DE2329898A1 - TELEVISION RECEIVER - Google Patents

Description

The invention relates to a television receiver or a similar device, with a picture tube, the a video signal is supplied, and with a control circuit for automatically setting the "cut-off" point of an electron beam in of the picture tube, in particular color television receivers with individual adjustment means for each of the electron guns in the Picture tube, the control loop having means for periodic sampling of the cathode current of the electron gun at a grid bias which corresponds to the desired "cut-off" point, and means for automatically adjusting or correcting the preload in such a way that the difference the bias voltage between the cathode and the grid system in the negative direction is changed the more the higher the scanned Current until the cathode current is fully

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is constantly or almost completely suppressed, as well as with means that the corrected or set preload in essentially maintained until the beginning of the next adjustment period,

As is well known, the electron gun in a picture tube has a hot cathode, around which a lot of free electrons which are attracted by a positive anode, which is closer to the screen of the picture tube, thereby making them the Include the cathode in a current that hits the inside of the screen, causing it to light up. By special electrodes, the electron beam is made thin and concentrated so that it strikes the fluorescent screen point by point. Deflection means inside or outside the neck of the picture tube cause a continuous deflection of the beam, see above that the bright pixel moves e.g. in a cell-shaped pattern on the screen and so repeats very quickly over the entire screen is deflected. To reproduce an image on the screen, the light intensity of the image point must be on the The screen can be changed, and this is done by a control grid that surrounds the electron beam between the cathode and the anode is attached and is fed with a negative electrical potential of varying magnitude, whereby the The intensity of the electron beam changes accordingly until the negative potential counteracts the attraction by the anode. In a television receiver, both the control grid position

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potential as well as the deflection is controlled by the signals received from the transmitter, e.g. video and synchronization signals, in such a way that the image on the screen is identical to the image seen by the TV camera.

Such a bias voltage is applied to the grid or electrode system of the picture tube that the electron beam is straight is prevented from getting to the screen when the video signal is "black" on the screen or in the pixel corresponds to »and this state is a" cut-off "state; or "cut-off" point. For a variety of reasons the "cut-off" bias does not remain constant during the lifetime of the receiver, and it may therefore be necessary to adjust them from time to time.

It is especially in color television receivers, in which the picture tube has an electron gun for each of the colors important, an exact. Maintain setting of the "cut-off" points, because in this respect the problem is not just about the precisely defined "black level" for the individual To create an electron gun, but even more so, to establish a correct mutual relationship between the intensities of the different electron beams. This mutual relationship must be correct if color distortion is to be avoided should be. For example, if the grid bias in the electron gun that generates the * red "electron beam is too low

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If it has become negative, the intensity of this ray is continuous less than it should be, and as a result the red color in the picture will be too little in proportion to that Intensity of the other colors. Such color distortion can not only be caused by a slow migration of the correct setting occur, rather it is also often observed at the beginning of the operating time of the receiver because the The correct setting can depend, for example, on the normal operating temperature of the receiver being reached.

Normally this grid bias is set by hand by setting a voltage divider, the between the voltage source and part of the grid system in each of the electron guns, the control voltage being the Grid is kept constant during the adjustment work for the control grid of all electron guns.

U.S. Patents 2,259,538 and 3,558,817 suggest how the adjustment can be achieved automatically described. In these known setting devices, a measurement or determination is made for each individual electron gun the cathode current, which corresponds to the current of the electron beam at times when the video signal is known and corresponds to the "Schwaratfert", i.e. during the short time intervals in which the electron beam moves from the end of one image line to the beginning of the next image line or the next image returns. If a cathode ray is found here, the

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exceeds a certain low value, this current causes a control circuit to make a negative-going change the bias voltage, thereby reducing the current to an acceptable level. The new bias is through maintain a time constant until the next adjustment period, so that in the meantime the electron gun or - Guns with a precisely defined "cut-off" point or with mutually correct "cut-off" points work as he does through the actual "black level" of the video signal is specified.

However, these known adjusting devices are not very advantageous because when the "cut-off" points are relative to the "Schwaw / ert" level of the video signal, the Adjustment range is relatively large, as the automatic adjustment can be effective for both high and low signal values target. Even more significant disadvantages are that it makes the video signal-controlled adjustment difficult, other or to use additional brightness control means, and that the adjustment against glitches in the received signal is sensitive. In addition, there is a disadvantage that when the cathode current is sampled during the return of the Electron beam or electron beams, the current, if one is present, appears as a trail of light on the screen and so the picture disturbs, at least in the dark districts.

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The invention is based on the object of a television receiver to create in which the automatic setting of the "cut-off" point or the "cut-off" points without these Naäiteile of the state of the art.

The object underlying the invention is achieved in that switching means are provided that the video signal disconnect from the grid voltage during the time intervals in which the cathode current is measured and during the At the same time, apply a predetermined bias voltage to the grid system.

In this proclamation it should be pointed out that the grid system typically has multiple grids or electrodes, i.e. at least one negative control electrode and one positive Has shield electrode, which results in various ways of applying the predetermined voltages to an electrode and apply the correction voltage to another electrode or to the cathode.

The inventive solution is based on the idea that it is for an automatic setting as well as for a Manual adjustment is not necessary, the correction is related to an actual "black level" of the video signal, because the "cut-off" point or the "cut-off" lines are also on the Can be defined or set based on a constant reference bias voltage between the cathode and the grid system, whereby the "cut-off" point is kept constant, since the loading

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Tensile bias a correction voltage is superimposed, which causes a suppression of the cathode current. With such a device it is also possible to set the "black level ^{11 of} the video signal relative to the" cut-off "point or the" cut-off "points by hand, ie to keep the normal brightness button.

