DE1042018B - Circuit arrangement for generating pulses - Google Patents

Description

GERMAN

The invention relates to a circuit arrangement for generating pulses with a by a control voltage controlled multivibrator with at least two mutual feedback mutually blocking pentodes, in which the two tubes of the flip-flop circuit are triggered by switching pulses are periodically blocked at the same time and each time the trailing edge of a switching pulse occurs in Depending on the size of the S expensive voltage with respect to a reference voltage one or the other The pentode of the flip-flop switches to the current-carrying position.

Devices of the type mentioned have the advantage that they are particularly responsive to have. In embodiments of these known devices which have proven themselves in practice is the control voltage difference required to flip the trigger circuit in different directions or, in other words, the response sensitivity is about 0.01 V.

Such devices are used in various ways in practice. You are e.g. B. for two-sided Limitation of pulses or as a non-linear amplifier of a control grid of one of the Pentodes supplied control voltage and z. B. applicable for pulse regeneration in telegraphy receivers.

The invention aims to provide devices of the type mentioned while maintaining the advantageous Simplify properties.

According to the invention, the anodes and catching grids of the pentodes are cross-coupled to one another for this purpose and the catching grid of each pentode is also connected to the anode of a diode connected between the arresting grid and the cathode of the pentode in question is switched on, the arrangement also receives to generate the switching impulses an auxiliary tube whose control grid via a capacitive coupling with each of the pentodes is coupled to the screen grid and their anode to the Control grid of each pentode is connected, and the control voltage is pulse or DC voltage to the control grid of one pentode and the reference voltage to the control grid of the other Pentode created.

The application of the invention eliminates the need for a separate switching pulse generator for generating the Switching impulses.

The invention is explained in more detail below with reference to the drawing.

Two pentodes 1 and 2 are used as flip-flops, which are controlled by a pulse or direct current control voltage and at the same time periodically blocked by means of switching pulses. In each of the circuit arrangements
for generating pulses

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg I ₁ Mönckebergstr. 7th

Claimed priority:
Australia from July 23, 1956 and May 21, 1957

Willem Douwe Meewezen, Torrens Park (Australia), has been named as the inventor

Pentodes, a diode 3 or 4 is provided, the anodes of which are denoted by 5 and 6, and the cathodes thereof formed by the cathodes of pentodes 1 and 2.

The tubes are connected as follows: The anode 7 of the pentode 2 is connected to the via a capacitor 8 Catching grid 9 of the pentode 1 coupled. The catch grid 9 is accommodated with the anode 5 in the pentode tube 1 Diode 3 and also connected to earth via resistor 10. In a corresponding way is the The anode 11 of the pentode 1 via the capacitor 12 with the catching grid 13 of the pentode 2 and with the anode 6 connected to the diode 4 accommodated in the pentode tube 2, the anode of this diode also being connected is connected to earth via resistor 14. The anodes of the pentodes 1 and 2 are connected to resistors 15 or 16 fed from an anode voltage source, not shown in the figure, while the The cathodes of the tubes and the negative terminal of the anode voltage source are connected to earth. the The screen grids 17 and 18 of the pentodes 1 and 2 are drawn from the anode voltage source via the same resistors 19 and 20, respectively fed. To generate the switching pulses for the simultaneous, periodic blocking of the Pentodes 1 and 2, the device is further provided with an auxiliary tube formed by a triode 21. The control grid of the triode 21 is connected to earth via a resistor 22 and to ground via a capacitor 23 the common connection point of two the screen grids 17 and 18 of the pentodes 1 and 2 with each other connecting equal resistors 24 and 25 connected. The anode of the triode 21 is on the one hand over

809 660/12 »

the resistor 26 to the positive terminal of the anode voltage source and on the other hand via a capacitor 27 with the control grid of the pentode 1 and via a capacitor 29 with the control grid 30 of the Pentode 2 connected while the cathode is connected to ground.

The control grid 28 of the pentode 1 is also given a control voltage and a suitable grid bias fed through a resistor 31, while the control grid 30 of the pentode 2 is a reference voltage is supplied via a resistor 32.

The pentodes 1 and 2 together form a trigger circuit, and together with the triode 21 forms each of these pentodes also has a trigger circuit. The circuit is dimensioned in such a way that the time constant the trigger circuit formed by the pentodes 1 and 2 compared to the time constants of the flip-flops formed by the tubes 1 and 21 and 2, 21 is large.

