DE756735C - Reflector antenna - Google Patents

Description

The invention relates to reflector antennas for the reception of short waves, which are suitable both for the reception of television transmissions, preferably on the j-vsx band, and at the same time for the reception of the usual radio waves.

There are antenna arrangements known which for the to be received Ultra-short waves, e.g. B. TV shows,

ίο a matched dipole and at the same time represent an unmatched antenna structure for the long waves to be received. It is also known to use a shortwave antenna, for example a dipole, in such a way to set up near an antenna structure for long waves that this antenna structure serves as a mirror for the short waves emitted by the shortwave antenna, creating a directivity for can achieve this. The invention relates to a particularly advantageous combination The following features, known per se, are used according to the invention for a reflector antenna for simultaneous reception different frequency ranges 1. two or more essentially parallel to one another arranged conductors or groups of conductors are provided, one of which is a conductor or the a group of leaders for the one to be received

Frequency a tuned - antenna represents and the other conductor or the other

Conductor group also has a length of about - and for these reception frequencies

acts as a reflector, and a common shielded antenna lead is provided for both conductors or conductor groups and their inner conductors are directly connected to the first-mentioned conductor group, while it acts as a reflector with the second-mentioned conductor group 2 via a preferably between two for decoupling Serving switching elements R ₁ and R ₂ arranged transformer 7 is connected such that the waves of greater wavelength picked up by the reflector are derived via the antenna derivation cable 9, such that the reflector 2 serves as an antenna for the longer waves.

The combination according to the invention makes it possible to use the reflector antenna both directional shortwave reception and non-directional reception at the same time Receive long waves. As a result of the direct connection of the common Antenna dissipation with the directional shortwave antenna and by the simultaneous transformer coupling of the reflector to this inner conductor is prevented, that the shortwave reflector serving as a receiving antenna for longer waves interferes with the shortwave reception. There both the antenna and the reflector are shielded via a single single core Antenna lead are connected to the receivers, the antenna lead in an extremely simple manner as a concentric antenna cable, which has about half the diameter than the shielded two-wire antenna required in known antenna arrangements derivation.

According to a further development of the invention, the rod-shaped antenna conductor is insulated arranged in a metallic support structure, while the reflector or as Reflector acting group of conductors is metallically connected to the supporting structure. The supporting structure is on one with the reflector

Voltage node, in the case of a - radiator, that is

in the middle of the rod, connected. The supporting structure is insulated and attached to the antenna mast, this connector is expediently designed with as little capacity as possible is. The dissipation of the wave energy absorbed by the reflector takes place via the supporting structure, and this supporting structure is with connected to the end of the input winding of the antenna transformer facing the reflector. Due to the special type of connection the reflector rod with the support frame or the antenna transmitter is achieved, that for the fundamental wave of the reflector rod oscillates freely (coupling at the voltage node), while this reflector rod for other wave ranges, preferably the radio wave range as an excellent receiving antenna works. The supporting structure must be dimensioned in such a way that the individual u Parts are not excited to oscillate by the fundamental wave. This is for example achieved by placing the cross arm up

each side a length of about - and the

-8th

vertical arm a length of z. B. -

4 receives.

It is particularly advantageous to combine the antenna arrangements described above to be used with special receiver-side termination devices of the antenna lead, in which by a crossover and a transmitter for simultaneous reception of radio and television broadcasts is made possible.

In the following, the invention is illustrated by means of exemplary embodiments Illustrations explained.

Fig. Ι and 2 represent reflector antennas;

Fig. 3 shows the connection of the receivers.

