DE1139537B - Television receiver with a circuit arrangement for protecting the luminous layer of the cathode ray tube - Google Patents

Description

The invention relates to television sets in which the electron beam during operation is deflected by a fluorescent screen. To protect the luminescent screen in the event of a deflection failure destroyed by the point-like light spot or at least weakened in its luminosity it is known to reduce the intensity of the cathode ray if the deflection fails. For televisions where the high voltage for the cathode ray tube comes from the line deflection circuit is gained, it did not seem to be necessary up to now, additional funds for the reduction the beam intensity, since with the failure of the line deflection there is also no high voltage more is generated. However, protection of the picture tube may also be necessary if the whole device, e.g. B. is switched off at the end of transmission. This is due to the fact that in these devices the high voltage is obtained by rectifying a pulse voltage and already a small capacity is sufficient to filter out the pulse components still present after rectification, and that for this purpose mostly through the glass wall and the inside and outside on this applied conductive layers formed picture tube capacitance up to about 1000 pF used will. If such a device is switched off, the charge of this capacity flows in the most favorable case, d. H. in the case of a bright image, so far above the beam current that the still remaining charge increases is small to still cause a jet current in the tube. But if the device is dark or black image is switched off, it can happen that the remaining charge this capacitor is relatively large and because of the high-quality dielectric of the glass of the picture tube wall still exists for days. In this case, it can still be used long after it has been switched off of the device, a high voltage of over 10 kV can be applied to the tube. For tubes that are emissive for a long time after being switched off, after a certain time they become the Image brightness-determining electrode voltages decayed, and it continues depending on the arrangement the electrode systems a beam current, which allows the residual charge to flow off partially or completely. In In this case, due to the lack of deflection, an extremely low beam current can already be used Damage the luminescent layer of the cathode ray tube. In order to avoid this disadvantage, it has been customary to date to a control electrode of the picture tube, e.g. B. to the Wehnelt cylinder, a network with such a large

Television receiver

with a circuit arrangement for protecting the luminous layer of the cathode ray tube

Applicant:

Telefunken

Patentverwertungsgesellschaft mb H.,
Ulm / Danube, Elisabethenstr. 3

Paul Theisen, Hanover,
has been named as the inventor

Time constant to be connected so that there is a voltage on this electrode even after the device has been switched off persists for a long time. With a faster decaying cathode voltage, at which the time constant is given with galvanic coupling by the power supply unit, then flows after the decay Cathode voltage a current that eliminates the negative space charge on the cathode and thus despite the residual charge of the high voltage capacity prevents a jet current. However, this measure is then no longer possible if the emissivity of the cathode is maintained for a relatively long time and there is also a straight electrode system, as is the case with 110 ° deflection tubes.

In this case the time constant member would have to be made so large that the The electrode voltage would only change after a long time when the brightness setting was changed. It has therefore been proposed that when the device is switched off by an additional contact To unload picture tube coating. However, this measure fails if the device is operated without operating the Power switch is put out of operation. These disadvantages are avoided by the invention without that · an additional switch or a particularly large capacity is used. It is also suggested been, between those used to adjust the brightness of the displayed on the luminescent screen Image serving electrode and a circuit point in which a voltage generated in the device, in particular a voltage derived from the flyback transformer is present, on a capacitor

209 707/147

turn on holding time constant member, so that after the device has been switched off by different Discharge currents of the capacitor due to the different voltage sources reduce the potential at the The tube's cathode decays faster than the potential at the other electrode.

The invention has for its object to reduce some of the difficulties of this circuit, the caused by the capacitors of the proposed circuit.

The invention consists in that between a positive operating voltage and a different one Potential, in particular ground, an ohmic voltage divider is connected, whose tap with the positive operating voltage via a capacitor and with the control grid one in normal operation low-impedance amplifier tube is connected directly or via a resistor, and that in the Anode line of this amplifier tube is another voltage divider, one of which is connected to the for brightness adjustment serving electrode of the cathode ray tube is connected. This will achieved that after switching off the device without using a special negative voltage the beam current is increased again briefly.

To explain the invention in more detail, two exemplary embodiments are described below with reference to the Drawings described:

In Fig. 1, a cathode ray tube 1 is shown, high-resistance resistor 13 with a further high positive operating voltage, e.g. B. the booster voltage, connect to. This achieves that when the tube 8 is blocked, the voltage at the tap 6 increases even faster.

