties. Nevertheless, this eliminates the risk of overvoltage coupling in antenna cables and the transmission of overvoltages into the sensitive interfaces of the receiver systems.

However, the safety of the receivers can be increased so far with suitable overvoltage protection devices that damage due to overvoltages is hardly to be expected. For this purpose, overvoltage protection devices are inserted into the coaxial cable of the antenna, whereby the following electronic devices - televisions, receivers or multi-switches - are largely protected against overvoltages. Since the overvoltage protection devices are connected between the end of the antenna line and the input of an electronic device, overvoltage protection devices are usually also referred to as overvoltage protection adapter or overvoltage protection adapter plug.

Depending on the application, the known overvoltage protection adapters have different overvoltage protection elements and a correspondingly formed input and output. In particular, the output is usually designed as a plug or socket connection, so that the overvoltage protection adapter can be easily plugged or screwed onto the corresponding input of the electronic device to be protected. Such overvoltage protection adapter are known for example from DE 42 22 378 C2 or DE 102 12 365 Cl.

Satellite antennas have been increasingly used as receiving antennas for some years in addition to terrestrial antennas. The signals radiated by the satellites are received by means of the satellite antenna and fed to the input of a converter (LNB) arranged at the focal point of the satellite antenna. The converter amplifies and converts the satellite signals from a high frequency range (about 10 to 13 GHz) into so-called satellite IF signals in a lower intermediate frequency range of 950 to 2150 MHz. To make better use of the available frequency range, the satellites emit radiation at various levels. Common here is the radiation on a horizontal and a vertical plane and the division into a lower frequency band from 10.7 to 11.7 GHz and an upper frequency band from 11.7 to 12.75 GHz. If several participants, d. H. several receivers are connected to a satellite antenna, so a special converter for simultaneous reception of multiple levels of reception is necessary. For this purpose, so-called universal quatro LNBs have the four outputs at which the respective polarization levels (horizontal or vertical) of the lower and the upper frequency range are fixed or selectable used.

In order for the individual subscribers to control the different outputs of the converter independently of one another or to select the different receive levels, so-called multiswitches, which are also referred to as multiswitches or branch devices, are connected between the converter and the individual subscribers. Each subscriber can then select by switching between one of the above-mentioned four reception levels. The switchover takes place in that the subscriber (receiver) is given a switching voltage, a switching frequency or a serial control code on the multi-switch. A switch matrix formed in the multiswitch connects the respective subscriber in accordance with the pending control signal to the corresponding input of the multiswitch.

In the case of antenna systems in which a plurality of antenna lines are connected to the electronic devices, in particular to the receivers or the multiswitches, the use of the known overvoltage protection devices Relatively expensive and expensive, since between each input of the electronic device and the corresponding antenna line, a surge protection adapter must be interposed.

The present invention is therefore an object of the invention to provide a surge protection device described above, with the simple and cheapest possible way electronic devices, in particular receivers or multi-switches, which have multiple inputs, can be protected against overvoltages.

This object is achieved in that an overvoltage protection device is provided for antenna systems, with a housing having a plurality of arranged in the housing overvoltage protection elements and having a plurality of the number of overvoltage protection elements corresponding inputs and outputs, each arranged an overvoltage protection element between an input and an output is such that an electronic device connected to the outputs is protected against overvoltages. According to the invention, only a single overvoltage protection device is thus required, by which all inputs of the following electronic device and thus the electronic device are protected against overvoltages at the same time. As a result, the assembly costs and costs can be reduced.

According to a first advantageous embodiment of the overvoltage protection device according to the invention, all overvoltage protection elements are connected in a low-impedance manner to a common ground potential connection. Normally it is necessary that with each individual surge protection adapter equipotential bonding is established from the adapter housing to the housing of the device to be protected. For this purpose, a screw is usually provided on the adapter housing. If the electronic device to be protected has several inputs, so that a separate overvoltage protection adapter must be plugged onto each input, it has hitherto been necessary to separately equip the potential equalization for each overvoltage protection adapter. Due to the fact that in the overvoltage protection device according to the invention only one common ground potential connection for all Overvoltage protection elements is provided, a significant reduction of the installation effort is achievable.

