DE543989C - Transmit and receive circuit for high-frequency signal transmission - Google Patents

Description

It has already been proposed to automatically adjust the gain of a receiver to regulate depending on the strength of the received signals in such a way that parallel to one of the tuned receiving circuits a normally ineffective shunt is made, which is influenced by the strength of the signals received so that with increasing signal strength it increases the degree of amplification of the receiving system more and more downsized.

Another device has also been proposed wherein one of the above A similar shunt is used to free the receiver from the interference caused by the transmitter of its own call station and therefore not on the strength of the received signals, but on the Transmitter channel of the relevant intercom

ao is dependent on the energy flowing through it.

Furthermore, it is already known to make the arrangement in a transceiver system in such a way that that the transmission channel and the receiving channel remain locked for the transmitter that is not being discussed Ready to receive, but the transmission channel and reception channel are unlocked at the transmitter being discussed is locked.

The present invention now relates to a further development of this known Facilities and consists in the fact that one in a possibly coordinated receiving circuit located variable parallel resistance, z. B. a grid tube (or several in different receiving circuits located such resistors), is influenced by a voltage source, which both on the strength of the received remote signal vibrations as well as on the functioning of the associated transmitter is changeably appealing. That way you can by one and the same device the functioning of the receiver both on the strength of the received signals as well can be made dependent on the functioning of the transmitter of the own intercom.

The invention is shown schematically in the drawing in a circuit diagram.

ι is the antenna or, in the case of non-wireless signal transmission, the dienemie antenna Long-distance line, 2 generally the receiving circuit, 3 generally the transmitting circuit, 4 the line leading to the official's station leads. The output 5 of the transmitter is with the antenna 1 and with the input of the receiving circuit 2 connected by the ordinary coupling transformer 6. In the same way, the output circuit 7 is the receiving circuit 2 with circuit 4 and input circuit 8 of the transmitter through the coupling

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lung transformer 9 connected, ίο is that usual balancing network for these transformers.

In the receiving circuit, 11 is an audio tube, the input circuit of which is the grid 12, the capacitor 13, the secondary winding of the input transformer 14, lines 15 and 16, Resistor 17, line 18 and cathode 19 contains. The output circuit of the tube contains anode 20, primary winding of 21, battery 22, lines 23 and 16, resistor 17, line 18, cathode 19. To the secondary winding of 14 a variable capacitor is connected. The anode 26 of the tube 25 is connected to one side of the receiving circuit, while the grid with the resistor 17 through line 28, part of the battery 29 and line 18 is connected. the Cathode 30 of 25 is connected to the other side of resistor 17 by lines 15 and 15 16 connected, and this point at resistor 17 is expediently connected to earth Lines 16 and 31 connected. A battery 29 is connected to the cathode 19 or grid 12 and serves to supply the negative bias voltages for the grids 12 and 27 of FIG 11 and 25. The primary winding of the transformer 14 is with the coupling transformer 6 connected by lines 32 that contain a circle in which no vote is available.

The transmission circuit is only described to the extent necessary to understand the invention is. 40 is the high frequency oscillator controlled by the tube 35. That Rectangle 33 shows the usual equipment connected to the low frequency channel of the transmission circuit heard and with the coupling transformer 9 through the input circuit 8 and with the grid 34 of the tube 35 is connected by the line 36. The anode 37 of 35 is through Line 38 connected to cathode 39 of transmitter tube 40. Anode 41 and grid 42 of 40 are connected by lines 43 to the usual oscillation circuits and amplifiers, represented by rectangle 44, the output of this apparatus is connected to the transformer 6 through the input circuit 5. The anode 41 is fed from the battery 53 through a choke coil 54. The cathode 45 of 35 is connected by a line 46 to corresponding lines in the low frequency channel and similarly through line 47 and inductor 48 with a point 49 on the resistor 17. 56 and 57 are the AC heating source and transformers, respectively. Of the Capacitor 50 isolates anode 37 from cathode 45 for direct current. 51 is a Shunt capacitor for the alternating currents flowing in line 47, while the choke coil 48 prevents these currents from entering the receiving circuit. the Capacitors 52 serve as a bypass path for the alternating currents in lines 16 and 18. The mode of operation is as follows: With normal reception, flows in the output circuit the tube 11 a current through: anode 20, space between anode 20 and cathode 19 of 11, line 18, resistor 17, lines 16 and 23, battery 22, primary winding 21 back to the anode 20. Therefore, a voltage arises across the resistor 17 from that in the Polarity indicated in the drawing. The sum of this tension and that part of the Battery, which lies between lines 28 and 18, is sufficient to support the grid 27 of tube 25 to issue a negative bias voltage, which the current transfer from anode 26 to cathode 30 prevented. Hence this tube is ineffective.

