DE1059125B - Circuit arrangement for generating periodic or one-time, preferably time-proportional voltages - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

PATENT LETTER 1059125 REGISTRATION DAY:

NOTICE THE REGISTRATION AND ISSUE OF INTERPRETATION LETTER:

ISSUE OF PATENT LETTERING:

kl. 21a ¹ 36/02

INTERNAT. KL. H 03 k

MAY 27, 1957

June 11, 1959

NOVEMBER 22, 1962

DIVERS FROM

EDITORIAL

(L 27725 VIII a / 21a ¹ )

For generating periodic time-proportional voltages, such as those used for time deflection used in electron beam oscillographs is already one consisting of two electron tubes bistable flip-flop became known. There is a charging capacitor in the grid circle of a tube arranged, which is connected to a DC voltage via a charging resistor. This known circuit arrangement is only suitable for the generation of periodic time-proportional voltages and also has a relatively long rewind.

It is also a circuit arrangement for generating time-proportional voltage known, which consists of a monostable multivibrator. This monostable Toggle switch controls the discharge tube. There is a disadvantage of this known circuit arrangement in the fact that no sawtooth voltage with constant amplitude is achieved, which is what modern oscilloscopes do however, it is an absolute requirement. Another disadvantage is that both the charging capacitor as well as the coupling capacitor between the tubes of the monostable multivibrator a coarse frequency change must be switched. For fine adjustment of the tilt frequency In this known circuit arrangement, two elements are also actuated, namely the charging resistor and the grid resistance of one of the tubes of the monostable multivibrator.

It is also a circuit arrangement for generating of breakover voltages became known, in which for the generation of periodic deflection voltages a continuously self-oscillating multivibrator is used. Control by the am Breakdown capacitor voltage does not occur in this case.

It is also a so-called three-pentode tilting device known, which can be used both for the generation of periodic deflection voltages and for the generation of one-off deflection voltages, whereby it is then coupled with a bistable multivibrator must be pelted. In this known arrangement, too, there is no control of the bistable multivibrator by the capacitor voltage. Finally, there is another circuit arrangement for generation known from breakover voltages, which makes use of a special tube ("gated-beam tube"). the The switching state of this tube, which works like a toggle switch, is likewise not given by two certain potentials of the voltage occurring at the breakover capacitor are controlled.

The invention relates to an optional adjustable astable or monostable sawtooth voltage generator with a charging capacitor a resistor charged and from one to the circuit arrangement for generating periodic or one-off,

preferably more time-proportional

Tensions

Patented for:

LIGENTIA Patent - Administrative - G. m. B. H., Frankfurt / M.

Dipl.-Ing. Hans-Helmut Feldmann, Berlin-Tempelhof, has been named as the inventor

Capacitor lying in parallel, from a bistable Flip-flop controlled amplifier element is discharged. The invention is that the bistable Flip-flop is a known Schmitt trigger circuit that is controlled by the capacitor voltage is, and that a known limiter circuit is provided, which is also of the Capacitor voltage is controlled, and when a one-time sawtooth voltage is generated, the dem Charging capacitor controls amplifier element connected in parallel so that the Schmitt trigger circuit the switching potential following the discharge of the capacitor is not reached.

The invention is explained in more detail with reference to FIGS. 1 to 3 using an exemplary embodiment. _;

In FIG. 1, the charging resistor 1 and charging capacitor 2 are connected to one indicated by "+" and "0" Voltage source switched. The connection point 3 of resistor 1 and capacitor 2 is direct to a tube 4 in anode base circuit, its anode to "+" and its cathode via resistors 5.6 connected to the —Pole of the voltage source is. In parallel with the capacitor 2, a controllable element 7 is arranged that the discharge of the capacitor 2 causes. The output of the cathode amplifier 4 is to one of the tubes 8, 9, Schmitt trigger known per se, which controls the discharge element 7, is switched. The part described so far the arrangement causes the generation of a periodic breakover voltage. The operation is as follows explained in more detail with reference to the diagrams in FIG.

