US2207511A

US2207511A - Oscillation generator

Info

Publication number: US2207511A
Application number: US141433A
Authority: US
Inventors: Geiger Max
Original assignee: Telefunken AG
Current assignee: Telefunken AG
Priority date: 1936-05-12
Filing date: 1937-05-08
Publication date: 1940-07-09
Anticipated expiration: 1957-07-09
Also published as: FR821506A; GB495404A

Description

OSCILLATION GENERATOR Filed May 8, 1937 INVENTOR MAX GE/GER BY g7 WW ATTORNEY Patented July 9, 1940 UNITED STATES OSCILLATION GENERATOR Max Geiger, Berlin, Germany, assignor to Telefunken Gesellschaft fiir Drahtlose Telegraphic m. b. 11., Berlin, Germany, a corporation of Germany Application May 8, 1937, Serial No. 141 433 In Germany May 12, 1936 7 Claims.

This invention relates to oscillation generators and, in particular to oscillators of the relaxation type and the method and means for stabilizing the normal frequency of such oscillators.

Mutivibrators are understood to be relaxation oscillation generators having two discharge paths setting each other in action cyclically, and thus producing oscillations. Each discharge path has a resistance-capacity circuit included therein which is dependent on the voltage conditions which the current produces in the other discharge path, said resistance capacity circuit controlling the initiation of the discharge current in the first mentioned path. Such relaxation oscillation generators can be used with advantage for producing impulses having a constant frequency for television purposes. To this end. it is necessary in the first place to operate the relaxation oscillation generator with a constant voltage source such as can be easily done by using suitable voltage control means. Yet, the .constancy of the frequency of the produced impulses is also dependent on the grid voltage-plate current characteristic of the discharge paths utilized. The steepness of a tube characteristic changes with the time of operation to a degree such that the impulse frequency varies in anundesirable manner, while the grid voltage value required for just blocking the discharge (lower bend of the plate 30 current-grid voltage characteristic) remains practically invariable.

In accordance with the invention therefore, in such a relaxation oscillation generator, there is connected in parallel to the control grid-cathode path of one or both discharge paths, a detector in series with a direct voltage source, so that with a variation of the characteristic of one discharge path, the grid potential of the other discharge path (equipped with detector) can be maintained at a practically constant minimum value. i

It is, therefore, one of my objects to provide method and means for producing a stabilized frequency multivibrator.

) Another object of my invention is to provide a multivibrator whose frequency is substantially independent of supply voltage variations.

A still further object of my invention is to provide a thermionic oscillator having a cathode-grid circuit with a linear characteristic connected in parallel with a non-linear characteristic circuit to minimize the effects of voltage variations upon the oscillators frequency. Yet another object of my invention is to provide a multivibrator of improved characteristics for use in frequency dividing and multiplying circuits such as are employed in frequency measuring systems, television, synchronizing systems, and electrical measuring systems.

Other and. ancillary objects will at once be apparent to those skilled in the art upon reading the following description together with the drawmg.

In the drawing, Fig. 1 shows a circuit diagram of one embodiment of my invention;

Figs. 2 and 3 are voltage plots to illustrate the operation of my invention and Fig. 4 shows the grid voltage-anode current characteristic of tubes for explaining Figures 2 and 3.

In Figure 1 items l0 and H designate two tubes having inserted in their plate circuits a resistor l2 and 13 respectively, and a resistance capacity circuit in each of their grid circuits. The resistance capacity circuit of tube l0 consisting of condenser M and resistor I5 is connected to the anode of the other tube I l across the linelfi. The resistance capacity circuit of tube l I, consisting of the condenser I1 and resistor I8 is connected to the anode of tube It across a line l9. Each of the grid-cathode paths of tubes In and H have connected in parallel a detector and 2| respectively, and. the anode of the detectors 2!) and 2| are connected to the control grid of the tube It and II respectively, and furthermore, a

detector

22 and 23 respectively whose cathode connected to the control grid, and serves according to the invention to bring the grid potential to a practically constant minimum value independently of the shape of the plate current-grid voltage characteristic. A bias potential that is negative relative to the cathodes of the tubes Ill, H is placed in series with the two detector pairs, said bias potential being obtained by tapping the potentiometer resistor 24. The bias voltage for the

detectors

22, 23 hence consists of the voltage drop between the points P1 and P2 and that for the detectors 2! 2| consists of the potential drop between the points; P1, and P3.

Neglecting for the moment the presence and effect of the

detectors

22 and 23, the circuit shown in Fig. 1 operates in such manner that the grid potential of the tube Ill undergoes voltage variations as represented by the full line curve in Figure 2. In this figure the horizontal coordinate represents the time and the vertical coordinate 50 a deviation of the grid potential in the direction that is negative as regards the cathode potential. The cathode potential is designated by P1 in conformity with Figure 1, and the potential of the control grid at which the detectors 20, 2| permit 55 the current to pass is designated by P3. The grid potential at which the plate current in the tubes H], H will just be blocked is designated by ego as shown in Figs. 2, 3 and 4. The minimum value assumed by the grid potential of tube 10 is determined by the voltage drop which the plate current of the tube I! produces in the resistor l3, and has the value P4. The grid potential characteristic of tube H has a shape similar to that of the tube l0, and is shown in Figure 4;. The intervals of constant grid potential of tube II correspond. to the intervals of the increasing grid potential of the tube It and vice versa. The minimum value of the grid potential of the tube i! is determined according to the conditions at tube Hi, by the voltage drop produced at the resistor i2 by the plate current of the tube ID. The minimum value of the grid potential is herein designated by P5 in Figure 3.

