DE1074079B - Pulse-keyed amplifier - Google Patents

Description

GERMAN

The invention relates to a circuit arrangement for pulse-controlled blanking of an amplifier. It is known to generate an amplifier stage by means of separately generated pulses at one of the electrodes of the amplifier tubes to feel. This requires a suitable pulse generator stage in which the blanking pulses generated separately and then fed to the amplifier stage. With long lasting The difficulty with impulses is to counteract the time constant of the coupling element correspondingly large to make the pulse duration.

Multivibrators are known for generating such blanking pulses. These are around a known circuit of two tubes, which are alternately conductive and blocked. It is known, to switch such an arrangement so that it is monostable. That means that the state of the Tubing remains stable through the selection of a grid bias until this is achieved by an applied pulse Grid bias is changed accordingly. This causes the arrangement to tip over, i.e. i.e. the blocked one and the opened tube swap their functions. After one through the time constant of the coupling link between the two tubes, the arrangement tilts back again and remains * in the stable starting position. The use of two separate stages, pulse generator stage and amplifier stage, means a lot of effort. It also prepares the coupling between the two Levels of certain difficulties. For example, when regulating the amplitude of the amplified Signal takes place in front of this coupling element, the amplifier oscillates in this corresponding to the time constant Time until the potentials have adjusted to their normal value. This leveling off has a very annoying effect, especially when an amplifier should be ready for operation again immediately.

According to the invention, the disadvantages of the known arrangements are reduced at the same time the effort is eliminated by the fact that in a circuit arrangement for pulse-controlled amplification of a signal and, when using a monostable multivibrator (univibrator), the one to be amplified Signal is fed to the control grid of a tube, which is one of two in series connected resistors existing anode-side working resistance is assigned, with the positive Portions of the signal in this tube are amplified and taken off at the anode, while negative Impulses, e.g. B. negative components of the signal, the first tube block that also another tube to the the first is coupled in such a way that the pulse occurring at the anode when the first tube is blocked is on Connection point of the two pulse-keyed amplifiers connected in series

Applicant:

Max Grundig,

Fuerth. (Bay.), Kurgartenstr. 37

Horst Hennig, Fürth (Bay.),
has been named as the inventor

Working resistances are removed and fed via an RC element to the grid of the second tube and during a time constant of the i? C element makes the second tube conductive, during which time the first tube remains blocked and thus no amplification takes place and that furthermore, the arrangement then tips over again by itself, so that the signals in the first tube are amplified normally again.

In addition to the one mentioned, this circuit arrangement has a further significant advantage. The pulses present in the signal for triggering the keying do not first need a: pulse shaper stage to be supplied in order to be able to trigger the univibrator accordingly, but the Pulse shaping takes place simultaneously in the arrangement according to the invention itself.

On the basis of an embodiment shown in the drawing, the essence of the invention and further advantageous embodiments are explained in more detail.

In Fig. 1, a pulse-controlled blanked amplifier stage according to the invention is shown. The signal to be amplified is fed to the grid 1 of the tube 2 via a capacitor. These Tube 2 is normally conductive. The signal can therefore be amplified at the anode will. The anode resistance of the tube 2 is divided into two resistors 5 and 6. Here is the Resistance 5 should be small in relation to resistance 6. The anode resistor 7 of the tube 3 can be in the same size as the resistor 6. The tube 2 is shared with the tube 3 above Cathode resistance coupled. The resistor 6 represents the effective external resistance for the pulse generation The resistor 5 acts practically as a decoupling resistor between the signal and the pulse voltage in order not to burden the signal with harmful switching capacitances. From the

90? 727/212.

The connection point of the two resistors 5 and 6 leads a connection containing the RC-Gli & d 8 and 9 to the grid 11 of the tube 3.

The cathodes of the tubes 2 and 3 are coupled via the common cathode resistor 4. It is but just as well possible, a separate supply of the negative grid voltages to the corresponding Provide grid.

