DE904327C - Saw tooth power generator - Google Patents

Description

(WiGBl. P. 175)

ISSUED FEBRUARY 18, 1954

T 2431 VIIIc 121g

Sawtooth generator

Addendum to patent 897

(Ges. Of July 15, 51)

The main patent describes a sawtooth current generator with a tube whose grid is controlled by a conidenser with a sawtooth voltage ¹ and in which a negative feedback voltage is supplied to the grid from a coil inductively coupled to the anode circuit of the tube. The invention of the main patent consists in the fact that the capacitor is part of a resistance capacitor element in series with the negative feedback coil, the time constant of which is approximately equal to the period of the sawtooth voltage, and that a rectifier is provided parallel to this series circuit, which peaks the voltage that occurs during the sawtooth return shorts. Is there the anode circuit of the tube ζ. B>. from a transformer for feeding the deflection coil of a cathode ray tube, so is at; Main patent on the transformer, a further winding is arranged, which is inserted into the control circuit of the tube mentioned and, due to the negative feedback caused by it, has the consequence that a much better time-proportional sawtooth current is generated in the deflection coil than would be possible without the winding of the transformer mentioned would. In addition, a feedback winding is also described in the main patent, which is also on the deflection coils; feeding transformer is attached and which is also on the control grid of the tube mentioned. The negative feedback is »-

winding as well as the feedback winding via a rectifier tube each at one point Fixed potential connected in such a way that the rectifier tube during the sawtooth trace currentless! is and during the saw tame return the connection of the relevant winding with the point fast: potential is established.

The invention simplifies this circuit in that there is a single rectifier tube which applies both one end of the negative feedback winding and one end of the feedback winding to a fixed potential during the sawtooth flyback times. The invention is thus based on an embodiment of the circuit of the main patent in which the sawtooth current generator with a negative feedback winding serving for linearization is connected to the one in the anode circuit; her. Grid with a sawtooth-shaped voltage-fed tube ao lying transformer as well as a feedback winding of the transformer which is also effective on this tube grid) for blocking the tube during the sawtooth return ^{1 is} coupled. The invention consists in the fact that a single rectifier tube is provided, which during the sawtame flyback times both makes the voltage generated at the negative feedback for the tube grid ineffective and sets one end of the feedback winding to a fixed potential, so that the other; End of the feedback winding resulting voltage of the tube: blocks.

One embodiment of the invention is shown in Fig. Ι of the drawing. Im this one is with Ii denotes the tube, on whose anode circuit via a transformer 13, 14 the deflection coil 10 is connected. In the control grid circuit of this tube is the feedback winding 65, the Negative feedback winding 22, eim resistor 22 " and a resistance compensator member 53, 54 in FIG Row with each other. Between the two! Windings " 22 and. 65 and the cathode · of the tubes is a rectifier tube 66 inserted in series with a resistor 67 across which the synchronizing voltage can be fed.

It should be noted that, just as in the main paragraph! ”), The capacitor 54 is charged by the return voltage of the coil 22 during the sawtooth return and is discharged proportionally via the resistor 53 during the sawtooth return. The resistor 22 ″ serves in the manner explained in more detail in the main patent to produce a certain deformation of the sawtooth curve, which is necessary with regard to very short cathode ray tubes The plus and minus signs on the winding 22 also correspond to the sawtooth return time. The rectifier tube 66 is made current-permeable by the voltage at 22 in the sawtooth return, so that on the one hand the charging current for the capacitor 54 flows through the tube 66 and on the other hand the left positive end of the feedback winding 65 is connected to the upper end of the resistor 67, which can be viewed as a point of fixed potential arises, blocked ¹ and at the same time g is the negative feedback voltage of winding 22 from the. The control unit is disconnected, since the rectifier tube 66 sets both the end of the winding 65 remote from the grid and the end of the winding 22 close to the grid to a fixed potential, while the tube 66 'is de-energized during the trace time. The voltage that occurs at winding 65 in the forward subtract is subtracted from the voltage on 22, so that in the forward only the difference, the area and feedback voltage on; The control grid of the tube 11 is effective. This difference formation has the consequence that the winding 22 must be equipped with a larger number of turns than, for example, the winding 22 in Fig. 22 of the main patent. For example, if winding 22 in Figure 22 of the main patent has 800 turns and winding 65 in; the one shown there! Circuit 200 turns) so * must in the case of Fig. 1 of the present invention, the winding 22 iooO'Wim- g ₀ received fertilize, wenm the winding 65 is also again carried out with 200 ¹ turns.

In the embodiment of the invention shown in Fig. 2, such an increased copper expenditure is not necessary. There a single coherent winding 68 is shown, the right end of which is connected via a rectifier tube 69 to the upper end of a resistor 67 serving to introduce the synchronizing voltage and the left end of which is connected to earth via a resistor 22 ° and a resistor capacitor element S3, 54. The tube is again designated with 11 and the transformer or the deflection coil with 13, 14 or. 10. The control grid of the tube 11 is connected to a tapping point of the winding 68, so that 'during this run, in which the rectifier tube 69 conducts no current, the left part of the winding 68 supplies the negative feedback voltage, while the right part of the 68 is ineffective within this time. no In the saw-tame return, the feedback voltage for blocking the tube 11 is supplied from the right-hand part of the winding 68, since. the right-hand end of this winding is then at a fixed potential u ₅ because of the current carrying of the rectifier tube 69 and the tapping point is negative compared to the right-hand winding end. For the charging of the condenser 54, on the other hand, the voltage generated at the winding 68 is effective.

