DE1013016B - Circuit arrangement for generating a saw-tooth-shaped current in an inductance - Google Patents

Description

GERMAN

The invention relates to a circuit arrangement for generating a sawtooth-shaped current in an inductance, in which a voltage is present on a capacitor during the sawtooth trace is connected to the inductance via a switch diode and during the sawtooth return blocked switch diode, the inductance with the connected capacitances a free half oscillation performs, whereby a controlled driver tube to cover the energy losses is connected to the inductance connected to the circuit and to control the switch diode. Such circuits have been used in various embodiments for the horizontal deflection, wherein the inductance mentioned is represented by a transformer to which the line deflection coils are coupled are. The high voltage peaks that occur during the return line become mostly through a rectifier connected to a special winding of the transformer DC voltage of 12 to 20 kV is generated, which is used as an accelerating high voltage for the picture tube of the Television receiver is used.

If you use a pentode as a driver tube and operate it in the area of high internal resistance, see above one must take care with such circuits that the shape and amplitude of the sawtooth Control voltage is adapted very precisely to the respective tube data, which is especially true for Changing tubes creates difficulties and inconveniences. In the area of high internal resistance is namely the mean tube current of the pentode independent of the anode voltage, but with the large spread of the individual tube data when changing tubes, the mean tube current is considerable can change. So that the correct current curve is generated in each case, the controlling sawtooth voltage would have to be in each case the tube must be matched very precisely. The scattering of the tubes with respect to of the anode current under otherwise identical measurement conditions are up to ± 25%. Is the circuit for a middle tube balanced by adding the screen grid series resistor and the control sawtooth shape are dimensioned appropriately to obtain the desired current curve, so one will with a Tubes with a lower anode current can only produce a much lower output. One tube on the other hand, if the anode current is above the average, it is already in the takeover area modulated when the first mentioned tube with medium anode current was fully modulated.

It was therefore later switched to operate the driver tube in the power takeover area. This way of working has several advantages as it

Circuit arrangement for generation

a sawtooth-shaped stream

in an inductor

Applicant:

Telefunken GmbH,
Berlin NW 87, Sickingenstr. 71

Robert Andrieu, Hanover,
has been named as the inventor

the shape of the controlling sawtooth voltage and the output amplitude are no longer so important the circuit is independent of the tube scatter within certain limits. Working in the takeover area, d. H. at low Internal resistance of the driver tube, but brings with it the disadvantage that the tube is then strong von Barkhausen short oscillations, which are noticeable on the screen can. Namely, when working in the takeover area, the anode voltage of the driver tube becomes intermittent so low that the electrons are slowed down in the space between the screen grid and the anode and return to the screen grid. This causes space charge oscillations stimulated, which can be in the frequency range between 20 and 1200 MHz, the frequency essential depends on the electrode voltage. These vibrations are emitted from the tube and can be picked up from the receiver input. Since the frequency of the instantaneous Anode voltage depends and the anode voltage changes during the course of a line, occur such vibrations lying in the reception area always at a very specific time interval from the beginning of the line and are therefore noticeable as vertical stripes on the television picture.

For this reason it is desirable to avoid working in the electricity transfer area. It must you waive the advantages mentioned above, and the disadvantages listed reappear.

In the invention, the operation of the driver tube in the area of high internal resistance is avoided These disadvantages are made possible by the fact that during the sawtooth retrace on the inductance of the transformer, a DC voltage is derived, which the driver