The arrangement of the individual overvoltage protection elements within the housing and the realization of the common ground potential can basically be done in various ways. For example, it is possible that the individual overvoltage protection elements are each arranged on a separate circuit board, which are individually inserted in corresponding holders in the housing. Advantageously, however, all overvoltage protection elements are arranged on a common printed circuit board and connected via a common conductor track to the ground potential terminal. As a result, not only the mounting of the circuit board in the housing is particularly simple, but in particular the niederimpendante connection of the individual overvoltage protection elements with the common ground potential very simple and reliable realized.

Depending on the application, the components known per se, such as gas discharge arresters, semiconductor components, in particular varistors and diodes, and high-frequency elements, for example lambda / four-wire arresters, are used for the individual overvoltage protection elements.

The overvoltage protection device according to the invention can be used particularly advantageously in satellite antenna systems in larger residential units which have at least one multi-switch with at least four inputs and four or more outputs. Such, from different manufacturers available, multi-switches have in addition to the four inputs for the four antenna cables to a Quattro LNB or two dual LNBs usually additionally an input for a terrestrial antenna on to protect such a multi-switch provided overvoltage protection device then also has five inputs and five outputs on. It is then advantageously provided that the distances between the individual outputs of the overvoltage protection device are mutually selected so that they correspond to the distances of the individual inputs of the multi-switch, so that the individual outputs of the overvoltage protection device with the individual inputs of the multi-switch via corresponding double connector, in particular so-called F -Doppelstecker, can be connected. That between the individual Outputs of the overvoltage protection device selected so-called Teilungsmaß thus corresponds to the pitch of the inputs of the multi-switch. As a result, the overvoltage protection device can simply be "plugged" together with the multi-switch; the otherwise required wiring effort is therefore eliminated as far as possible.

Fig. 1

ein erstes Ausführungsbeispiel eines erfindungsgemäßen Überspannungsschutzgeräts,

Fig. 2

ein Ausführungsbeispiel eines erfindungsgemäßen Überspannungsschutzgeräts, von unten,

Fig. 3

ein weiteres Ausführungsbeispiel eines Überspannungsschutzgeräts, von unten,

Fig.4

das Überspannungsschutzgerät gemäß den Fig. 1 und 2 mit schematisch dargestellten Überspannungsschutzelementen, und

Fig. 5

ein Anwendungsbeispiel eines erfindungsgemäßen Überspannungsschutzgeräts in einer Satellitenempfangsanlage.

In particular, there are a variety of ways to design and develop the overvoltage protection device according to the invention. Reference is made on the one hand to the claims subordinate to claim 1, on the other hand to the following description of preferred embodiments in conjunction with the drawings. In the drawing show

Fig. 1

A first embodiment of an overvoltage protection device according to the invention,

Fig. 2

An embodiment of an overvoltage protection device according to the invention, from below,

Fig. 3

Another embodiment of an overvoltage protection device, from below,

Figure 4

the overvoltage protection device according to FIGS. 1 and 2 with schematically represented overvoltage protection elements, and

Fig. 5

an application example of an inventive overvoltage protection device in a satellite receiving system.

The figures show an overvoltage protection device 1 for antenna systems, with a housing 2, with a plurality, namely a total of five arranged in the housing 2 overvoltage protection elements 3, and five inputs 4 and five outputs 5. The overvoltage protection device 1 serves to protect one of the outputs. 5 connected electronic device 6, which is in the application example shown in Fig. 5 is a multi-switch to the inputs 4 of the surge protective device 1, a satellite antenna 7 and a terrestrial antenna 8 - as shown in FIG. 5 - are connected via corresponding antenna cables 9. In the illustrated embodiment, four inputs 4 of the overvoltage protection device 1 are connected to a quattro LNB 10 arranged in the focal point of the satellite antenna 7, the terrestrial antenna 8 is connected to the fifth input 4 via a separate antenna line 9. In principle, there is also the possibility that one or more of the inputs 4 of the overvoltage protection device 1, a broadband cable is connected.

In particular from FIG. 4 it can be seen that all overvoltage protection elements 3 are connected in a low-impedance manner to a common ground potential connection 11. In the preferred embodiment of the overvoltage protection device 1, as shown in FIGS. 2 and 4, all overvoltage protection elements 3 are arranged on a common printed circuit board 12 and connected via a common interconnect 13 to the ground potential terminal 11. In addition, there is also the possibility (FIG. 3) to arrange the individual overvoltage protection elements 3 on individual printed circuit boards 14 which are plugged into corresponding receptacles 15 in the housing 2.

