DE1462900A1 - Circuit arrangement for limiting the beam current of an electron beam tube - Google Patents

Description

('Circuit arrangement for limiting the beam current of a metal electron beam tube " The invention relates to a circuit arrangement for limiting the jet flow a cathode ray tube, in particular a Parbfernsehröhre, with at least two jet systems. The task here is to prevent that of everyone Beam systems combined electron current exceeds a given limit. For example, the hecha voltage generator for the picture tube is in a Parb television receiver with normal bright images loaded to the limit of its performance, and when the limit value is exceeded, the high voltage breaks down, the stabilization no longer works properly and there are severe image errors due to defocusing and cessation of convergence, with further strong distortion of the raster can occur. A circuit arrangement is provided to avoid these disadvantages has been proposed in which between the signal source and cathode of the picture tube a, is preferably bridged by a capacitor, diode, with the blocked Diode current-carrying cathode branch of the picture tube one which reduces the signal amplification Control variable is taken. This circuit assumes, however, that with several beam . systems a branch leading the sum of the cathode currents is present, which in particular is not the case with separate cathode control.

With a circuit arrangement of the type mentioned above, a perfect beam current limitation even with separate cathode branches of the Beam systems achieve, if according to the invention one of the Hoohsp; zungs anode current dependent portion containing control voltage via a threshold value circuit to the Cathode ray tube control signal, in particular the video signal, added from which the voltage for the automatic gain control is derived.

It should be noted that it is known per se to take a current-dependent control voltage from the high-voltage anode circuit of a television picture tube and to supply this to the high-voltage generator in the sense of increasing the high-voltage power and thus reducing the internal resistance of the high-voltage source; Such a stabilization circuit is possible regardless of any beam current limitation. In a circuit arrangement according to the invention, the beam current-dependent controlled variable, insofar as it exceeds a threshold value, is used to keep the mean or maximum current constant and further control of the picture tube is prevented by reducing the control signal. In two ways, the black level of the video signal is kept constant on the display device, so that the black of the image remains unchanged and disruptive effects on the image impression are kept low: - * - `~""The invention is explained in more detail below with reference to the drawing, for example, in which, if there is a risk of overload, the stabilizing control voltage is released according to Pig. 1 and P. by a non-conductive diode and, according to FIG. 3, by a current-conductive diode. In Fig. 1 is on the winding 1 of a transformer, preferably pulse-shaped, high alternation generated, from which by means of a diode 2 a high / DC voltage is formed, which is fed to a Ver br-aucher, which consists of a capacitor 3 and a variable depending on the load resistor 4, for example a Parbfernseh picture tube with at least two electron beam systems. The other end of the winding 1 is connected to earth via an RC element, which consists of the parallel connection of a capacitor 5 and a resistor 6, with a DC voltage source 7 also switched on if necessary can be. The resistor 6 can b mi @ usual Phrb = television picture tube that has a maximum anode current of 1.5 mA leads to be 100 kOhm, so that the voltage across the capacitor 5 changes by a maximum of 150 volts depending on the beam current. The absolute value of the voltage at the upper end of the resistor 6 with respect to earth @ can be set to a value suitable for the control of connected elements by means of the voltage source 7. At 8, a control voltage for the current-dependent stabilization of the generator feeding the transformer with the winding 1 can be taken.

A voltage divider is connected to the connection point of the capacitor 5 with the resistor 6, which is preferably high-resistance compared to the resistor 6, but can optionally also be formed by this resistor 6 itself, which is provided with a tap. The lower end of the voltage divider shown with the resistors. 9 and 10 is connected to a suitable potential point, preferably earth. The anode of a diode 11 is connected to the tap of the voltage divider s9,10, the cathode of which is connected to the tap of a further low-resistance voltage divider, which consists of a resistor 12 of 2.2 kOhm and a resistor 12 connected to a preferably positive potential point of ven, for example + 30 V, and a resistor 13 connected to earth is 1 kOhm.

A line 14 is also connected to the tap of the resistors 9 and 10 connected, via which the occurring voltage is fed to a switching point which carries the signal controlling the sheet metal tube, in particular the video signal and from this, possibly via at least one further amplifier stage, the voltage for the automatic gain control of the received signal. For this purpose, the newspaper 14 can use a smoothing capacitor connected to earth 16 of e.g. Z5 / uF attached to the base of an intermediate frequency resonance circuit to which the cathode of a video diode 18 (for demodulating the brightness signal) is connected, the opposite of the base of the capacitor 17 'in a n known Way is loaded with a charging capacitor 19 and a resistor 20. That so received signal from capacitor 19 is then the other amplifier channel, z, B. the base of a transistor 21 is supplied.

