DE1915188B2 - CIRCUIT ARRANGEMENT FOR IMAGE SIZE STABILIZATION IN CASE OF FLUCTUATIONS IN THE ELECTRON BEAM LEVEL IN A CATHODE BEAM TUBE - Google Patents

Description

scaled down. This has the consequence that the deflection currents are lower and that the longer influence time of Deflection magnetic fields is compensated for by a lower magnetic field strength. That leaves the Image size stable.

In itself it is in the German Offenlegungsschrift 1914295 and 1921321 already proposed wordea, a change in the deflection current via a change in the supply voltage of a deflection circuit bring about. But this should be done for the purpose of high voltage stabilization in the event that the high voltage is obtained from the deflection pulses.

In practice, the supply voltage of the deflection circuits is via a control loop with a Reference voltage kept stable. Eme practical embodiment of the invention is that the electron beam current ah> in such a control loop controlling disturbance variable is applied. In FIG. 1 of the drawing is a schematic diagram such a controlled scheme shown. After that, 1 is the supply voltage as the controlled variable which is influenced as a measured variable by the electron beam current intensity 2 acting as a disturbance variable and is compared with a reference voltage 3 as a reference variable. This results a manipulated variable 4, which regulates the supply savings 1 via a controlled system 5. The supply voltage 1 is thus "regulated in a controlled manner".

A circuit arrangement constructed according to this principle is shown in FIG. 2 of the drawing. It has an input with unregulated and uncontrolled supply voltage and an output, which carries the regulated supply voltage for the electron beam deflection circuits. Respectively one pole of the input and output is grounded. The other two poles are about that Collector-emitter path of a transistor 6 connected to one another, the collector at the input the circuit arrangement lies. The collector of transistor 6 is connected to the collector of a transistor ?, the base of transistor 6 to the emitter of transistor 7, and the collector of transistor? via an ohmic resistor with the Base of the transistor? tied together. At the base of the transistor? also lies the collector of one Transistor 9, the emitter of which is connected to ground via a Zener diode 10 and via an ohmic resistor 11 leads to the pole of the output facing away from the ground and its base on the one hand with the center tap an ohmic voltage divider 13 is connected to the series-connected ohmic Resistors 12 and 14 apply part of the output voltage to the base of transistor 9, on the other hand is connected to the collector of a transistor 16 via a diode 15. The emitter of this Transistor 16 leads via an ohmic resistor 17, the base via the parallel connection of a Potentiometer 18 and a capacitor 19 to the pole facing away from ground of the output of Circuit arrangement. The collector of the transistor 16 is connected via an ohmic resistor 20 Dimensions. The base of transistor 16 is in series through a high voltage winding 21 and through one switched high-voltage rectifier 22 with a high voltage of the cathode ray tube

ίο leading pole 23 connected.

, The transistors 6 and 7 are connected together in the known Darlington circuit and are used as an adjustable series resistance between the input and output of the circuit arrangement. Some

This series resistance is established by the collector current of the transistor 9. This transistor 9 is then conductive when the potential at the base is due to the breakdown voltage of the Zener diode 10 and determined by the threshold value of the emitter-base diode Exceeds threshold. The potential at the base of transistor 9 is created by two voltages: a voltage which is at the center tap of the voltage divider 13 and a voltage which from the collector current of transistor 16 to the

as resistor 20 is generated. The transistor 16 is activated by the voltage at the potentiometer 18. When the output voltage is increased, the base of transistor 9 becomes more positive and the base of transistor? more negative, since the voltage at the center tap of the voltage divider 13 increases. This increases the adjustable series resistance (transistor 6) so that the output voltage drops again.
The end of the high-voltage winding 21 which is connected to ground without a control circuit is connected via the potentiometer 18 to the pole of the output facing away from ground. The electron beam current thus flows through the potentiometer 18 and there generates a voltage which controls the transistor 16.

The collector current triggered by this generates a voltage across resistor 20 that is equal to that of the Output voltage generated voltage is rectified and also controls transistor 9. The condenser 13 serves to integrate the fluctuations in the electron beam current. If the electron beam current increases, then the transistor 9 becomes more conductive in the same way as when the output voltage would increase. Thus, an increasing electron beam current has the effect of the following regulation, that the supply voltage of the deflection circuits drops. That in turn causes a Reduce the deflection currents and thus the magnetic deflection field strengths. This will be correct Setting or re-dimensioning that occurs when the electron beam current increases A drop in the high voltage that caused the enlargement of the image is compensated.