According to another important feature of the invention, the adjustment can be made during time intervals immediately after The beginning of a new image occurs rather than during the return movements of the beam. Usually the first ones lie 2-4 lines of the picture outside the visible field of the picture tube, and a cathode current is generated during this settling time scanned, then it will not disturb the visible image in any way, although it has said lines or the first of which lights up.

The invention is explained in more detail below with the aid of an exemplary embodiment shown in the drawing. the The drawing is a block diagram of the parts of a color television receiver which are important for explaining the invention.

The drawing shows a picture tube 2 with an anode, which is not shown, and three electron guns 4, 6 and 8, each having a cathode 10, a control grid 12 and a shield electrode 14. To each of the shield electrodes 14 a suitable positive grid bias voltage is applied from an associated voltage regulated voltage divider 16.

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In operation, the control grids 12 receive individual video signals corresponding to the three primary colors, these being video signals come from a video amplifier 18 via an electrical switch 20, which will be described in more detail below. In in the same way, the cathodes 10 each receive currents via an electronic changeover switch 22, of which only one is shown is. The video amplifier 18 receives its input signals from a detector circuit 24, which the signal from the antenna in divides three video signals and two synchronization signals, one for a line deflection generator 26 for the horizontal Beam deflection and one for an image deflection generator 28 for the vertical deflection of the beams. From the image deflection generator 28, a control pulse is derived each time a new picture begins, and this pulse is passed into a control circuit 30, which operates the switches 20 and 22 for a short period of time at the beginning of each new image.

In this way, the switch 20 switches off the video signals from the control grids 12 and connects these control grids with a constant voltage source V. By means of the switch 22, the cathodes 10 are simultaneously connected to the respective current measuring circuits 32 connected, which produce an output voltage that changes with the intensity of the cathode current. This output voltage reaches a comparator 34, to which a normal voltage is also applied, from the constant voltage source V is removed. The comparator 34 generates an output

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output voltage used as the control voltage for the voltage divider 16 serves to the shield electrode 14 in the respective electron gun heard.

The current measuring circuit 32, the comparator 34 and the voltage divider 16 are designed so that a noticeable cathode current by the current measuring circuit 32 leads to a reduced positive bias on the shield electrode 14 in such a way that the cathode current is thereby reduced to a value close to zero, i.e. until the "cut-off" situation is reached. In the comparator or the voltage divider contains a time constant with the aid of which the set bias voltage up to is maintained for the next adjustment period.

Since the voltage dividers are set for each new picture, the three electron guns are always identical "cut-off" points, i.e. that correct color relationships are ensured from precisely the beginning of the operating time of the receiver are. The control circuit 30 is preferably designed so that it holds the changeover switches 20 and 22 in their set positions for a period of time holds while the electron beam moves over the first 2-4 lines of each new image; these a few lines are normally outside the visible range of the picture tube, so that a possible cathode current too The beginning of the adjustment period does not lead to any impairment of the visible image. This is an essential feature that generally in connection with an automatic setting.

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is part, but on the other hand the invention is not limited to the adjustment during this particular Time interval takes place. The time span in question can also be in the last line or in the last few lines of the image if they are outside the visible image area. The setting circles can be activated depending on this the vertical deflection voltage reaches its final value at the end of the picture.

According to a preferred embodiment of the invention takes place the setting by the fact that the measured cathode current the cathode voltage is increased while the screen electrode voltage is kept constant and the control grid in the previously described manner Way is applied with a fixed voltage. A simple arrangement can be used in which the Cathode current during the measurement period for charging a capacitor serves, the voltage of which increases thereby and causes the voltage at the cathode to increase until the voltage difference between the control grid and the cathode becomes sufficiently large to suppress the cathode current. While the following period, during which the electron beams write the visible images on the screen, is used by the capacitor to maintain uncorrected cathode voltages and thus the corrected "cut-off" points. This arrangement can be built from the capacitor and a few transistors, diodes and resistors, but it is for that

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Understanding the invention does not require this circuit to be described in more detail at this point.

As described, the setting of the "cut-off" point take place simultaneously for all electron guns, but the electron guns can also be set sequentially whereby parts of the setting circles can be common to the various electron guns.

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Claims (3)

Claims Television receiver or a similar device, with a picture tube to which a video signal is fed, and with a control circuit for the automatic setting of the "cut-off" point of an electron beam in the picture tube, in particular a color television receiver with individual setting means for each of the electron guns in the picture tube, the control circuit comprising means for periodically sampling the cathode current of the electron gun at a grid bias corresponding to the desired "cut-off" point, and means for automatically adjusting or correcting the bias in such a way that the difference in bias between the cathode and the grid system is changed in the negative direction the more the higher the current intensity is scanned, until the cathode current is thereby completely or almost completely suppressed, as well as with means that the thus corrected or set bias essentially until the beginning of the next setting period maintained, characterized in that switching means are provided which switch off the video signal \ on the grid voltage during the time intervals in which the cathode current is measured, and which apply a predetermined bias voltage to the grid system during the same time. -13- 309881/0915 2. Television receiver according to claim 1, characterized in / that the switching means are actuated during time intervals in which the electron beam is directed to areas of the picture tube outside of its visible range. 3. Television receiver according to claim 1, characterized in that the means for changing the grid bias relative to the cathode are formed by means which increase the cathode voltage without changing the voltage in the grid system. 309881/0915 Blank page