The voltage change occurring in the entire permissible jet current range at the capacitor 5 is through the voltage divider 9.10 to one for the relevant Regulation suitable value, e.g. in a ratio of 50: 1 to a maximum of 3 volts and by the voltage of the source 7 and the voltage of the resistor 10 connected Source to the desired output or rest value, preferably a low one positive or negative value, shifted. The voltage at the tap of the voltage divider 12,13 is set at least approximately to the value that at the Onset of the override control at the tap of the resistors 9 and 10 occurs. The internal resistance of the voltage at the tap of the divider 12, 13, which is at a low resistance Voltage source essentially through the parallel connection of these two resistors is formed, is preferably much smaller than the internal resistance of the voltage at the tap of the divider 9, and 10.

With low beam current and low beam current dependent voltage at the capacitor 5 would then result at the tap of the divider 9.10 in the absence of Diode 11 (interruption) a voltage that would be more positive than that at the tap of divisor 12.13. The switched-on diode 11 is then conductive, and on the newspaper 14 appears a voltage that is at least that of the tap of the divider 12, 13 is approximately the same. With beam currents in the permissible range, this is the voltage on the line. 14 practically constant, and the (regulated) amplification of the video signal is usually determined solely by its size, in particular as a result of the input signal and / or as a result of the contrast setting, conditional.

However, if the limit value of the beam current is reached, the Voltage at the tap of the divider 9,10 more negative or less positive than the voltage at the tap of the divider 12,13, so that the diode 11 is non-conductive and the divider 12.13 switches off from the newspaper 14. Then it is transmitted from the entire beam current conditional tension or. a dependent current on the control line 14 and reduced the amplitude of the input signal and according to the existing control slope so that the control of the television picture tube so far that the permissible total beam current the picture tube anode and thus the load on the high-voltage generator is not exceeded will. The diode 11 forms with the divider 12, 13 which supplies a fixed potential So .for the voltage supplied to the newspaper 14, a threshold value circuit that with a large jet stream over the newspaper 14 supplies a controlled variable, by which the signal is apparently increased in such a way that a reduction in the Signal amplification occurs.

FIG. 2 shows a circuit arrangement similar to that shown in FIG Principle and is very effective with great simplicity.

The resistor 6a is connected to the mains voltage of +240 volts, while the capacitor 5a of 10 / uF.ari is earthed. The voltage divider 9.10 FIG. 1 is replaced in FIG. 2 by a series resistor 9a of 1.8 kOhm; d1 e The diode is of the type 0A 81, and the voltage divider from the resistor 12 of 560 ohms and the resistor 13 of 270 ohms is at a voltage of + 30Volt. With small Beam current @ the diode 11 is conductive and the voltage of the control line 14 corresponds to those at the tap of the divider 12,13. When the voltage across the capacitor 5a is less becomes positive, it is transmitted to the newspaper 14 and regulates the signal down.

When the beam current rises suddenly, the capacitor 5a Charged approximately proportionally to the time and then the capacitor via the resistor 9a 16a of 25 / uF. This results in a delay for the use of the beam current limitation in such a way that a peak beam current of 8 mA can occur over a period of / ms, what is usually permissible; thereafter the Strahlstrorr limits in the required dimensions.

Since the voltage divider 12a, 13a has a relatively high internal resistance has such that through the current flowing through the line 14, in particular the base current of transistor 21, a change in the voltage at the tap of the divider 12a, 13a occurs, there may be a certain dependency of the black value of the picture content. This could be reduced by a precise black level control Time constant at the display tube can be compensated, if not other means should be used for stabilization, e.g. switching on another Emitter amplifier into the control line 14, through which the current load at the tap of the voltage divider 12a, 13a could be reduced accordingly.

FIG. 3 shows a circuit in which those in FIG. 1 and 2 correspond Parts are denoted by the same reference numerals' and in which the beam current-dependent size the first electrode of a diode 11a is supplied, whose second electrode is connected to a voltage divider 12a, 13a with a large internal resistance and which is non-conductive when the beam current is small, with the one after exceeding one Threshold value occurring control voltage of the second electrode of the diode! La, taken will.