709 590/285

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tube as a bias voltage in such a sense at the same time the switch diode 2. The deflection coil 4 is increased so that when ^{the voltage at the inductance 1} with the connected deflection transformer 3 and standing voltage decreases, the mean current of the driver leads to the switching capacitances transformed to it tube is increased, and at most by one free half-oscillation, which results in such an amount that this tube blocks even when the diode is aging and opens again after its expiration, phenomena or scattering of the tube data Electricity transfer area is controlled. again at the deflection coils 4, so that the sawtooth isf.es possible, the driver tube begins to run over again. In the partial winding of the Transbiet, which lies between the reports of Barkhausen short oscillations at points E and F , the high internal resistance is to work, so that the deflection amplitude is stabilized during the sawtooth and the voltage peaks that occur in the high-trans high-voltage source have a small internal resistance formed and fed to a rectifier 7 in which receives. Although it is in circuits for high they generate a high voltage of z. B. voltage generation known, from the output circuit 12 to 15 kV for the beam acceleration in a driver tube to derive a DC voltage 15 picture tube serve. The anode voltage source for the: |, f | and to the input circuit of this tube, driver tube 6 is at 8 at the connection point ^: 1 * 1ί [but this circuit does not serve as a deflection circuit of the capacitor 1 with the anode of the diode 2 in for television receivers. The negative bias is connected in a known manner. To regulate the driver tube also causes the control deflection current amplitude in the deflection coils 4 to be a voltage source for the driver tube, which is usually represented by a blocking oscillator between points A and B of the transformer 3, the adjustable parallel inductance 9 which is no longer switched on Grid current loaded on the driver tube is seen. Instead, however, any other amplitude control, e.g. one in series with formations of the current voltage curve, the inductance connected to the deflection coils 4 or a resistance that can be changed slightly towards the end of the sawtooth trace, can be used instead. ' ^: more devoted. As far as the circuit is described up to this point, is

In the following, the invention will be well known with reference to it. The power loss N _{v of} the two exemplary embodiments will be described. It is proportional to the square of the voltage applied to a B'Sffteil ¹ · However, it should be noted that many other windings of the transformer are possible during the sawtooth application of the invention at a leading voltage, e.g. the sawtooth current generators borne between the two Points D and E standing voltage U, N _V = KU ^Z > Fig. 1 shows a so-called Blumlein circuit for where K is a constant given by the losses ■ ·? ·; ' the line deflection of television receivers (cf. ist. This power loss is brought by the tube 6 & ni ^u Andr i eu, Telefunken-Zeitung, 25th year, issue 95. The applied power N _R is equal to June 1952, p. 107 bis 114). Due to the condensate product of the voltage U and the mitferea ) generator 1 and the tube current I _Rm generated during the sawtooth run-out . Since the switch diode 2 opened in the equilibrium state JVy- ^, an "approximately congruent N _R must be, applies ":

constant «voltage on a partial winding of the deflection j *,

transformer 3 between points A and D KU = I _Rm or U = -— ^. :

placed. Under an "almost constant" voltage, 40,;,;., ": *;.!

a constant DC voltage can be understood here. One can see that when there is a change in K'f't. B .;

which, if necessary, is superimposed on a high-voltage rectifier tube 7 when the parabolic voltage component changes to compensate for the change in the deflection current amplitude at the inductive ^{; 1} cathode ray tubes with flat luminescent screen or by changing the load of the so-called S or tangent error that occurs. 45 image brightness is I _Rm mitändern in the same sense "In fact, the voltage curve has on the deflection when U is to be kept constant ■:. · 'In the coil circuit of the embodiment in carrying out the invention is the Aride- ¹

during the outward run a section from a stanchion of U is counteracted by the fact that the sine curve, so that by suitable selection of the grid of the tube 6 via the resistor 10, the correct deviation 50 of the return amplitude dependent on the period of this sine curve is added to the constant voltage curve for compensation will lead. For this purpose the tangent error can be adjusted to a suitable one. This »approximately tap point of the transformer 3, z. B. - as in constant "voltage is shown by the transformer of the drawing - transmitted to the connection point C tor 3 on the deflection coils 4, which the deflection coil 4 via a capacitive voltage between the no or almost no changeover, consisting of the Capacitors 11 and 12, voltage-carrying point A and a higher connected to the anode of a rectifier 13 * AC-voltage carrying tap point C whose cathode is grounded. Between the anode of the transformer is switched. The energy losses rectifier 13 and earth is the work resistance of the circuit stand 14 during the sawtooth ^{trace, at which one of the peak amplitudes of 1 is applied} by the driver tube 6, the DC point E of the deflection transformer 3 connected to the 60 supplied return voltage, forms a voltage, such as through which the resistor 14 is. The tube 6 is intended to supply such a current, indicated by plus and minus signs, that the switch diode 2 can - as shown - be open as an outgoing flow during the whole of the resistor 14. Be formed by a potentiometer with the receiver, at whose tapping genes synchronization pulses synchronized voltage point 65 the bias voltage for the tube 6 over a Benungs curve, the z. B. in a blocking oscillator quiescent network, consisting of the resistor IS is generated and the grid of the tube 6 with negative and the capacitor 16 is removed. Be ^ ^{1 Ij directed voltage peaks} across the capacitor 5 is fed to a reduction in the voltage U between de "*" jl, the tube 6 is in each case at the end points D and E of the transformer 3 by Ve; a sawtooth finish. locked. As a result, increases in losses also decrease d, ijj

Amplitude of the return voltage peaks and thus the negative bias of the tube 6 at the potentiometer 14, so that the mean tube current I _{Rm is increased} in a compensating sense. To increase the control precision, ie the dependence of the bias voltage on the load changes, a positive bias voltage source can be switched into the cathode line of the diode 13.