The mode of operation of the device described is as follows: Provided that in the initial state the control grid 28 of the pentode 1 is slightly more positive than the control grid 30 of the pentode 2, the anode current of the pentode 1 is greater than the anode current of the pentode 2, and accordingly the The anode voltage of the pentode 1 is lower than that of the pentode 2. This anode voltage drop of the pentode 1 is transferred to the catching grid 13 of the pentode 2, so that a further reduction in the anode current of the pentode 2 occurs. The resulting increase in the anode voltage of the pentode 2 is transferred to the catching grid 9 of the pentode 1 and leads to a further increase in the anode current in the pentode 1. As a result of the known tilting effect, when the pentode 1 becomes conductive, the pentode 2 is blocked, while in a corresponding manner, when the pentode 2 is carrying current, the pentode 1 is blocked.

An anode current increase in the pentode 1 causes a screen grid voltage drop in this tube, which is transmitted via the resistor 24 and the capacitor 23 to the control grid of the triode 21, which is thus blocked similar to the pentode 2.

After a period of time corresponding to the time constants of the flip-flop circuit 1, 21, the triode 21 switches from the blocked to the live position, the voltage drop occurring at the anode of the triode 21 being transmitted to the control grid of the pentodes 1 and 2, whereby these two are blocked .

As a result of the tilting action between the tubes 1 and 21 or 2 and 21 thus occur at the anode of the Tube 21, with a frequency determined by the time constant of the respective breakover circuit, negative Switching pulses on, whereby the two pentodes 1 and 2 are periodically blocked at the same time. In this one In the locked state, the anode voltages of both pentodes are the same, and those accommodated in the pentodes Diodes 5 and 6 are then conductive, so that the grids connected to earth via these diodes both pentodes also have the same potentials. Any residual stresses · are in this way avoided, whereby the response sensitivity is favorable be. is influenced.

During the occurrence of the trailing edge of the negative switching pulse, the two pentodes 1 and 2 always carry that pentode current which receives the highest voltage from the outside. In this way, when the voltage supplied to the control grid of the pentode 1 is expensive, it is higher than that the reference voltage supplied to the control grid of the pentode 2, while the pentode 1 conducts anode current the pentode 2 will not conduct an anode current as a result of the blocking via the catching grid.

When the level of the S expensive voltage is lower than the reference voltage, so that the control grid of the Pentode 2 has a higher positive voltage than the control grid of pentode 1, the anode current the pentode 1 blocked, and the pentode 2 will conduct anode current.

Thus, pulses occur at the anode of the pentode 1 when the respective level of the control voltages is higher than the reference voltage, while they occur at the anode of the pentode 2 when the level of the Control voltage is lower than the reference voltage.

Claims (2)

Patent claims: 1. Circuit arrangement for generating pulses with a controlled by a control voltage Toggle circuit with at least two mutually blocking each other through mutual feedback Pentodes, in which the two tubes of the flip-flop switch by switching pulses at the same time are periodically blocked and depending on the occurrence of the trailing edge of a switching pulse on the magnitude of the S expensive voltage with respect to a reference voltage, one or the other The pentode of the tipper overturns into the position in which it carries anode current, characterized in that that the anodes and catching grids of the pentodes are cross-coupled to one another and that the catching grid of each pentode is also connected to the anode of a diode connected between the catch grid and the cathode of the pentode in question is switched on, that the arrangement also contains an auxiliary tube to generate the switching pulses, the control grid of which is via a capacitive Coupling with the screen grid each of the pentodes is coupled and their anode via a capacitive coupling is connected to the control grid of each pentode, and that the control voltage is pulsed or DC voltage-wise the control grid of one pentode and the reference voltage to the control grid of the other Pentode is applied. 2. Arrangement according to claim 1, characterized in that that the connected via the same resistors to a supply voltage source The screen grids of the pentodes are connected to one another via two equal resistors and that the control grid of the auxiliary tube via a capacitor is connected to the junction of these series resistors and that the anode The auxiliary tube is coupled to the control grid of each pentode via the same capacitors. 1 sheet of drawings © 809 '660 / 12S 10.581