DE754789C - Modulation circuit - Google Patents

Description

Patented in the German Reich from May 1, 1935
Patent granted on September 14, 1944

The invention relates to a modulation circuit, in particular for short-wave or ultra-short-wave transmitters, specifically a circuit with a five-electrode tube. The normal control grid _{t is} supplied with the carrier oscillation, while the other two grids, namely the screen grid and the catch grid, are connected to different modulation circuits, for example with the image current modulation circuit and the synchronization modulation circuit in television.

Various multi-lattice tube configurations have already become known per se.

For example, a screen grid tube

circuit became known in which the voltages of the electrodes are dimensioned so that no control grid current can flow. There is also a tube circuit with a five-electrode tube became known, in which the screen grid between the control and catch grid receives such a high voltage, that for the smallest possible anode voltage there is no drop in the anode current, when the positive voltage of the control grid increases.

It is also known in a screen grid tube in which the screen grid is used as a modulation grid and two control grids as feed electrodes for the carrier oscillation

serve, between the screen grid and anode still a catch grid connected to the cathode to arrange.

According to the invention, a modulation circuit with a five-electrode tube the catch grid arranged between the anode and the screen grid has such a higher positive voltage Given the screen grid that the control ίο of the screen grid by the modulation voltage as lossless as possible. It is thus achieved that the control of the screen grid through the connected The modulation circuit takes place with as little power as possible.

The figure shows an exemplary embodiment of the modulation circuit according to the invention. It is a three-grid modulation circuit using a five-electrode tube 1. In this tube, the cathode 2 is on one Counterweight, for example the metal mass, of the housing 3. The innermost grid 4 is over a coil 5 is connected to an excitation circuit 6. This circle swings in half Frequency of the anode circuit 7. 6 is expediently a quartz oscillator, for example swings on the 14 m wave. By voting from 7 to the 7-meter wave, the first Order a harmful coupling via the internal capacities of the grid and anode and the construction capacities are reduced. The other two grids of the five-electrode tube i, namely the protective grille 8 and the so-called safety grille 9, belong to two others Modulation circles. This is because the screen grid 8 is connected to the image current amplifier 10 connected, while the safety gate 9 is coupled to a pulse device 11, which for the purpose of synchronization, sharp negative-going synchronization pulses at each line and frame end generated. The modulation grids 8 and 9 are each via one Series connection of inductance and capacitance 16, 14 or 17, 15 grounded. Through this Series resonance grounding, which is tuned to the carrier frequency, succeeds in creating a to overcome unpleasant difficulty in such modulation circuits, namely perform the complete blanking of the anode oscillation in the case of strong negative modulation pulses, for example for Zero synchronization when watching TV due to the synchronization pulse. The capacitors 14,15 are designed as variable capacitors and their greatest value to less measured as 50 cm. The self-inductions 16 and 17 are sized in such a way that that they are already in series resonance with an average capacity value of 14 and 15 come. This occurs when the coils and capacitors are built up without loss very low series resistance, which, as the tests have shown, does the job of good grounding solves better than it would ever be possible with a single capacitor. the capacitive loading of the generators 11 and 10 is nevertheless lower than without application of the resonance coils 16 and 17, because the capacitances 14 and 15 are only about 20 cm need to be. It is useful to have a calibration scale on the capacitors 14 and 15 attached, since an adjustment of the same is necessary when changing the operating shaft.

A high-frequency reaction of the generators 10 and 11 on the short-circuit circuits to avoid the inclusion of a choke 18 or 19 in the supply lines necessary for these generators. Instead of the chokes, a resistance of not can also be used over 500 ohms can be used as long as the voltage division then available of the resistance to the capacitance 14 and 15 is not an inadmissible weakening of the high modulation frequency results. 13 is a shield between the grid circles on the one hand and the anode circuit on the other. The grids receive their pre-tension over Series resistors 20, 21 also behind the blocking chokes 18 and 19. The screen grid 8 becomes completely currentless when the safety gate 9 according to the invention has a higher positive Voltage leads as the screen grid 8. In the figure this is for example through a The battery 22 is tapped. This measure ensures that the control of the screen grid circuit 8 as good as without power consumption, i.e. with as little power as possible, succeed. The bias of the safety grid 9, however, makes a strong negative Amplitude of the pulse generator 11 is necessary. To avoid this nuisance, can you also put the control circuit 19 on a special grid, which is between the safety gate 9 and the anode 7 is attached and in turn at the potential of the cathode is located. This grid is then controlled with the least amount of effort. Modulation symbols are then no longer fed to the catching grid 9, but it only serves to suck up the electron stream, which otherwise flows onto the screen grid 8 and then the image intensifier circuit 10-18 would burden.

Claims (3)

PATENT CLAIMS: I. Modulation circuit using a five-electrode tube with a catching grid arranged between the anode and the screen grid, which carries such a higher positive voltage than that Screen grid that the control of the screen grid by the modulation voltage is as lossless as possible. 2. Arrangement according to claim i, in which the catch grid with a Pulse device (modulation circuit) is connected. 3. Arrangement according to claim 1, wherein between the anode and catching grid • another grid located at cathode potential is arranged, which is from controlled by a pulse device (modulation circuit). To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications into consideration been drawn: French patents nos. 746 955, 755 064, 770 626. 1 sheet of drawings I 9578 12.54