In the embodiment shown in Fig. 3, there is only one! Winding 70 present :, soft serves both for negative feedback and for feedback and, in contrast to Fig. 2, not with either a center tap is provided. The right end of this winding 70 is over a resistor 71 with the control grid of the tubes

connected and the other end also connected to this control grid via a capacitor J2. The resistor 22 "and the resistor capacitor element 53, 54 serve the same purpose as the corresponding switching elements in Figs. 1 and 2. The rectifier tube 73 is: becomes; on which a solid

ίο There is potential. The negative potential, which occurs at the left end of the winding 70 during the flyback time, reaches the. Coupling capacitor 72 to the star grid of the tube 11. The size of the capacitor 72 and the resistor 71 is dimensioned so that the relatively high frequencies contained in the return voltage are still transmitted to the grid, while in the sawtooth trace the sawtooth voltage, which is on the right At the end of the resistor 22 ° there is ¹ , practically no access to the control grid of the tube 11 via the capacitor 72. On the other hand, the sawtooth voltage mentioned is in series with the voltage on the winding 70 and in series with the ^{1 in the outward run.} Resistor 71 galvanically directly on the control grid, so that the winding 70 with all its turns supplies the negative feedback voltage both in the forward and the feedback voltage to the control grid of the tube 11 in the return.

The synchronization of the various sawtooth generators In games this can be done by following the resistor 67 in Fig. 1 and 2 resp. the so-called deformed sync pulse mixture supplies the resistor 74, d. H.

, that feeds a Spannungsverlaiuf, which is caused by the fact the Syncbronimpulse after its separation from the image content of a circuit which, when the screen change or Zeilenzugwechselimpulsen ¹ provides a greater output voltage pulses than the Zeilenwieebsel. Through the image change or line movement of the deformed mixture, the cathode of the rectifier tube 66 or 69 or 73 is brought to a negative potential with respect to the anode, so that a current begins to flow ^{in the relevant rectifier tube 1 and the sawtooth returns.} is initiated.

If the described current sawtooth generators are used to reproduce an interlaced screen image and if traces of the line impulses are still active inductively in the control grid circuit of the tube 11, which is often the case in practice, special aids must be used to ensure that as the capacitor 54 is charged to the same level with each current sawtooth return. For example, by means of a resistor 75 in FIGS. 2 and 3, which is ¹ in series with a fixed resistor 76, the point in time at which the current passage through the rectifier 69 or 73 is terminated can be influenced. The current through the mentioned rectifier tube does not stop when the return voltage on the winding 68 or w. 70 has reached its maximum value, but rather only when the voltage on the capacitor 54 has become as great as the return voltage on the winding mentioned. This is due to the fact that the charge on the capacitor cannot completely follow the ekktromotoriischen- force because of the various resistances in the charging circuit, so that even after the return voltage r, n of the coil has exceeded its maximum value, there is still a positive anode voltage for the Rectifier tube is present. The point in time at which the rectifier tube blocks the current flow again depends on the level of the return voltage in the winding 68 or 70, and therefore, by influencing this voltage peak, which is possible by means of the resistor 75, the point in time at which the current will flow can be determined Adjust rectifier tube.

Claims (5)

PATENT CLAIMS: i. Sawtooth current generator according to patent 897 299 with a linearization Negative coupling winding on a transformer feeding the deflection coil Anode circle of a tube fed with a sawtame voltage on its grid as well as a feedback winding which is also waved on this tubular grid for blocking the tube during the saga returns, characterized in that a single rectifier tube (66 or 69 or 73) during the Sawtooth return times both on the negative feedback winding (22 in Fig. 1, left Part of 68 in Fig. 2, 70 in Fig. 3) resulting voltage for the tubular grid ineffective makes as well as one end of the feedback winding (65 in Fig. i, right Part of 68 in Fig. 2, 70 in Fig. 3) at a fixed potential, such that the one at the other end the voltage generated by the feedback winding 'blocks the tube (11). 2. Sägeziahinstromigenerator according to claim 1, characterized in that the negative feedback winding (22) and the feedback winding (65) in series with one another in the The grid lead of the tube (11) and the anode and between the two windings the cathode of the single rectifier tube (66) is connected to the tube cathode (Fig. 1). 3. sawtooth power generator according to claim 1, characterized in that there is a single coherent winding (68) in series with the rectifier tube (69) is connected: and that a tapping point of this winding is on Tubular grid is located in such a way that the counter-coupling ^ iao ment im, one part of this winding, the feedback im. Return from that another part of this winding is generated. 4. sawtooth current generator according to claim 1, characterized in that a single winding (70) with one end over one Resistor (71) to the tubular grid and via the rectifier tube (73) to the tubular cathode tied together; and at its other end via a capacitor (72) on the control grid lies,, 5. sawtooth current generator according to claim 3 and 4 with one, auis the return ^{voltage 1 of} the negative feedback coil generated voltage sawtooth, characterized in that means are present, preferably a to the winding (68 or, w. 70) lying parallel resistor (75, 76), with whose help the time of current interruption in the rectifier tube (69 »73) can be adjusted. 1 sheet of drawings I 5765 2.