DE2703093A1 - COLOR TELEVISION TUBE - Google Patents

Description

PHN 862 * »

Goot / Va / RJ

7.1.77

N.V FKi.:, V o <

"Color television picture tube".

The invention relates to a color television picture tube contained in an evacuated one Enclosure an electrode system for generating at least two electron beams; a screen, which consists of a multitude of areas that light up in different colors on an inner Wall part of the envelope are attached, which forms the front glass; an electrical resistance layer on an inner wall part of the enclosure that is between the electrode system and the screen lies, and color selection agent with a variety of

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PHN 862 * 1 7.1.77

Openings through which each electron beam is assigned a specific color to illuminating areas, these color selection means being at a defined distance from the screen in the tube and being electrically connected to the said resistance layer by means of at least one metal contact spring which is pressed against the wall part provided with the resistance layer the tube presses.
To generate an electron beam in a picture display tube, the electrodes of the electrode system mounted in the tube are usually operated at very different voltages. Voltage differences of 20 kV between electrodes located a short distance from one another are very common, particularly in the case of color picture tubes. With voltage differences of this kind, electrical flashovers can occur between the electrodes which, if no special measures are taken, are paired with currents which increase very rapidly over time and rise to values of 500 A and higher. Via inductive or capacitive couplings, these currents can seriously damage certain parts, in particular semiconductor parts, in the electronic circuit of the television receiver, as well as the electrode system

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itself can be harmed.

In British Patent!. §§6.728 a television picture tube is described, which to limit the harmful effects of such electrical flashover is provided with a resistive layer on an inner wall part the tube envelope is attached. Although related to such a resistive layer on securing the electronic circuit of the television receiver favorable results can be achieved it turns out that the application of this layer in other respects is not entirely is problem-free. In particular, there are problems associated with the fact that a switched on Television receiver is a source of interference for a radio receiver arranged in its vicinity which is tuned to a transmitter in the long or medium wavelength range. These Much interference comes from the video signal. When operating the picture tube, the Screen scanned with electron beams modulated according to the video signal. Part of this Rays reached through the openings in the color selection means the screen, while the non-transmitted part of the rays hit the color selection means himself falls. The electrical potential

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the color selection means and the screen thereby fluctuate according to the amplitude of the video signal. These fluctuations are emitted from the screen as interference radiation.

It is an object of the invention to provide a color television picture tube with an inner resistive layer to create in which measures to reduce the above-mentioned interference radiation are taken are.

To solve this problem is in a color television picture tube of the type mentioned According to the invention, the contact spring is electrically connected to the resistive layer via one on the resistive layer attached contact surface connected, which is made of a material with one of the material of the Resistive layer exceeding electrical conductivity exists.

The invention is based on the knowledge resulting from investigations that the the radiation emitted by the tube is lower, depending on the electrical connection path between the color selection means and the resistance layer forms a lower electrical resistance. For tubes with an inner resistance layer ^ this resistance is essentially due to the contact resistance between the contact spring and

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PHN 8624

7- 7.1.77

the WJd first layer is determined. This contact resistance can be attributed to the fact that the resistance layer consists of a mixture of particles that are good electrically conductive and particles that are poorly electrically conductive. The contact resistance is higher, depending on whether a smaller number of electrically conductive particles of the resistance layer is in contact with the contact spring. By using the invention, the effective contact surface between the resistance layer and the contact spring is increased, whereby a reduction in the contact resistance is obtained. In a practical example, in which the resistance layer had a resistance of about 1000 JtI per square, a contact resistance of about 5000 Xi was obtained without using the invention. measured. After attaching a low-resistance contact surface to the resistance layer with a

2
With a size of about 5 cm and a resistance of about 25 .Q per square, it turned out that the contact resistance was reduced by a factor of about 100. This resulted in a reduction in the level of interference radiation by about 10 dB. The expression "low resistance" is to be understood as meaning that the electrical conductivity of the contact surface is as large as possible and preferably

