DE1762658A1 - Circuit for limiting the beam current of color picture tubes - Google Patents

Description

STANDARD ELECTRICAL LOREUZ AG. 1762658

Stuttgart-Zuffenhausen
Helium th-Hirth-Str. 41

SEL / Reg. 11 859
R. Deubert - 1

Circuit - to limit the st rahist; rom it of color picture tubes

The invention is concerned with a circuit for limiting the Beam current from color picture tubes.

It is known to limit the beam current of color picture tubes a circuit used - like that used by black and white devices is known - the one from a diode, a resistor and a capacitor existing network is formed, which is located in the supply line from the video amplifier to the kinescope cathode.

This circuit is particularly useful when driving the color picture tubes by means of the color signals red, green and blue the large ones

TO disadvantage that color distortions when responding to the beam current limitation cannot be avoided. But also with the control of the color picture tube by means of color difference signals must color distortions can be expected.

The object of the invention is therefore to provide a circuit create through which the beam current of the color picture tube is limited ■ without causing color distortions.

According to the invention, this is achieved in that the output DC voltage obtained from a video amplifier and fed back to it as a function of the beam current of the picture tube varies. This variation can be achieved in an advantageous manner that in addition to the direct voltage one of the beam current ' dependent component is added. It is considered appropriate to • place this component on one at the base of the high-voltage winding to decrease the resistance through which the jet current flows. It is also considered to be advantageous to add the component generated in this way to the DC voltage via an amplifier,

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. that only at a predetermined voltage value of the component appeals to. However, it can also be useful to obtain the DC voltage by means of gated rectification and this DC voltage with the amplitude of the probe pulse, which changes depending on the beam current, to be set. The variation the amplitude of the key pulse is expediently carried out obtained by means of a resistor through which the beam current flows at a resistor provided at the base of the high-voltage winding Voltage that, through an amplifier, that only applies to one predetermined voltage value of the voltage obtained in this way ans ^ ricl; - :, is fed to a pulse limiter.

The circuit according to the invention has the advantage that it enables ec the beam current of a color picture tube in simple 7 / e.ise to limit, without this limitation distorting the color be evoked.

Based on the exemplary embodiments of the accompanying drawings, the invention and further features and advantages thereof will now be described below explained.

The circuit part formed from the switching elements 1 to 18 of the embodiment of the Pig. 1 represents the structure known per se of a video amplifier. Although this circuit part is not the subject of the invention, it is intended in the following to the To increase understanding, be explained in more detail. The video amplifier receives the video signal in positive form at connection terminal 1 Polarity. Via the coupling capacitor 2, this signal controls a transistor 5, which is operated in the basic collector circuit. At the emitter resistor 6 of the transistor 5, the video signal appears in the same polarity as at the input terminal 1 and is used for Control of the actual amplifier transistor 8. The supply voltage for the transistor 5. is applied to the connection terminal '3 fed. The amplified video signal with negative polarity is produced at the collector resistor 7 of the transistor 8. The operating voltage for the transistor 8 is supplied to the connection terminal 4. However, in order to faithfully reproduce a color image, it is

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agile that at the cathodes of the picture tube 18 by the Capacitor coupling by means of capacitor 2 lost DC voltage value is restored. This is done in known way by means of the rectifier circuit and the sieve 5, chain, consisting of elements 11 to 17. Den on the picture tube cathodes The desired DC voltage value can be selected by means of a DC voltage supplied to the connection terminal 13.

To generate the beam current-dependent component, an HC combination with the resistor 22 and the capacitor 21 is provided at the base of the high-voltage winding 20 of the flyback transformer. A negative voltage arises at the resistor 22 when a beam current flows through the rectifier 19, high-voltage winding 20 and resistor 22. The DC voltage obtained in this way is filtered by means of resistor 23 and capacitor 24 and fed to the circuit of transistor 26. Via terminal 28 and the Y ^.; resistor 27, the emitter of transistor 26 is placed on a negative potential, so that transistor 26 remains conductive as long as the beam surge does not exceed the required 1.5 mA. If the beam current increases to above 1.5 eA, a voltage is set at the base of transistor 26 such that this transistor is blocked. Las potential at the collector of transistor 26, which is conductive when. -Trane is the same as the potential at terminal 25, it now rises and reaches the value of the DC operating voltage supplied via terminal 3c and resistor 25. As a result of this voltage rise at the collector of transistor 26, transistor 31 is switched to the conductive state. As a consequence of this, the entire operating track voltage applied to the connection point 36 drops across the collector resistor 29 of the transistor 31 and the collector potential almost reaches the hate potential. This is provided that the emitter resistor 32 is small compared to the collector resistor 29. The capacitor 30 in parallel with the resistor 29 also serves to filter the voltage thus generated. The voltage generated in this way is added to the DC voltage generated in the video amplifier via the resistor 33 at the base of the transistor 5. This additional voltage supplied via the resistor 33 is directed in such a way that the green luminance of the color picture tube

