DE904298C - Pulse-operated transceiver - Google Patents

Description

Pulse-operated transceiver The invention relates to based on pulsed transceiver devices with a common antenna for Transmission and reception, as for example for the rear-beam localization according to the pulse transit time method Find use. With devices of this type there is a need to switch off of disruptive external influences that come about in the wireless transmission path, the line and the phase position of the transmission pulses; the latter in particular for calibration the distance display to be able to check in the receiver.

According to the invention, a kind of short-circuit operation is used for this purpose .of the device enables the branching point of the transmitter, antenna and receiver Coming lines a changeover switch is attached, which is in one position, namely in the normal operating position, which connects three lines and in the other position, i.e. in the control position, the transmitter line to one of the The absorber replacing the antenna and an attenuation line leading to the receiver are connected. Through the; The antenna is replaced by an absorber during the control measurement disruptive influences from outside are kept back, while the calibrated damping line the transmission pulses are reduced to a level that is tolerable for the recipient.

An expedient embodiment of the invention is shown in Fig. Z a shown. The switch at the junction of the three lines is as Rotary switch executed. Its rotor i forms, as Fig. I b shows, a T-piece of a coaxial one Management, in which, of course, in the known manner, attention was paid to preserving the adaptation must become. The longitudinal bar of the: T-piece is connected to the transmitter line 2, while the crossbar is in a position on the one hand with the antenna 3 and on the other hand with the receiver line q. communicates. Is in the other switch position the crossbar on the one hand with the absorber 5 and on the other hand with a damping line 6 connected. The absorber can be constructed from resistance material in a known manner be coaxial line. For the damping line 6, too, there are different Possible designs, but it is most practical to use an Hdhlrohrleitung to use whose diameter is below the limit diameter, for the: transferred Wave lies: -, The contacts of the inner and outer conductors can be galvanic. For the inner conductor of the damping line is also sufficient a capacitive coupling, such as which is indicated by the inner conductor section 7 generating the tubular shaft. @The length of half the crossbeam in the T-piece must then be chosen so small that that the skin adaptation caused by this: idling line piece becomes, very small, about below to ° / u. In the case of galvanic coupling, the Length of the line section between the branch point and the one that loads the line Excitation plate for the hollow tube shafts are chosen so that in the branch point a tension bulge arises, so the hollow pipe line section has one at this point very pick has input resistance.

As shown, the rotary switch is expediently designed so that that in the control position the line leading to the receiver in direct Is short-circuited near the branch point, so d'ass with a length dimension of 2 / q. of the receiver line, the receiver input (mixing head) remains unaffected.

In the arrangement according to Alb., In general, an older proposal for blocking the receiver during the impulse transmission of the sender is used, which consists in the fact that in a branch line 8 branched off from the receiver line there is a gas discharge line 9 which is directly from the transmitter oscillations is ignited and their position in the line is chosen so that the tube after ignition causes a very high input resistance in the receiver line 4 and thus practically switches off the receiver during the transmission time, i.e. protects it from damage. To compensate for the reactance caused by the stub line 8 and the gas charge tube 9 in the non-ignited state of this tube at the connection point of the line 8 to the receiver line: f, which would disturb the adaptation conditions, a blind stub line to is also provided, in which a displaceable capacitive short circuit ii is appropriate. When applying the present invention, there is now a particularly expedient, moderate spatial structure if one. the attenuation line 6, as shown, couples directly into the blind stub line to. The transmission pulses coming via the attenuation line are here still considerably weakened by the capacitive short circuit, while the attenuation line does not impair the effectiveness of the short circuit in normal operation.

The arrangement according to Fig. 1a can be based on a more recent proposal, the is particularly important for broadband operation, is still being trained in this regard be, that the two stub lines 8 and to are connected to the Tbpfschwingkreis of the mixing tube (Diode of the receiver). The coupling then also takes place here the attenuation line back to the compensating blind stitch line. This case is shown in two mutually perpendicular sections in .den Fig. 2 a and 2 b, in which the same parts are provided with the same reference numerals as in Fig. i. Of the Pot resonant circuit consists of the inner conductor 12 and the outer conductor 13. The inner conductor is capacitively connected to the anode of the mixing diode 15 via an insulating coating 14, while the outer conductor is galvanically connected to its cathode. The vote The pot circle takes place with the help of a short-circuit shifter 16. The oscillator voltage is capacitive via the line 17 through the bore of the ring-shaped Gas discharge tube, the electrodes of which run through the inner and outer conductors of the stub line 8 are formed, coupled to the inner conductor of the stub line, which in turn is connected to the inner conductor 12 of the pot circle. The intermediate frequency is introduced from the through a hole in, the inner conductor i2 of the pot circle and through the hollow inner conductor: the B.lindstichleitung to continued Anode lead removed. This embodiment has the advantage of being extraordinarily compact structure and a pronounced broadband character.

Claims (3)

PATENT CLAIMS: i. Pulse-operated transceiver device with a common antenna for transmission and reception, characterized in that a switch is attached at the junction point of the lines coming from the transmitter, antenna and receiver, which connects the three lines in one position and in the other position the transmitter line connects to an absorber replacing the antenna and an attenuation line leading to the receiver. 2. Apparatus according to claim i, characterized in that the attenuation line is designed as a hollow pipe. 3. Apparatus according to claim r and: 2, characterized in that at Applying an over a stub line connected to the receiver line Gas discharge tube to block the receiver after ignition by the SenC vibrations the coupling of the attenuation line to a further stub line is carried out, which is used for Compensation of the reactance of the first stub line in the non-ignited state the gas discharge tube is used. q .. Device according to claim 3, characterized in that that the two stub lines are connected to the oscillating circuit of the mixing tube ('diode) of the receiver are connected.