DE1016303B - Switching arrangement for generating double pulses - Google Patents

Description

GERMAN

In contrast to impulse differentiation, in which two impulses in opposite directions are obtained, it is in the impulse, television and measurement technology sometimes of importance, two of the same direction, more or less to win closely consecutive pulses within a pulse train. The invention helps to achieve this in that a pentode with a larger cathode resistance not blocked by a dem Control grid fed positive pulse a brake grid voltage control in the sense of an alternating reversal from the pentode to a triode using the screen grid as anode, so that a negative double pulse can be picked up at the anode.

The drawing shows a circuit diagram of a five-pole tube as an embodiment in which about Capacitor 1 is fed to the control grid 2 a positive pulse 3, while in the cathode line a relatively large, unbridged cathode resistance 4 is located. At the anode 5 arises a double pulse 6, the tips 7 of which coincide with the edges 8 of the pulse 3. Through the Width of the pulse 3, the distance between the tips 7 can be changed, so that any double pulses with defined. Peak spacings can be generated, with even doubling the pulse repetition rate can be reached.

The mode of operation of the circuit according to the invention is the following:

As a result of the pulse 3 (for example a rectangular pulse) fed to the control grid 2, which is suitably negatively biased, the anode voltage will decrease on its rising edge, ie anode current will flow. This current also causes a voltage drop at the non-blocked cathode resistor 4, as a result of which the retarder grid voltage becomes more negative in relation to the cathode voltage. Depending on the tube used, the brake grid can be negatively biased or, as shown in the exemplary embodiment, be connected to ground. At a certain point on the rising edge of the input pulse 3, the braking grid begins to block the flow of electrons to the anode. However, the emission current remains the same or continues to rise, so that part of the current is now taken over by the screen grid. The anode current drops, the anode voltage rises again. If the dimensioning of the cathode resistance 4 or the choice of the retarder grid voltage etc. is not optimal, a certain part of the emission current can still reach the anode, so that the anode voltage does not quite reach the original value. The horizontal piece of the anode voltage curve 6 between the two negative pulse peaks would not be in a switching arrangement for generation
of double pulses

Applicant:

Max Grundig, Fürth (Bay.),
Kurgartenstrasse 37

Dipl.-Ing. Kurt Schade, Fürth (Bay.),
has been named as the inventor

the same level as before or after the impulse, but lower. However, lying higher is impossible.

The falling edge of the input pulse 3 causes the Enirssionsstrom.es and thus a decrease a lesser one. Voltage drop across the cathode resistor 4, so that the braking grid again from a certain Voltage value increasingly loses its blocking effect, the anode draws current and the The anode voltage decreases again (second peak). At the end of the control pulse, emission current no longer flows and the anode voltage is restored their original value.

A decrease in the braking grid voltage is to be understood as meaning that the braking grid is less negative. According to the invention, the operation of the tube from a pentode to a triode (or vice versa) with the screen grid as anode is controlled by the changing braking grid voltage. Obviously, the size of the anode and screen grid voltage or the anode resistance is uncritical for this control insofar as the tube should work in the normal dynamic range (not under- or over-stressed). The cathode resistance is important and, depending on it, the retarder grid bias. These two sizes are of course dependent on the type of tube used. Obviously, the same effect can be achieved within certain limits by making the cathode resistance smaller and for this purpose the braking grid is correspondingly negatively biased from the outset.
The effect according to the invention, which is achieved by suitable dimensioning of the circuit taking into account the tube data, can be used for pulse spamming, e.g. B. as a replacement of term elements or the like, where a short or long time shift of two im-

709 698/142

pulsing can otherwise only be achieved with greater »effort. Another field of application of the invention lies in the doubling of pulse repetition frequencies, with a wider pulse making two Generated impulses in the same direction shifted by 180 ° against the rising edge of this wider impulse can be.

Claims (4)

Patent claims: 1.- switching arrangement for generating double pulses, characterized in that a pentode with a larger cathode resistance that is not blocked Brake grid voltage control by a positive pulse fed to the control grid in the sense of an alternating reversal from the pentode to the screen grid using triode as anode, so 'that on a negative double pulse can be removed from the anode. 2. Switching arrangement according to claim 1, characterized in that the braking grid bias is chosen so negative that even with a lower cathode voltage, a retarder voltage continuation is secured by the positive pulse. 3. Switching arrangement according to claim 1, characterized in that the distance between the two tips of the double pulse can be regulated by the width of the input pulse. Considered publications:
Barkhausen: "Electron Tubes", Volume 2, Leipzig 1933, 4th edition, pp. 133 to 135; Rothe and Kleen: »Electron tubes as end and transmitter amplifier ", Leipzig 1940, p. 93. 1 sheet of drawings