DE744711C - Circuit for generating saw tooth-like vibrations in which the saw tooth rise is graded in such a way that it contains an area of lesser steepness - Google Patents

Description

Circuit for generating sawtooth-like vibrations in which the sawtooth rise is graded in such a way that it is an area of lesser steepness The present invention relates to circuits for generating sawtooth-like curves in which the steepness of the sawtooth rise in different Parts of the curve are different, for example so that the sawtooth curve goes first rises steeply, then does not rise at all or only slightly during a certain period of time and finally with the steepness in the first part up to the maximum value increases.

Sawtooth currents of this type have been used for various measurement methods proven to be useful in television technology. Here, however, it is necessary that the inclination of the flatter piece is adjustable and that this area can be varied Can shift steepness over a larger area or sawtooth curve.

Such stepped sawtooth curves are particularly advantageous Also used in television technology when it comes to scanning speed in the direction of the one image decomposition component during a certain period of time or to change over a certain image area. This allows for example a certain area of the image to be transmitted on the receiving device is essential image at a higher magnification than the rest of the image.

According to the invention, in order to generate sawtooth vibrations with a graduated sawtooth rise, one is connected to a positive voltage source via a high-resistance resistor. Electrode of an amplifier tube sawtooth vibrations of the desired frequency applied, the size of the resistance and the positive voltage being chosen such that the potential of this electrode during a sawtooth vibration is temporarily less, equal to and greater than the anode potential. The anode, at which the generated sawtooth vibrations of variable steepness are picked up, consists of secondary emissive material. It is advisable to use a five-pole tube as the amplifier tube, the first control grid of which is at cathode potential via a leakage resistor and the braking grid is connected to the screen grid, which is at positive potential, via a controllable high-resistance resistor.

In the following the invention is described with reference to figures; FIG. 1 shows the circuit diagram of an exemplary embodiment, FIG. 2 curves to explain the mode of operation, Fit -'- 3 sawtooth-like generated with the circuit Vibrations.

The screen grid 3 is connected to the terminals i and the coupling capacitor 2. the amplifier tube 4, e.g. B '. of the AF i oo type, sawtooth vibrations of a suitable frequency corresponding to curve 5 pressed on. The screen grid 3 is above a high resistance 6 of ioo KOhni at -1-20o V, the anode i via a high resistance 8 of 25 KOhin ap + ioo V. The control grid 9 of the amplifier tube: I is via a resistor io of i MQ with the Cathode, the braking grid ii connected to the screen grid 3 via a resistor 12 of 2o K-2. The graduated sawtooth vibrations generated according to curve 13 are applied to the anode load resistor 8 via the capacitor 1q. removed.

In the following, the mode of operation is shown in Fig. I Switching arrangement explained on the basis of the curves contained in Fig.2. The potential of controlled electrode 3 is dependent on the level of the voltage source connected to it (iin example shown -j- 200 V), also on the height of the flow through the screen grid iin screen grid resistor 6 caused voltage drop and finally from depending on the level of the applied signal voltage. In Fig. 2, curve a shows the Dependence of the screen grid current iSG and curve b the dependence of the anode current generally on the amplitude of the control voltage USf applied to the screen grid. While the screen grid stroni approximately linearly with the level of the applied voltage grows, it can be seen that the anode current first rises rapidly in proportion to time, thereafter the same value for a longer period of time and finally after exceeding it a certain signal amplitude increases linearly again. The curve c shows this directly on the screen grid, curve d is the potential measured directly at the anode. One sees, that the anode straw no longer increases as soon as the control voltage increases the screen grid potential reaches or exceeds the level of the anode potential. The anode current only begins to rise again when as a result of the increasing Voltage drop across resistor 6 (the voltage drop across resistor 8 remains a certain signal amplitude range is constant, because the anode current is also constant during this area is constant) the screen grid potential almost up to the level of the The anode potential has dropped. That during a certain section of the anode current curve horizontal curve progression is a consequence of the within this voltage range Secondary electron emission occurring in the amplifier tube from the anode to the Screen grid.

The curves shown in FIG. 2 were measured and given statically a good insight into .the mode of operation of the switching arrangement. If the in Fig. i circuit shown controlled by sawtooth currents of higher frequency, then changes the course of the curve changes somewhat, since there are now no static, but dynamic conditions are present.

By changing the size of the adjustable screen grid resistance 6 shows the horizontal area of the anode current curve over the entire modulation range move. Some such curve shapes are shown in FIG. In both Borderline cases, namely. when the horizontal range is at the very bottom or top the sawtooth curve, the screen grid potential can naturally no longer be less, equal and greater than the anode potential, but only equal and greater or less and equal.

Tests have shown that the part of the curve which is horizontal in FIG is shown, can also run with any inclination to the horizontal. This is achieved by changing the resistor 12 in the brake grid lead.

Claims (2)

PATENT CLAIMS: i. Circuit for generating sawtooth-like vibrations, in which the sawtooth rise is graduated in such a way that it can be moved at will Contains area of lesser steepness, characterized in that saw tooth vibrations the desired frequency of an electrode (3) of an amplifier tube are pressed, those about one. High resistance (6) of this size with a positive voltage source is connected that the potential of this electrode during a sawtooth oscillation temporarily less than, equal to and greater than the potential of the anode which consists of secondary emissive material and on which -the generated Sawtooth vibrations of variable steepness can be picked up. 2. Switching to: Claim i, characterized in that a five-pole tube is used as the amplifier tube whose first control grid is at cathode potential and whose braking grid via a resistor (12) to the screen grid which is at positive potential connected is. To distinguish the subject of the application from the state of the art are no publications considered in the granting procedure. been.