Assume that the received high frequency carrier wave changes so that it generates a signal in the phone that is stronger than desired; then the im grows Output circuit of 11 flowing direct current and causes a corresponding increase the voltage across resistor 17. This causes the voltage across the grid 27 is less negative or even positive go compared to cathode 30, so that a current flows from anode 26 to cathode 30. The tube 25 then becomes a relatively smaller Resistance shunted to the tuned input circuit, which detuned this circuit and part of the received derives high-frequency impulses. This in turn reduces the effectiveness of the energy transfer through the circle, which causes a decrease in the signal strength in the phone. Assume in the same way that in normal operations of the receptionist speaking into the microphone from the same microphone station, then the energy is transmitted through the input circuit 8 and the low-frequency device 33 and the low-frequency voltages the grid 34 is pressed through the line 36. This lowers the impedance between anode 37 and cathode 45, no creating a voltage between anode 41 and cathode 39 of 40 is formed. Then high-frequency vibrations are generated in the circuit through the lines 43 of the tube is excited. These vibrations are amplified in the amplifier 44 and through the output circuit 5 and the transformer 6 transmitted to the antenna. Part of this Energy and particularly energy derived from currents at the sideband frequencies can be in an undesirable manner through lines 32 and transformer 14 to the

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Input circuit of tube 11 are pressed. When the high-frequency currents arise in the tube 40, a direct current flows through from the positive pole of the battery 53 Choke coil 54, anode 41, space between anode 41 and cathode 39, cathode 39, line 38, anode 37, space between anode 37 and cathode 45, cathode 45, lines 46, 47, choke coil 48, part of the resistor 17, lines 16 and 31 to the negative pole of the battery 53. This generates in in the same way a voltage source at resistor 17 of the one indicated in the drawing Polarity, which in turn means that the "grid 27 of 25 opposite the cathode 30 assumes a decreasing negative or positive voltage. So the tube 25 becomes a relatively small resistance in the Shunted to the tuned circuit of the detector, causing this circuit to go out of tune and energy transfer through the circle is diminished.

It can thus be seen that the resistor 17 forms a voltage source which is variable on the functioning of the transmission circuit and on the strength of the high-frequency impulses responds that are pushed onto the audio tube, or responds to both, whereby the tension on grid 27 of tube 25 is reduced.

By using a compensation circuit as a coupling transformer 6 and through Appropriate dimensioning of the unit 10, the currents of the frequency of the emitted The carrier is essentially balanced in this transformer, and only energy derived from currents at the sideband frequencies is transmitted to the input circuit of the tube through circuit 32. In this case, only a small one will be Protection against the transmission circuit by the tube 25 is required. Hence one can by setting the circles appropriately, for example by changing the position of point 49 on resistor 17 or the position of branch 55 on battery 29, adjust the grid bias of 27 so that it provides the necessary protection against the sideband frequencies originating from its own transmitter and at the same time the Recording of the received signals is not significantly affected. Therefore, with such an arrangement, the transmission and reception circuit can be operated simultaneously without that the receiving circuit is disturbed by the transmitting circuit.

Claims (5)

Patent claims: 1. Transmit and receive circuit for high-frequency signal transmission, thereby characterized in that a variable parallel resistor located in a possibly coordinated receiver circuit, z. B. a grid tube (or several such resistors located in different receiver circuits), is influenced by a voltage source, which affects both the strength of the received Fernsignalschwin'gungen as well as to the functioning of the associated transmitter is variably responsive. 2. Circuit according to claim i, characterized in that the means for changing the size of the controllable parallel resistance in the output circuit of the audion and in the anode circuit of a transmitter tube, z. B. the high-frequency vibrator, lie. 3. Circuit according to claim 1, characterized in that the grid voltage the auxiliary tube serving as a controllable parallel resistor both in terms of strength the received remote signal oscillations as well as the functioning of the associated one Depends on the station. 4. A circuit according to claim 3, characterized in that the output circuit Audio tube and in the anode circuit of a transmitter tube, e.g. B. the high frequency generator, a resistor is arranged, with the voltage of which the grid voltage of the auxiliary tube serving as a parallel resistor of the recipient changes. 5. Circuit according to claim 1 or the following, characterized in that the transmitter tube, which the voltage drop in which the auxiliary tube of the receiver generated control resistance, is only unlocked when talking to the transmitter. 1 sheet of drawings