As soon as the grid 1 of the opened tube 2 is supplied Signal contains a short negative pulse, the circuit flips during this pulse and forms a negative pulse in the time constant corresponding to the i? C element 8, 9. While During this time, the tube 2 is therefore blocked and with it the amplification of the signal at the resistor 5 prevented. As soon as after the time determined by the time constant of the i? C element 8, 9 the Grid 11 of the tube 3 is released again, so that the negative charge via the grid resistor 10 can flow off, the tube 2 is opened again, and the amplification of the signal takes place as before Blocking the tube 2.

It may be useful to know the time constant of the univibrator Way to make it adjustable that either as the resistor 8 or the capacitor 9 or both are designed to be variable. Another beneficial one A further development of the invention consists in that between the supply of the anode voltage and a variable resistor 12 is connected to the grid 1 of the tube 2. This is the setting the width of the blanking pulses. To determine the slope during pulse generation, If necessary, it is appropriate to improve the anode of the tube 3 with the grid 1 of the tube 2 via a series circuit of a resistor 13 and a capacitor 14. In this case, the resistor 13 only has the task of falsifying what is fed to the grid 1 of the tube 2 Signal through the capacitor 14 to prevent.

The circuit arrangement according to the invention is particularly advantageous when square-wave pulses in the duration of about 0.1 second or longer should be transmitted. It goes without saying that the amplitude of the signal must not interfere with the characteristic curve of the blocked grid, since the tube 3 could possibly be opened undesirably. However, the impulse contained in these signals must have the necessary amplitude to trigger the tilting process, so that the grid of the tube 2 the required blocking.

A curve of the input voltage is shown schematically in FIG. 2 of the drawing. Thereby means 15 shows the course of the voltage to be amplified, while with 16 the one to trigger the blocking required negative impulses are designated. In the second line of Fig. 2 are those at the anode the tube 2 resulting pulses shown. 17 means the amplified signal voltages (corresponding to 15 of the first line of FIG. 2) and 18 those resulting from the action of the univibrator rectangular blanking pulses.

For certain purposes it is advantageous to have the blanking independent of external trigger pulses to be carried out periodically with a constant or variable period. For this it is only necessary to be known per se To provide means which turn the univibrator into a self-tilting multivibrator.

The use of the method according to the invention is particularly advantageous in the amplification of Camera image signals in industrial television systems.

In such a case, the signals supplied by the camera amplifier would be fed to the tube 1. The pulses designated 16 in FIG. 2 then represent the camera blanking signal during the retrace of the Scanning beam. The. The output of the switching arrangement is with the output stage or a black control tied together. The pulses 18 serve, possibly after appropriate trimming, as synchronizing signals or the like

However, the invention is not limited to the exemplary embodiments and application examples described and drawn limited.

Claims (4)

Patent claims: 1. Circuit arrangement for pulse-gated amplification of a signal, using a monostable multivibrator (univibrator), characterized in that the to be amplified Signal is fed to the control grid (1) of a tube (2), which is one of two connected in series Resistors (5,6) existing anode-side working resistance is assigned, wherein the positive components of the signal in this tube (2) are amplified and removed at the anode while negative impulses, e.g. B. negative components of the signal, block the first tube that furthermore, a further tube (3) is coupled to the first in such a way that when the first is blocked Tube (2) pulse occurring at the anode at the connection point of the two connected in series Working resistances (5, 6) removed and via an IC element (8, 9) to the grid (11) of the second tube (3) is supplied and during one of the time constant of the i? C element corresponding Time makes the second tube (3) conductive, during which time the first tube (2) remains blocked and thus no amplification takes place and furthermore the arrangement then tips over again by itself, so that the signals in the first tube (2) are amplified normally again will. 2. Circuit arrangement according to claim 1, characterized in that the time constant of the Univibrator by changing the resistor (8) and / or the capacitor (9) as desired is adjustable. 3. Circuit arrangement according to claim 1 or 2, characterized in that a between Anode and grid (1) of the first tube (2) provided resistor (12) is variable. 4. Circuit arrangement according to claim 1, characterized in that the univibrator by means known per se is added to a self-tilting multivibrator and that the interruption the gain in fixed or variable periods through self-generated in this multivibrator negative impulses. 1 sheet of drawings ® 909 727/212 1.