Now, since the voltage drop produced in the resistors l2 and I3 by the plate current of tubes I and H respectively, depends on the plate current value corresponding to the grid potential P3, and hence at fixed value ego the voltage drop depends on the steepness of the plate current-grid potential characteristic, also shown in Figure 4, the value P4 in Figure 2, or P in Figure 3 varies in the course of the life of the tube. Since on the other hand, the time constant of the two resistance-capacity circuits is invariable, there elapses a time between the extinction and the setting-in again of the discharge of the same tube which depends on the value of P4 or Pa. Therefore, according to the invention,

rectifiers

22, 23 are provided permitting the passing of current therethrough at values of the grid potential which are equal to the voltage drop between P1 and P2. If the control grid potential for instance of tube ID has decreased to the value P2, the total voltage at the rectifier 22 is equal to zero, since the potential difference between grid and cathode of tube in has a direction opposite to that of the potential difierence between the points PL and P2 at the potentiometer resistor 24. Thus if the grid potential of tube I 0 decreases still further, the rectifier 22 permits the passing of current, since now its cathode is negative relative to its anode. Therefore, a further decrease of the grid potential of the tube ID will be prevented, so that the slow potential displacement to which the control grid of tube Ill is subjected during the flowing of plate current in tube H, now begins at the voltage value P2, and not as hitherto without the rectifier 22, at the voltage value P4, which value depends on the steepness of the grid voltageplate current characteristic. Consequently, after interruption of the plate current in tube 50, the grid potential varies in the manner shown by the dotted curve A in Figure 2. The functioning of the rectifier 23 in the grid circuit of tube Ii is the same. Thus when using the detector 23, the curves B in Figure 3 represent the voltage wave during the time in which the tube I! is blocked, and the tube ID permits passing of current.

If the same impulse frequency is to be produced when using the rectifiers according to the invention as the frequency without these rectifiers, the values of the time constants of the resistance capacity circuits l4, l5, and 11, I8 must be changed such that the curves A and B intersect the line get at the same moment as in the case of the grid potential curves drawn in full line.

Having described my invention, what I claim is:

l. A stabilized oscillator comprising a first and a second electron discharge tube, each of said tubes having a cathode, a control electrode and an anode, a resistor connected between the cathode and control electrode of each tube, a potentiometer, resistors connected between the anode of each tube and the potentiometer, a connection between each cathode and the potentiometer, a condenser connected from the connection between the anode and the resistor of the first tube to the control electrode of the second tube, a condenser connected from the connection between the anode and the resistor of the second tube to the control electrode of the first tube, and a plurality of unilateral conducting impedances connected between the control electrode of each tube and the potentiometer.

2. A stabilized oscillator comprising a first and a second electron discharge tube, each of said tubes having a cathode, a control electrode and an anode, resistors connected between the cathode and control electrode of each tube, a potentiometer, a resistor connected between the anode of each tube and the potentiometer, a connection between each cathode and the potentiometer, a condenser connected from the connection between the anode and the resistor of the first tube to the control electrode of the second tube, a condenser connected from the connection between the anode and the resistor of the second tube to the control electrode of the first tube, and two rectifiers of opposite polarity connected between the control electrode of each tube and the potentiometer.

3. A stabilized oscillator comprising a first and a second electron discharge tube, each of said tubes having a cathode, a control electrode and an anode, a resistor connected between the cathode and control electrode of each tube, a potentiometer, a resistor connected between the anode of each tube and the potentiometer, a connection between each cathode and the poten tiometer, a condenser connected from the connection between the anode and the resistor of the first tube to the control electrode of the second tube, a condenser connected from the connection between the anode and the resistor of the second tube to the control electrode of the first tube, and nonlinear impedance means connected between the control electrode of each tube and the potentiometer.

4. A stabilized oscillator comprising a first and a second electron discharge tube, each of said tubes having a cathode, a control electrode and an anode, a resistor connected between the cathode and control electrode of each tube, a potentiometer. a resistor connected between the anode of each tube and the potentiometer, a connection between each cathode and the potentiometer, a condenser connected from the connection between the anode and the resistor oi the first tube to the control electrode of the second tube, a condenser connected from the connection between the anode and the resistor of the second tube to the control electrode of the first tube, and means connected between the control electrode of each tube and the potentiometer for limiting the potential difference between the cathode and control electrode of each tube to a predetermined maximum value and to a predetermined minimum value.

5. In a two-stage resistance capacity coupled amplifier each stage having an input and output circuit with capacitative feed-back from the output circuit of the second stage to the input circuit of the first stage or" such magnitude to produce self oscillations, the method of stabilizing the frequency of the oscillations which comprises producing a flow of current in parallel with the input circuits upon the occurrence of a potential difference across the input circuits exceeding a predetermined maximum value, and producing a flow of current in parallel with the input circuits upon the occurrence of a potential difierence across the input circuit which is below a predetermined minimum value.

6. A multi-vibrator oscillator comprising a pair of space discharge tubes each having cathode, anode and control electrode elements, a connection from each anode to a control electrode of the other tube, said connection including a coupling condenser, a connection between said control electrode and the cathode of each tube, said connection including a grid-leak resistor, a source of potential, an impedance element having its terminals connected across said source of potential, connections from points on said impedance to said anodes and cathodes, and rectifier means connected between like elements of both of said tubes and a point on said impedance intermediate said terminals.

1 7. A multi-vibrator oscillator comprising a pair of space discharge tubes each including a cathode, an anode and a control electrode element, a connection from the anode of each tube to the control electrode of the other tube, said connection including a coupling condenser, a connection between the control electrode and the athode of each tube, said connection including a grid-leak resistor, a source of potential conbetween the anode and cathode elements of each tube, impedance means for providing a point of voltage intermediate the extremes of said source of potential, and rectifier means connected between'the control electrodes of both of said tubes and said point of intermediate voltage.

MAX GEIGER.