209 716/374

Assuming that the discharge of the capacitor 2 has just ended, the following conditions occur if the tubes 10, 11 are disregarded. As a result of the lowered capacitor potential U _c2 at point 3, the grid potential Ug _{8 of} the tube 8 is also lowered via the tube 4 to such an extent that this tube is blocked. Due to the direct coupling of the tubes 8 and 9, the latter tube is live in this state, and a voltage drop U _ag occurs at the external resistor 12 of this tube. The anode of this tube 9 is now directly connected to the grid of the discharge tube 7 connected in parallel with the capacitor 2, so that the grid potential U _{e 7 of} this tube is negative due to the voltage drop across the resistor 12 with respect to the cathode. The tube 7 is thus blocked and the capacitor 2 is charged via the resistor 1. The potential at point 3 rises ah and with it that at the control grid and at the cathode of the tubes 4. Since the cathode of the tube 4 and the control grid of the tube 8 are galvanically connected, the control grid potential Ug g of this tube 8 also increases certain grid potential ap of the Rph ^ .e 8 #, the state of the tubes 8, 9 will change dramatically, so that now the tubes 8 are blocked and the other tube 9 is blocked: Dadijrch yersph ^ irides the Spänhiihgsäbfäil on, resistance 12th def . Röfire 9 _r , üüä the control grid of the Röliire 7 niimt ififblge of the resistor 14 somewhat positive potential over.the cathode ans, so that ^ ties.e tubes 7 conductive and the capacitor 2 is thereby discharged; UEAs AERP potential point 3 setir sihkt sthhell, und.entsprechend the sti ^ fgitterpbtentiäl Ufä eggs pipes 8 to μίιί falls a potential at which it is again blocked, whereby 'the ftörirfe SJ again sirömfüiiretid ürid the roewe 7 is blocked: The Äüfiäclung of Capacitor then starts from hiring; as above iBeschfietjferi. _; . ^ _5. , ..--.,:.;, ..... ,, <

Obviously, the one described so far takes place in the case of

Item 3 during the Äüf ^ and Eritlädühg. des Konderi-r sätors or: with a corresponding grid potential at the tube 8. These potentials are in different. Fig. 2 denotes rhit e, d . If a certain Aüflädespäririühg has been reached, the tube 8 suddenly becomes conductive (potential d), the tube 9 is blocked and the tube 7 also suddenly becomes conductive. If this causes the voltage at point 3 to drop to potential e , the situation at tubes 7, 8, 9 is suddenly reversed, tube 8 is blocked again, tube 9 is conductive and tube 7 is blocked. The arrangement is thus characterized by two specific potentials at point 3 and at the control grid def tube 7 (potentials e, d), when they occur a switching of the Schmitt trigger 8, 9 is effected and thus the generation of a periodic breakover voltage, which is connected to the cathode of the tube 4 is removable.

In order to make the described arrangement also suitable for generating aperiodic breakover voltages, according to the invention the tube 7 is controlled as a function of the capacitor voltage U _{c 2} so that the potential d required for switching the trigger 8.9 when the capacitor is charged 2 is reached, but not the potential e which occurs during the discharge and which switches over the trigger 8,9 again; rather, this is intercepted beforehand so that the trigger 8, 9 cannot switch again. · .. ■■ ·.

In order to achieve this, an interception stage consisting of the tubes 10, 11 is provided (FIG. 1). The tube 10 'is connected to the anode base circuit and is controlled by the cathode voltage of the tube 4, which also controls the trigger 8, 9. the Tube 11 is cathode-coupled to tube 10 and operates in a grid-based connection. The control grid of the Tube 11 is led to a voltage divider and receives a fixed grid voltage via actuator 13. the The anode of the tube 11 is directly connected to the anode of the tube 9, the control grid of the tube 7 and the

ίο External resistance 12 connected.