FIG. 4 schematically shows a possible embodiment of the individual overvoltage protection elements 3. The individual overvoltage protection elements 3 have a gas-filled surge arrester 16 and a suppressor diode 17. The overvoltage protection elements 3 thus have both a coarse protection and a fine protection. In principle, however, it is also possible to use other or additional overvoltage-limiting components, for example varistors. The components also provide a good impedance matching, so that even at very high frequencies, a large transmission power is guaranteed.

In all embodiments, the inputs 4 and the outputs 5 of the overvoltage protection device 1 are designed as plug or socket connections, so that a particularly simple and fast connection of the antenna cables 9 to the inputs 4 is possible. In principle, the outputs 5 of the overvoltage protection device 1 via individual - not shown here - antenna cables are connected to the individual inputs 18 of the multi-switch 6 shown in FIG. As can be seen from FIG. 5, takes place However, the connection of the individual outputs 5 of the overvoltage protection device 1 with the individual inputs 18 of the multi-switch 6 simply via so-called F-double plug 19, each having a plug at their ends, the easy on an output 5 of the overvoltage protection device 1 and an input 18 of the multi-switch 6 can be plugged or screwed. This simple connection of the overvoltage protection device 1 with the multiswitch 6 to be protected is achieved in that the distances of the individual outputs 5 are mutually selected so that they correspond to the distances of the individual inputs 18 of the multi-switch 6. The pitch of the outputs 5 of the overvoltage protection device 1 thus corresponds to the pitch of the inputs 18 of the multi-switch 6th

The Fig. 5 is also apparent that the overvoltage protection device 1 has a substantially rectangular base, the inputs 4 and the outputs 5 are respectively disposed on the two opposite longitudinal sides 20, while at the end faces 21 each have a mounting unit 22 is attached With the help of the mounting units 22, which can be easily snapped or screwed onto the end faces 21 of the housing 2, the overvoltage protection device 1 can be particularly easily attached to a wall or in a control cabinet.

The housing 2 of the overvoltage protection device consists of either metal or plastic, wherein a plastic housing usually has a vapor-deposited metal layer. Fig. 5 is also removed that the overvoltage protection device 1 of its dimensions corresponds to the multi-switch 6, so that the surge protection device 1 fits optimally into the most modular structure of antenna systems. To the outputs 23 of the multi-switch 6 can either directly the individual participants, d. H. individual receivers, or other multiswitches are connected.

Claims (10)

Overvoltage protection device for antenna systems, comprising a housing (2), having a plurality of overvoltage protection elements (3) arranged in the housing (2) and having a plurality of inputs (4) and outputs (5) corresponding to the number of overvoltage protection elements (3), one overvoltage protection element each (3) is arranged between an input (4) and an output (5), so that an electronic device (6) connected to the outputs (5) is protected against overvoltages. Overvoltage protection device according to Claim 1, characterized in that all the overvoltage protection elements (3) are connected in a low-impedance manner to a common ground potential connection (11). Overvoltage protection device according to Claim 2, characterized in that all overvoltage protection elements (3) are arranged on a common printed circuit board (12) and connected to the ground potential connection (11) via a common conductor track (13). Overvoltage protection device according to one of Claims 1 to 3, characterized in that the overvoltage protection elements (3) each have a gas-filled surge arrester (16) and a suppressor diode (17) or a varistor. Overvoltage protection device according to one of Claims 1 to 4, characterized in that the overvoltage protection elements (3) each have a decoupling impedance, in particular a lambda / 4 arrester. Overvoltage protection device according to one of claims 1 to 5, characterized in that the inputs (4) and / or the outputs (5) are designed as plug or socket connections, in particular as F-plug or F-socket. Overvoltage protection device according to one of claims 1 to 6, characterized in that at least four inputs (4) and at least four outputs (5) are provided. Overvoltage protection device according to one of Claims 1 to 7, characterized in that the distances of the individual outputs (5) from each other are selected such that they correspond to the distances between the individual inputs (18) of an electronic device (8) connected to the outputs (5) in that the individual outputs (5) of the overvoltage protection device (1) can be connected to the individual inputs (18) of the electronic device (6) via double plugs, in particular F double plugs (19). Overvoltage protection device according to one of Claims 1 to 8, characterized in that the housing (2) consists of metal or of plastic with an outer metal layer. Overvoltage protection device according to one of Claims 1 to 9, characterized in that the housing (2) has a substantially rectangular base area, wherein the inputs (4) and the outlets (5) are respectively arranged on the longitudinal sides (20) and to which Both end faces (21) each have a mounting unit (22) can be fastened.

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