The voltage from resistor 6 becomes the base of a transistor, e.g. an npn transistor 17, the collector of which is connected to one on the other grounded supply source of +30 volts is connected and in its emitter branch Resistor 18 of 10 kOhm is switched on. The transistor 17 acts as a Emitter amplifier; a occurs at its emitter. approximately corresponding to the base voltage Voltage, which, however, has a significantly lower internal resistance, e.g. in the Of the order of about 50 to 200 ohms. . This, voltage becomes the cathode a diode @ 1la, the anode of which is connected to the tap of a voltage divider en resistors 12a of 22 kOhm and 13a of 10 kOhm is connected. The internal resistance this voltage divider at its tap is larger, preferably substantially greater than the internal resistance of the voltage at the emitter of the transistor 17. The The voltage at the tap of the divider 12a, 13a corresponds approximately to that voltage which occurs at the risk of overloading the high voltage source at transistor 17. In the normal load range, the voltage across transistor 17 is less negative or more positive than at the tap of the divider 12a, 13a such that the diode 11a is non-conductive and a constant voltage is present on line 14, which controls the regulation the signal amplification practically not changed. If an overload is to be feared is, the voltage at the output of the transistor is so much more negative that the diode 11a becomes conductive and this voltage is transferred to the newspaper 14. As a result the greater internal resistance of TeJ.ers 12a, 13a then has a practical effect , no longer, on the voltage of the control line 14. The circuit for automatic Gain control of the signal controlling the picture tube then becomes a component added, which simulates an increase in the signal amplitude and so that a counter-regulation of the signal amplification triggers.

The signal then actually assumes a lower amplitude, see above that the desired lower modulation of the picture tube "occurs." Between the control line 14 and the diode 11, a resistor 15 can be switched on in FIG due to which in the range of normal beam currents one of the average image brightness dependent component is inserted into the signal control circuit, creating an approximately Desired improvement of the image reproduction properties in terms of a reduction the brightness of images with a high proportion of white and thus a gradual onset the beam current limitation (contrast compression) can be achieved. A similar Effect results in the circuit according to FIG. 1 when the voltage divider 12, 13 has a non-negligible low internal resistance, so that desgen Voltage somewhat dependent on the beam current, i.e. on the average image brightness is.

Because of the generally not indefinitely large number of rules the current limiter circuit according to the invention is dimensioning as a rule expediently dimensioned so that the limitation is a little below the maximum permissible average beam current, e.g. at 1.3 mA, begins, thus with a video signal with. With a strong white component, the total beam current does not exceed 1.5 mA.

The control time constant is essentially determined by a n the control line 14 connected smoothing capacitor 16 together with the next effective resistances, which are different in the normal range or when regulation begins Have values. This time constant, which is greater than that of the automatic gain control is, however, only works for the limiter circuit and has no influence on the Speed of the actual signal gain control. If any of the biases the circuit 1 and 2, possibly via voltage divider, to one with the high voltage contiguous Voltage, e.g. the booster voltage, is connected, can occur when the high voltage is running up also the threshold value for the regular use increase and thus the .current limitation shift to a higher value. If this is to be avoided, are additional markings for the stabilization of the pretension in question, e.g. by means of a voltage-dependent resistor, e.g. a YDR resistor, in required in a manner known per se.

Claims (5)

Claims: 1. Circuit arrangement for limiting the beam current a cathode ray tube, in particular a color television tube, with at least two beam systems, characterized in that one of the high-voltage anode current dependent part contained control voltage via a threshold value circuit to the Cathode ray tube control signal, in particular the video signal, added from which the voltage for the automatic gain control is derived. 2. Circuit arrangement according to claim 1, daw: rch characterized in that the black level of the video signal is kept at least approximately constant. 3. Circuit arrangement according to claim 1 or 2, characterized in that a Diode (11) is used, the second electrode of which is at a fixed potential and is conductive, if the beam current is less than the limit value to be set, but which is non-conductive is when the beam current has reached the limit value, where the, control voltage (14) from the first electrode is added to the signal. 4. Circuit arrangement according to claim 1 or 2, characterized in that the beam current-dependent variable a first electrode of a diode is fed, the second electrode on a Voltage divider with a large internal resistance is such that with a small beam current the diode is non-conductive, but when the limit value of the beam current is reached becomes conductive, the beam current-dependent voltage having an internal resistance, which is lower than the effective resistance at the other diode electrode in such a way that that the voltage is transferred from the second electrode to the first electrode and supplies the control voltage. 5. Circuit arrangement according to claim 'J to 4, characterized in that the portion containing the jet flow-dependent portion The controlled variable is fed to the diode via a stage that reduces the internal impedance, e.g. an emitter amplifier.