Fig. Ι shows schematically an embodiment of the antenna arrangement according to the invention. The %

agreed - radiator 1 serves as a receiving antenna for television reception while

at a distance of - parallel to this

arranged - emitter 2 as reflector for 2

the fundamental wave (television carrier wave) acts. The two rod-shaped antenna conductors 1 and 2 are held by a transverse arm 3 made of insulating material. This transverse arm 3 is arranged on an antenna mast 4 which carries a protective housing 5 at a suitable location, preferably in the vicinity of the lower ends of the antenna conductors. This housing contains the antenna transmitter 7, which is connected on the one hand _{to the reflector 2 via the resistor ^ 1} and on the other hand to the inner conductor 8 of the shielded antenna derivation cable 9 via the decoupling resistor R _2. The inner conductor 8 is also coupled to the antenna conductor 1 via a preferably shielded conductor section 10. The resistance R ₁ must be small compared to the output resistance of the antenna transmitter 7 on the ^{reflector side for the radio frequency range, but large compared to the reception resistance R a of} the reflector 2

for its fundamental wave 2 in the coupling point ii. The other end of the input winding of the antenna transformer is advantageously connected to the shielded housing and / or the cable jacket. The output winding of the antenna transformer is connected with one end to the housing and / or the cable jacket, while its other end via a resistor R ₂ with the

ίο Inner conductor of the concentric lead is connected. This resistance R ₂ must be small compared to the capacitive resistance of the entire cable line 9 to the receiver for all radio frequencies, but large compared to the wave resistance of the cable. R ₁ must be small compared to the input resistance of the device for radio frequencies on the reflector side, so that the radio waves captured by the reflector are fed to the antenna transmitter 7 without any significant weakening. This also makes it possible to use commercially available transmitters for the radio _{wave range, because with a relatively large value of R 1} , the frequency-permeable range of the transmitter would shift. On the other hand, the resistance .R ₁ for the television short waves must be large compared to the resistance of the reflector for its fundamental wave at the coupling point of the antenna conductor, because otherwise the antenna transmitter and the cables connected to it would attenuate the reflector 2 too much, and it would not if excited by television short waves swing more freely. This resistor therefore serves as a decoupling resistor for the television frequency range.

For the radio frequency range, R ₂ must be small compared to the capacitive resistance of the entire cable line to the receiver, because otherwise a considerable part of the energy absorbed would be destroyed in this resistance. On the other hand, R ₂ must be large compared to the characteristic impedance of the downward cable so that the television receiving antenna is not attenuated too much by the transformer and the inevitable switching capacity of this antenna arrangement for television reception. The point for the coupling of the antenna lead to the antenna is chosen such that the mismatching of the characteristic impedance of the antenna lead to the reception resistance of the antenna is greater than 1: 3, preferably approximately equal to -i: 4. With a diameter of the antenna conductor of 24 mm and a length of 2920 mm (for receiving the Berlin television broadcast) and a 'wave impedance of the derivation of 130 ohms, this results in a favorable value with regard to the bandwidth of the receiving frequency range if the coupling is around 770 mm is carried out away from one end of the antenna conductor.

Fig. 2 shows another embodiment of the antenna arrangement according to the invention. Mutually. Corresponding parts are identified in Figs. 1 and 2 identically. This arrangement differs from the one previously described in that the reflector rod 2 is connected to the conductive transverse arm 11 in a metallic manner in its center, that is to say in its voltage node when it is excited by the fundamental wave. This transverse arm 11, like the upper part 12 of the antenna mast, is designed as a conductor or is provided with a conductive coating or some other suitable conductive connection. The part 12 of the antenna mast is conductively connected at its lower end to the input winding of the antenna transformer 7. It is therefore the in the broadcast wave range by the reflector on-! The energy taken is transmitted via the conductive connecting parts 11 and 12 and the antenna transformer 7 to the inner conductor 8 of the antenna down conductor cable. On the other hand, the free oscillation of the reflector in its fundamental wave λ, and therefore the reflector effect, is not disturbed. The parts 11 and 12 are dimensioned so that the occurrence of disturbing natural vibrations is prevented with certainty for the frequency range in question. The antenna conductor ι is connected to the inner conductor of the antenna derivation cable, just as in the exemplary embodiment according to FIG. 1. A suitably shaped insulating piece 13 insulates the antenna conductor 1 from the conductive transverse arm II.