The mode of operation for the generation of an aperiodic breakover voltage in connection with the interception stage 9, 10 is explained in the hand of FIGS. 1 and 3. In the initial state of the arrangement is Tube 8 conductive, tube 9 non-conductive. This is achieved in that the tube 11 is made live is, in such a way that the external resistor 12 is de-energized in this circuit state Tube 9 a voltage drop only through the anoderi

ao current of the tube 11 arises. This voltage drop across the resistor 12 represents at the same time the grid voltage for the tube 7 connected in parallel to the capacitor 2, the conductivity of which is thereby adjusted so that the potential e. for the control grille of the

Tube 8 (Fig. 2) is definitely not reached: In the .Fig: 3 the piagfärnrri for the generation of an egg-shaped, Zeitpföpbrtiönaieri, voltage is shown, where the potentials d, e are the same as those of FIG. ...,. . ......

3ö As can be seen from Fig. 3, is in the starting point

Her Ähqfdriütig the Koridenäaioirsfännüng ¹ Uy ^ something

, Higher than that of the figure: .2: JÖies; _; λλππ1 here

Control of the pipes 7, reached in the middle of the pipes ti,

the wieäerüfn ¹ controlled by the KönHensatprspaririung

J ₅ will. Äuch das Steuergi ^^ qtehtiäi f / _g | is iri dieSfem

spreeherii} folds the pipes ■ 8 strarii, and the RÖnfe fj is ströpilös: the ÄnÖdehspärihuiig U ^ an dfer pipes 9 riätte clen dashed atigpeuteterjl course, if iri

This, Scriältungszu'starid not the i? .öHfe 11 .ström-, leading .ware. But since this; As stated above, Strbfn leads, the anoderipoteritial U ^ is lowered by the amount of space that is left at the resistor 12, as shown in Fig. 3 in full.

If the arrangement riuri is supplied with an Iriipulse / suitable polarity (Fig. 3), for example the control grid of the tube 9, the previously conductive tube 8 is blocked, the previously non-conductive tube 9 conductive, which causes the control grid with the resulting voltage at the resistor 12 the tube 7 strong negative tittd these tubes is blocked. Thus, the charging of the capacitor 2 begins, the voltage U _C 2 increases. The potential Ug g at the control grid of the tube 8 also rises accordingly until the potential d is reached. At this point the trigger switches 8, 9, that is, tube 8 becomes conductive and tube 9 is blocked. As a result of the sudden increase in voltage U _a9 (FIG. 3), the capacitor 2 begins to discharge

₉
on, since the tube 7 has become conductive. Due to the drop in voltage on the capacitor 2, the cathode potential of the tube 11 against the control grid also falls, the tube 11 becoming so conductive at the potential / (Fig. 3) that a voltage drop occurs at the external resistor 12, which in turn increases the conductivity of the tube influenced in such a way that the potential e is not reached. The arrangement has then returned to its original state.

The tubes 7, 10 and 11 represent a control circuit which works so that the tube 7 just as much Current leads, as from the charging resistor 1 to the charging

capacitor 2 flows, so that its potential in the waiting position of the sawtooth generator remains close to the breakover potential e until a trigger pulse starts the sawtooth generator.

Of course, instead of the electron tubes shown in the exemplary embodiment, Transistors are used.

Claims (1)

Claim: Optionally adjustable astable or monostable sawtooth voltage generator, in which a charging capacitor is charged via a resistor and discharged by an amplifier element which is parallel to the capacitor and is controlled by a bistable multivibrator, characterized in that the bistable multivibrator has a known Schmitt trigger -Circuit that is controlled by the capacitor voltage, and that a known limiter- circuit is provided, which is also controlled by the capacitor voltage, and the at The amplifier element connected in parallel to the charging capacitor generates a unique sawtooth voltage controls so that the Schmitt trigger circuit that of the discharge of the capacitor the following switching potential (s) not reached. Considered publications: Patent specification No. 10,623 of the Office for Invention and Patents in the Soviet Zone of Occupation Germany; "Funkschau", 1955, issue 23, pp. 534, 535; 1956, No. 16, pp. 469, 470; "FTZ", 1954, HeftS, p. 426; U.S. Patent No. 2,708,240; Czech, »The electron beam oscilloscope«, 1955, P. 75. 1 sheet of drawings