Fig. 2 shows another embodiment of the invention, in which the elements of the basic circuit are provided with the same reference numerals as in Fig. 1, so that they do not need to be mentioned again. To regulate the deflection current amplitude, a change in the number of turns tapped by the deflection coil 4 on the transformer 3 through a series of selectable tapping points C ₁ , C ₂ , C ₃ , C ₄ , C _{5 is} provided here as an example. To keep the return time constant when changing the tapping point for amplitude adjustment, _{a capacitor ao 25 is switched on between the changeable tapping point and C 1} , as has already been proposed elsewhere.

The diode 21, which is used to generate the adjustable bias voltage of the tube 6, has its cathode connected to a special winding 22 of the deflection transformer, the DC voltage of the main winding is separated and the other end is connected to the battery terminal 8. the positive bias caused by this blocks the diode 21 for all negative voltage peaks that less than the battery voltage of z. B. 230 V are. As a result of the return voltage peaks, voltage pulses are induced in the winding 22 and with it the amount by which its amplitude exceeds the battery voltage, rectified in the diode 21. Through this a negative voltage forms across the anode resistor 24 bridged by the capacitor 23 from, the size of which is proportional to the mentioned voltage difference and which is used as a bias over the resistor 10 is fed to the grid of the tube 6. Here, too, it is advantageous to use the resistor 24 - as shown - designed as a potentiometer to make the preload adjustable.

Claims (7)

Claims. 45 1. Circuit arrangement for generating a sawtooth-shaped current in an inductance, in the case of a voltage across a capacitor during the sawtooth trace Switch diode is connected to the inductance and during the sawtooth return with blocked Switch diode the inductance with the connected capacitances a free half oscillation performs, with a controlled driver tube connected to the inductance, preferably a pentode to cover the energy losses of the circuit and to control the switch diode, characterized in that a DC voltage is derived from the voltage across the inductance, which the Driver tube is supplied as a bias in such a way that when the on the inductance standing voltage the mean current of the driver tube is increased, namely at most by such an amount that this tube can be used even with signs of aging or Scattering of the tube data is not controlled in the power transfer area. 2. Circuit arrangement according to claim 1, characterized in that the inductance is through a transformer (3) is shown, to the except for the driver tube (6) and via the Switch diode (2) connected capacitor (1) the deflection coils (4) and a high voltage rectifier (7) a television receiver are connected, and that for deriving the bias voltage the driver tube (6) a diode (13 or 21) is provided which is connected to a partial winding of the transformer (3) is connected and as a peak rectifier for that part of the winding standing return impulse acts. 3. Circuit arrangement according to claim 2, characterized in that the control voltage diode such a bias against the flyback pulses blocking is given that only one part of the flyback pulses for generating the control voltage that exceeds this reverse voltage is exploited. 4. Circuit arrangement according to claim 2, characterized in that the anode of the diode (13) preferably via a capacitive voltage divider (11, 12) to a positive return pulse leading tapping point (C) of the transformer (3) connected as an autotransformer is (Fig. 1). 5. Circuit arrangement according to claim 2, characterized in that the cathode of the diode (21) is connected to a negative flyback pulse leading point of the transformer (3) (Fig. 2). 6. Circuit arrangement according to claim 4 or 5, characterized in that the bias of the Driver tube at a variable tap point between the anode of the rectifier (13 or 21) and earth switched on potentiometer (14 or 24) is removed. 7. Circuit arrangement according to claim 3 and 5, characterized in that the cathode of the Diode (21) with one terminal of a winding (22) of the transformer (3) is connected, the other terminal of which is connected to a positive DC voltage source, in particular the anode voltage source (8) connected to the circuit (Fig. 2). Considered publications:
Austrian patent specification No. 172 289. 1 sheet of drawings © 709 590/285 7.5T