DE102013002227B4 - Arrangement for signal transmission and installation with this arrangement - Google Patents

Abstract

Arrangement for signal transmission,
characterized in that
the signals generated by a transmitter are fed to a first attenuator (2) which feeds a first antenna which projects at least partially into a slot waveguide (1), that is, into the cavity of the slot waveguide (1),
wherein from a further, in the cavity of the slot waveguide (1) at least partially protruding antenna signals are fed to another attenuator (4) which feeds a receiver,
wherein the further antenna is spaced from the first antenna in slot waveguide direction and / or arranged separately,
wherein the first and the further attenuator (2, 4) are of similar construction,
wherein the first attenuator (2) is selectively connectable to the transmitter or to another receiver,
the second attenuator (4) is selectively connectable to the receiver or to another transmitter.

Description

The invention relates to an arrangement for signal transmission and a system with this arrangement.

It is well known that signals in the form of electromagnetic waves along a cavity of a waveguide, in particular slot waveguide, are transferable.

From the DE 40 03 955 C1 For example, a slot waveguide directional coupler is known.

From the DE 11 02 222 A is known an antenna system for radio and television reception.

From the DE 10 2004 008 571 A1 is a mounting rail profile with integrated slot waveguide for data transmission known.

From the US 2007/0 230 432 A1 is a portable internet terminal known.

The invention is therefore the object of developing a system, the signal transmission should be done safely.

According to the invention the object is achieved in the arrangement according to the features specified in claim 1 and in the system according to the features indicated in claim 10.

Important features of the invention in the arrangement, in particular system, for signal transmission are that the signals generated by a transmitter are fed to a first attenuator which feeds a first antenna, which at least partially protrudes into a slot waveguide, in particular into the cavity of the slot waveguide,
wherein from a further, in the slot waveguide, in particular in the cavity of the slot waveguide, at least partially protruding antenna signals are fed to another attenuator, which feeds a receiver,
in particular wherein the further antenna is arranged at a distance from the first antenna in slot waveguide direction, in particular rail direction, and in particular is arranged separately.

The advantage here is that no override of the receiver occurs. In addition, by the transmitter downstream of the attenuator signal generated by the transmitter so strongly attenuated that arranged outside the slot waveguide receiver, which are connected to an antenna without the interposition of an attenuator, yet reaches no disturbing signal strength. Because the signals sent by the transmitter and attenuated by the attenuator signals are very weak, in addition, the slot of the slot waveguide also produces an attenuation.

Another advantage is that the signal transmission path can be used bidirectionally with the same advantages. Thus, the attenuation is unchanged even in the reverse direction signal transmission.

According to the first and the further attenuator are of similar construction. The advantage here is that for the production of only a single type of attenuators is necessary.

In an advantageous embodiment, the first and / or the further attenuator are designed as electrical attenuator,
wherein the first or the further attenuator is arranged on a rail-guided vehicle of the arrangement along a rail,
wherein the slot waveguide is laid along the rail, in particular parallel to the rail,
is fastened in particular to the rail or is made in one piece, ie in one piece, with the rail, in particular as a continuous casting. The advantage here is that the signal transmission is made possible by a stationarily arranged transmitter to a receiver arranged on the vehicle or from a transmitter arranged on the vehicle to a stationarily arranged receiver. Alternatively, the transmission between two rail vehicles executable, and here the disturbance of other receivers is negligible.

For example, the rail vehicle can be executed as monorail monorail vehicle.

In an advantageous embodiment, the attenuator has an electrical quadrupole,
wherein the electrical quadrupole has a π or T circuit of impedances,
in particular wherein the respective impedance consists of a parallel connection of an inductance and a capacitance with an ohmic resistance,
in particular, wherein the quadripole on the input side and output impedance matched, so wave adapted, is adapted to the respectively connected coaxial cable, in particular to 50 ohms. The advantage here is that a cost-effective production of the quadrupole is possible.

In an advantageous embodiment, the emerging from the slot waveguide radiation due to the attenuator is so low that the sensitivity threshold of further arranged in the system receiver is not exceeded. The advantage here is that no interference with other recipients is possible. Also, the radiated by Störstrahlern in the slot waveguide radiation is not disturbing, since this radiation is attenuated by the further attenuator.

In an advantageous embodiment, the transmitter is connected via a coaxial cable to the first attenuator and the first attenuator to the first antenna via another coaxial cable,
wherein the further antenna is connected via a coaxial cable to the second attenuator, which in turn is connected via a coaxial cable to the receiver. The advantage here is that simple connection means are used.

According to the invention, the first attenuator is optionally connectable to the transmitter or to another receiver,
wherein the second attenuator is selectively connectable to the receiver or another transmitter,
in particular wherein a selection switch, in particular a controllable electronic switch, is used in each case for selection. The advantage here is that the signal transmission is bidirectional executable. This means that instead of the transmitter, a receiver is connected to the corresponding coaxial cable to the corresponding first attenuator and instead of the receiver at the other end of the signal transmission channel a transmitter is connected via the corresponding coaxial cable with the further attenuator.

In an advantageous embodiment, the slot waveguide has a slot which extends parallel to the rail. The advantage here is that a signal transmission to the rail vehicle is possible. For example, the rail vehicle can be executed as monorail monorail vehicle.

Further advantages emerge from the subclaims. The invention is not limited to the combination of features of the claims. For the skilled person, further meaningful combination possibilities of claims and / or individual claim features and / or features of the description and / or figures, in particular from the task and / or posing by comparison with the prior art task arise.

The invention will now be explained in more detail with reference to figures.

In the 1 an arrangement according to the invention is schematically sketched.

There is a vehicle 6 along a slot waveguide elongated in a system 1 movable.