In Fig. 2, a modification of the circuit of FIG. 1 is shown in which the potentiometer 7 is not is connected in series with the tube 8, but is essentially parallel to this tube. At this

The figure is the control grid of the cathode ray tube 1 via a resistor 14 to the anode of the tube 8 connected, whose control grid is connected to the tap of a voltage divider 10, 11 as in FIG. In this circuit too, the tap 9 is connected to the operating voltage via a capacitor 12. The control grid of the cathode ray tube 1 is connected via a resistor 15 to regulate the brightness with the tap 6 of the potentiometer connected between the positive operating voltage and ground 7 connected. In this circuit, too, there is a voltage divider in the anode circuit of the tube 8 from the resistors 14 and 15 and partly from the one between the tap and the operating voltage lying part of the potentiometer 7 is formed.

In the circuit described so far, the control electrode is in the operating state Tube 1 a positive voltage, which is determined by the dimensioning of the voltage divider resistors 7, 14 and 15 as well as the internal resistance of the tube 8

the cathode of which is given by the anode of a video end 30. However, as soon as after switching off the

Tube 2 derived video signals 3 are fed to the value of the operating voltage according to a device

the. The anode, which falls on the control grid with the video-determined time constant, is via the

demodulator 4 connected video output tube 2 is the change of this operating voltage via capacitor 12

transfer a resistor 5 with a positive operating voltage to the control grid of the tube 8,

voltage + U _B connected by a not shown 35 whereby this tube is blocked or a relative

provided, the power pack included in the receiver receives high internal resistance. This shifts

will. The control grid, ie the Wehnelt cylinder of the cathode ray tube 1, is connected to the tap 6 of a potentiometer 7, one end of which is connected to a positive operating voltage, for example 4- U _B , and the other end to the anode of a triode 8 whose control grid is connected with the tap 9 of a voltage divider 10, 11 connected between a positive operating voltage, for example + Uβ, and ground. In addition to the resistor 10, the tap 9 is also connected to the positive operating voltage via a capacitor 12.

The circuit described so far has a bias voltage on the control grid of the cathode ray tube 1 in the normal operating state, which is determined by the voltage division of the potentiometer 7 and the extremely low-resistance triode 8 during operation by the positive grid bias voltage. When the device is switched off, the change in the positive operating voltage is transmitted to the control grid of the triode 8 via the capacitor 12 in such a way that it immediately receives a very large internal resistance. As a result, the tap 6 of the potentiometer 7 is briefly positive, since a slight drop in the operating voltage is sufficient to block the tube 8. However, the increase in the internal resistance of the triode 8 causes a greater increase in voltage for the tap 6 than the voltage drop in the operating voltage U _B for this tap 6. In order to increase this effect, it can also be useful to additionally increase the anode of the triode 8 via a relatively but the voltage at point 16 of the voltage divider 14, 15 by an amount that is greater than the drop in the positive operating voltage after switching off, so that the control grid of the cathode ray tube 1 briefly receives a more positive grid bias voltage increasing the beam current. The resistor 13 also fulfills the same purpose here as in FIG. 1.

The invention is not limited only to the use of a triode 8, but can also be used when the tube 8 is a multi-grid tube or another in the area high internal resistance controllable device

50 serves.

Claims (4)

PATENT CLAIMS: 1.TV receiver with a cathode ray tube, the working point of which is given by the anode voltage of the video output tube and the bias voltage used to adjust the image brightness, whereby a network is switched on between two connection points of different potential to protect the luminous layer of the cathode ray tube, from which a tapping point is switched off when the receiver is switched off its potential changes in such a way that the beam current in the cathode ray tube is maintained after the receiver has been switched off until the high-voltage source is discharged, characterized in that there is a difference between a positive operating voltage and a of the potential, in particular ground, an ohmic voltage divider (10, 11) with a tap (9) is connected, which is connected to the positive operating voltage via a capacitor (12) and with the Control grid of an amplifier tube (8), which is relatively low-resistance in normal operation, directly or via a resistor is connected, and that in the anode line of this amplifier tube (8) another Voltage divider (7 or 14, 15, 7) is located, from which a tap (6 or 16) with the for brightness adjustment serving electrode of the cathode ray tube (1) is connected. 2. Television receiver according to claim 1, characterized in that the anode of the amplifier tube (8) additionally with a high positive operating voltage, e.g. B. the booster voltage, is connected via a relatively high resistance (13). 3. Television receiver according to claim 1 and 2, characterized in that the further voltage divider is the potentiometer (7) used for brightness control. 4. Television receiver according to claim 1 and 2, characterized in that the further voltage divider contains the potentiometer (7) used for brightness control. Considered publications:
German patent application N 5052 VIII a / 21 a ¹ (published on July 8, 1954); German exposition E 7179 Villa / 21a ¹ (published on July 26, 1956). 1 sheet of drawings