1 sheet of drawings

Claims (2)

1 2 electronic switch is in this 3 case of a combined patent claims: ned line deflection and high saving generated by the line end tube or by 1. Circuit arrangement for image size stabilization ^ n line end transistor. 5 The electron beam current of a picture tube is Amperage in a cathode ray tube, in particular subject to fluctuations caused by the in the special of a television picture tube, which causes fluctuating picture information in dependence on brightness of the electron beam current that will be. But that means a fluctuating low Line deflection circuit is controlled in such a way that ohmic loading of the high-impedance high-voltage the line deflection speed with an increasing electrical source, so that the high voltage increases to the same extent electron beam current decreases, thereby fluctuating. With increasing electron beam current indicates that the image size decreases as a result of the high voltage. This will make the is kept constant that iq dependence on electron beam current is slower. This has the consequence the electron beam current strength also the BiSd- that the deflecting magnetic fields the electron beam deflection circuit is controlled in the same way 15 longer can influence and that the and that the control of both deflection circuits image increases. The image size is therefore variable via their supply voltages. subject to changes that differ from the image information 2. Circuit arrangement according to claim 1, hung. These fluctuations can be counteracted by an input with uncontrolled, that the deflection magnetic fields ter and uncontrolled supply voltage and ao with increasing electron beam current is weakened by an output that is regulated and unregulated and vice versa. In principle, the controlled supply voltage for the German Auslegeschrift \ 274 629 is known, for example.
Electron beam deflection circuits lead, furthermore, the present invention relates to tine switches in that the device arrangement turned away from the mass for image size stabilization at the pole of the input via the collector-emitter fluctuations in the electron beam current in the path of a transistor (6) with that of the mass of a cathode ray tube , in particular the pole of the output facing away from the television picture is connected to that tube, whereby depending on the electron of the collector of the transistor (6) with the KoI beam current intensity the line deflection circuit is lektor of a transistor (7), the base of the transistor is controlled that the line deflection current decreases at increasing gate (6) with the emitter of transistor (7) and 30 mendem electron beam current. the collector of the transistor (7) via a A method for image size stabilization is off Ohmic resistance (8) with the basis of the German patent 959 024 known. There- Transistor (7) is connected, the B.asis of the n? ^cn becomes, as on page 2, column 1, lines 54 to 58 Transistor (7) on the collector of a transistor (9,) executed cjieser German patent, not only whose emitter stabilizes the high voltage via a Z-Djpdp (10) ζμΓ 3s as usual, but Ground and an ohmic 'resistor (11)' which also ensures that the maximum current to the pole facing away from the mass of the output strength of the sowing generated by the deflection circuit and whose base remains constant with the mean tooth current. With this one achieves tapping an ohmic voltage divider (13), albeit with great effort, one of the connected with 40 series-connected fluctuations in the electron beam current ohmic resistors (12 and 13) a part gige image size. of the output voltage to the base of the transistor (16) the emitter of the transistor (16) 45 to indicate the beam current strength of a cathode ray tube, especially an ohmic resistor (17) and the special television picture tube, and to reduce the base to a minimum by connecting a potentiometer in parallel,
meters (18) and a capacitor (19) on the To solve this problem, the pole of the output facing away from the ground is proposed according to the invention that the image size is thereby kept constant and the collector of the transistor (16) 50 is kept constant as a function of which via an ohmic resistor (20) with the electron beam current intensity also the image deflection mass and the base of the transistor (16) is equally controlled via the circuit and that the high-voltage winding (21) and a high-voltage rectifier connected in control of both deflection circuits via their series supply voltages he follows. (22) with which the high voltage of the Katoden- ₅₅ is connected by the inventive solution, the Aufstrahlröhre leading pole (23). If there were, a path is taken that differs from the usual Image size stabilization method differs. There will be none of the image size in essence determining formants, the high voltage and 60 the deflection currents, stabilized, but a specific dependency of the two controlled so that The high voltage for a cathode ray tube, the end result, namely the image size, remains stable, especially for the picture tube of a television receiver Gers is generally made with the help of an electronic deflection circuit, for example in the event of a miss Switch and a pulse transformer increase the electron beam current, if so won. The impulses are, for example, caused by this low-resistance load on the high-resistance black and white television usually the line back high voltage source the high voltage drops running impulses from the horizontal deflection circuit. Which and the electron beam becomes slower as a result,