For this purpose, the vehicle is preferably a vehicle that can be moved on a rail 6 wherein the slot waveguide 1 is laid parallel to the rail, in particular attached to the rail.

For signal transmission, a frequency between 1 GHz and 10 GHz is used.

The vehicle 6 has a connectable to a transmitter and / or receiver communication interface to which the output signal of an attenuator 4 by means of a coaxial cable 5 is approachable or the signal generated by the transmitter via the coaxial cable 5 to the attenuator 4 is approachable.

The attenuator is, in particular on its other side, connected to an antenna which in the slot waveguide 1 at least partially protruding. Thus, signals can be switched on or off.

The carriage 6 is along with the antenna attached to it along the slot of the slot waveguide 1 movable.

Likewise, a further antenna is stationary arranged on the slot waveguide, which by means of a coaxial conductor, a signal from another attenuator 2 can be fed or received from the antenna signal to this further attenuator 2 is approachable.

This further attenuator 2 On the other side, especially the input side, a signal is transmitted by means of a coaxial cable 3 supplied from a transmitter or from this further attenuator 2 discharged to a receiver.

Thus, there is signal transmission from the stationarily located transmitter via the attenuator 2 and the slot waveguide 1 to the vehicle 6 allows the received signal from the antenna by the attenuator 4 is routed before it reaches the recipient.

Conversely, a signal transmission from the transmitter of the vehicle via the attenuator 4 and the slot waveguide 1 at the stationarily arranged receiver, wherein the signal received from the stationarily arranged antenna is transmitted through the attenuator 4 is routed before it reaches the recipient.

Through the slot of the slot waveguide 1 also occur radiation components 7 from and reach other receivers arranged in the system, although due to the attenuators ( 2 . 4 ) The occurring signal strengths are so small that no interference occurs. Correspondingly, radiation components of further transmitters arranged in the system also enter the slot of the slot waveguide 1 where, because of the attenuators ( 2 . 4 ) This incoming interference is so strongly attenuated that it does not reach a significant level. Damping to -90 dBm or less is advantageous

The attenuators ( 2 . 4 ) also prevent oversteer of the respective receiver when, for example, the antenna of the vehicle is very close to the stationary antenna.

The attenuator ( 2 . 4 ) is in each case designed as an electrical attenuator, wherein it is designed as an electric quadrupole, which has a π- or T-circuit of impedances, in particular ohmic resistors with optionally parallel-connected capacitor and / or parallel-connected inductance, and both sides, ie input side and on the output side, to the wave impedance of the coaxial conductor ( 3 . 5 ) is adjusted. This is preferably 50 ohms.

In a further embodiment of the invention is a communication between two similar vehicles 6 Running, each of the vehicles 6 an attenuator 4 having. Again, the exiting radiation is damped to a small degree, the incoming interference radiation also damped and prevents oversteer.

LIST OF REFERENCE NUMBERS

1

Slot waveguide

2

Attenuator, electric

3

coaxial

4

Attenuator, electric

5

coaxial

6

vehicle

7

emerging radiation components or incoming radiation components

Claims (11)

Arrangement for signal transmission, characterized in that the signals generated by a transmitter are a first attenuator ( 2 ), which feeds a first antenna, which at least partially into a slot waveguide ( 1 ), ie in the cavity of the slot waveguide ( 1 ), wherein from another, into the cavity of the slot waveguide ( 1 ) at least partially projecting antenna signals to another attenuator ( 4 ) feeding a receiver, the further antenna being spaced and / or separated from the first antenna in the slot waveguide direction, the first and the further attenuators ( 2 . 4 ) are constructed identically, wherein the first attenuator ( 2 ) is selectively connectable to the transmitter or another receiver, the second attenuator ( 4 ) is optionally connectable to the receiver or another transmitter. Arrangement according to claim 1, characterized in that for selection in each case a controllable electronic switch is used. Arrangement according to claim 1 or 2, characterized in that the first and / or the further attenuator ( 2 . 4 ) as an electrical attenuator ( 2 . 4 ) are executed, wherein the first or the further attenuator ( 2 . 4 ) on a rail-guided vehicle ( 6 ) of the arrangement, wherein the slot waveguide ( 1 ) laid along the rail is parallel to the rail, Arrangement according to claim 3, characterized in that the slot waveguide ( 1 ) Is attached to the rail or one-story, so one piece, with the rail is designed as a continuous casting. Arrangement according to one of claims 3 or 4, characterized in that the slot waveguide ( 1 ) has a slot extending parallel to the rail. Arrangement according to one of the preceding claims, characterized in that the attenuator ( 2 . 4 ) has an electrical quadrupole, wherein the electrical quadrupole has a π- or T-circuit of impedances, wherein the respective impedance consists of a parallel connection of an inductor and a capacitor in combination with ohmic resistors, wherein the quadripole impedance-adjusted on the input side and output, and wave-matched , is connected to the respectively connected coaxial cable ( 3 . 5 ). Arrangement according to claim 6, characterized in that the quadrupole is adapted to 50 ohms. Arrangement according to one of the preceding claims, characterized in that from the slot waveguide ( 1 ) emerging radiation due to the attenuator ( 2 respectively. 4 ) is so small that the sensitivity threshold of further receivers arranged in the arrangement is not exceeded. Arrangement according to one of the preceding claims, characterized in that the transmitter via a coaxial cable ( 3 ) with the first Attenuator ( 2 ) and the first attenuator ( 2 ) with the first antenna via another coaxial cable, the further antenna being connected via a coaxial cable to the second attenuator ( 4 ), in turn via a coaxial cable ( 5 ) is connected to the receiver. Plant with an arrangement according to one of the preceding claims. Installation according to claim 10, characterized in that the system is designed as a monorail conveyor.

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