The frequency mix received by the antenna arrangement described above is supplied to the receiver or receivers via the tuned antenna lead 9.

The end of the shielded antenna lead on the receiver side is expediently so connected to a crossover network that both television and radio receivers are connected can without these apparatuses interfering with one another.

The crossover according to Fig. 3 is advantageously designed in such a way that the center conductor 8 of the shielded antenna discharge cable 9 is connected to the television receiver 14 via a capacitor C and is connected to a winding of a transformer 15, the other winding, via the decoupling resistor R ₃ with the radio receiver 16 is in communication. The capacitance C and the resistance R ₈ must

be dimensioned so that for the television frequency range to be received - - - a lot

co C

is smaller than the resistance R _s , while on the other hand the resistance R ₃ for the radio frequency range to be received should have a value that is smaller than the antenna-side input resistance of the transmitter connected to the radio receiver, in order to avoid excessive attenuation of the incoming radio energy.

Claims (6)

Patent claims: ι. Reflector antenna, suitable for simultaneous Reception of different frequency ranges, characterized by the union following characteristics: 1. That two or more are essentially parallel mutually arranged conductors or groups of conductors are provided, one of which is a conductor (1) or a group of conductors for the one frequency to be received one tuned - antenna, and that 2 the other conductor (2) or the other group of conductors also has a length of about - and for this reception frequencies acts as a reflector, 2. that a common shielded antenna lead (9) is available for both conductors or conductor groups, the inner conductor (8) of which is directly connected to the first-mentioned conductor group (1), while it is connected to the second-mentioned conductor group, which acts as a reflector group (2) via a preferably between two decoupling switching elements (R ₁ or R ₂ ) arranged transformer (7) is connected in such a way that the waves of greater wavelength picked up by the reflector are diverted via the antenna derivation cable (9). 2. Antenna arrangement according to claim 1, characterized in that a switching element serving for decoupling is arranged between the antenna transmitter and reflector, the resistance R _{1 of which is} small. is compared to the input resistance (seen from the reflector) of the antenna transmitter for the frequency range to be received by the reflector, preferably the radio wave range, and that R _{1 is} large compared to the reception resistance R "of the reflector for its fundamental wave at the coupling point of the antenna lead to the reflector. 3. Antenna arrangement according to claims ι and 2, characterized in that a resistor R _{2 is} arranged between the antenna transmitter and the inner conductor of the shielded antenna line, the value of which for the frequency range to be received by the reflector, preferably for broadcast waves, is small compared to the capacitive resistance the cable line to the receiver and that this resistance R _{2 is} large compared to the characteristic impedance of the shielded antenna lead. 4. Arrangement according to claims 1 to 3, characterized in that the The location for the coupling of the antenna lead to the antenna conductor was chosen in this way is that the characteristic impedance of the cable is due to the resulting mismatch the antenna attenuates just enough that the antenna causes the modulation of the fundamental wave Frequency range passes without significant attenuation of the sidebands. 5. Arrangement according to claims 1 to 4, characterized in that the The antenna arrangement is used in conjunction with a terminating element of the antenna conductor on the receiver side, which is a crossover to separate the fundamental wave from the rest of the frequency range picked up by the reflector as well as a transformer for adapting the input resistance of a connected receiving device to the resistance of the antenna lead. 6. Antenna arrangement according to claims ι to 5, characterized in that the crossover consists of a resistance capacitance combination, via the capacitor (C) of the receiver for the fundamental wave is connected to the inner conductor of the antenna lead and its resistance (R ₃ ) of a size , which is small compared to the antenna-side input resistance of the transformer, the transformer is via a resistor (R ₉ ) on the inner conductor of the antenna lead. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: Austrian Patent No. 106925; British Patent Nos. 466 020, 474 664. 1 sheet of drawings © 1123 8.51