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BATH

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is reduced so that the maximum mean permissible beam current of the color picture tube of 1.5 mA is not exceeded. Via the resistors 34 and 35, the two can in the same way other video amplifiers required to control the color picture tube can be connected. With the size of the terminal 28 applied DC voltage, the starting point of the beam current limitation can be set.

In Figure 2, a further embodiment is shown in which the DC voltage obtained at the output of the video amplifier is generated by a gated rectification. The video amplifier with positions 1 to 18 works in the same way, as has already been described in connection with FIG. The keyed rectification, which here differs from what was described above is used, is carried out with the help of components 43 »44, 45, 46 and 51, 52. By means of the diode 44, the Sensing pulse supplied via terminal 52 and resistor 51 is limited to a predetermined amplitude. The diode 11a is also used in reverse polarity as the diode 11 in Figure 1. The generation of the beam current-dependent DC voltage is also carried out in the same way as in the exemplary embodiment shown in FIG. 1 with the aid of the components 19 to 24. The direct voltage thus generated arrives at the base of the transistor 37, the slitter of which is connected to the connection terminal by means of a 39 through the resistor 38 supplied negative voltage is biased so far that the transistor 37 is conductive is switched as long as the beam current of the color picture tube does not exceed the value of 1.5 mA. It is placed at the cathode of the diode 44 a voltage which is determined by the collector current through the transistor 37, which is supplied by the connection terminal 40 via the 7 / i resistors 41, 42, the transistor 37, the resistor 3ß flows to terminal 39. The capacitor 43 is used for sieving the tension. A reverse line transformer coming in front • The impact pulse is now transmitted via the small 52 and the resistor 51 fed to the anode of the diode 44. Its peak amplitude is by means of this diode 44 is limited to the potential at its cathode. If the beam current in the color picture tube now exceeds the

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SEL / Reg. 11 839 - 5 - '

permissible value of 1.5 mA, the transistor 37 is in the direction controlled smaller collector currents. As a result, the cathode potential at the diode 44 rises in the direction of the battery voltage at terminal 40 and the key pulse amplitude increases to the same extent. As a result of this greater touch. pulse amplitude also increases the DC voltage generated in the video amplifier and thus controls the color picture tube 18 to smaller ones Values of the basic luminance and thus lower beam currents. The capacitors 47 and 49 and the resistors 48 and 50 are used to connect the other two to control the Color picture tubes required video amplifiers.

Expectations

Bl. Drawing., 2 fig.

00983 8/0616

Claims (1)

SEL / Reg. 11 839 - 6 - Expectations 1. Circuit to limit the beam current of color picture tubes, characterized in that the output of a video amplifier and this: DC voltage supplied again in Depending on the beam current of the picture tube varies. 2. Circuit according to claim 1, characterized in that to this DC voltage a component dependent on the beam current is added. 3. A circuit according to claim 2, characterized in that this component is at one at or in the puss point of the high-voltage winding is removed from the resistance through which the jet current flows. 4. A circuit according to claim 3, characterized in that lie a ~. The component generated at the bottom of the high-voltage winding is added to the DC voltage via an amplifier, which is only activated at a predetermined voltage value of the component will. 5. A circuit according to claim 1, characterized in that the DC voltage is obtained by gauged rectification and varies with the amplitude of the probe pulse, which depends on varies from the beam current, changes. 6. Circuit according to claim 5, characterized in that the variation the amplitude of the key pulse by means of one on one at the puss point of the high-voltage winding provided by the resistance through which the beam current flows, the voltage is generated, via an amplifier, which only responds at a predetermined voltage value of the voltage obtained in this way, a key pulse limiter is supplied. 7/26/68
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