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at least a factor of 20 greater than that of the Resistance layer is. Any tolerances with regard to the position of a contact spring are thereby that neutralizes the low-resistance contact surface

2 given an area of at least 5 cm will. A contact surface in the form of a strip of low-resistance material on the resistance layer has proven to be particularly cheap. Such a strip has due to its large The surface area has the advantage that a good electrical coupling between on the one hand the color selection means and the screen and, on the other hand, the condenser formed by the inner coating the tube (the resistive layer) and the

.15 usual with the chassis of the television receiver

connected on the outside of the tube attached low-resistance coating is formed. If more than one contact spring is used, form the contact surfaces belonging to these springs Whole with the above strip. The strip and the contact surfaces can consist of the same are made of low-resistance material, so that they are attached to the tube wall in a single processing can be.

The invention is exemplified below explained in more detail with reference to the drawing. It

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demonstrate:

Fig. 1 shows in section a color television picture tube according to the invention,

FIG. 2 shows the cone shown in FIG. 2, provided with an inner resistance layer Tube, and

FIG. 3 shows a possible fastening of a gas binding device in a picture tube according to FIG. 1.

The tube shown in a horizontal section in FIG. 1 contains a glass envelope which consists of a front glass 1, a cone 2 and a neck 3. In the neck 3 is the electrode system k ^ with three electron guns for generating three electron beams 5 »6 and

7. The electron beams are generated in a plane (here the plane of the drawing) and are on directed on the inside of the front glass 3 screen 8, which consists of a A multitude of aluminum-coated fluorescent strips that light up in red, green and blue whose longitudinal direction to the plane through the electron gun (here the plane of the drawing) is perpendicular. On their way to the screen 8, the electron beams 5, 6 and 7 become coaxial by means of a number ■ »

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deflection coils 9 arranged around the tube axis are deflected over the screen 8 and pass a color selection electrode .TO, which consists of a metal plate with elongated openings 11, the longitudinal direction of which is parallel to the fluorescent strips of the screen 8. The three electron beams 5, 6 and 7 pass through the openings 11 at a small angle to one another and consequently only strike each fluorescent strip of a certain color. The tube also contains an inner resistance layer 12 and a highly conductive layer 13 attached to the outside of the cone. The resistance layer 12 has a thickness of about 10 μm and consists of 1 part by weight of graphite powder, 6 to 10 parts by weight of iron oxide powder (Fe _? 0 ) and 1.5 to 3 parts by weight of an inorganic binder such as potassium or sodium silicate. The resistance layer 3 2 · is connected to a high-voltage contact lh made in the tube wall. The color selection electrode 10 is connected to the screen 8 by means of a number of contact springs 15. A metallic shielding cone 16 is connected on the one hand to the color selection electrode and on the other hand to the resistance layer 12 by means of two contact springs tf. When the tube is in operation, the layer 23 is at a

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drive potential of about 25 kV and layer 13 to earth potential, because this is connected to the chassis of the receiver. Layers 12 and 13 together with the interposed glass of the cone 2 as a dielectric, form a capacitor, which acts as a smoothing capacitor is used for high voltage. This capacitor discharges when in the electrode system J ^ an electrical flashover between e.g. one electrode 18 and one in less Removal of this electrode lying electrode 19 occurs. The one at this discharge Occurring current surge is but in its size through the resistance layer 12, namely in essentially through the transition from the neck to the cone and in the neck extending portion thereof. The one through the resistive layer formed resistance is under dynamic conditions, i.e. during the above-mentioned electrical Rollover, generally lower than under static conditions. Under the expression "Static conditions" is to be understood here as the resistance, which is the quotient of a voltage difference of a few tens of volts applied across the resistive layer and according to the resistance layer flowing through

Current is defined. For the 1

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PHN 8624 ti 7.1.77

Composition of the layer, the dynamic resistance is around 500 -TX and the static resistance is around 2000 Ώ. .

The use of a resistive layer reduces the filtering effect of the tube in relation to it on the interference radiation emitted by it. In this context, it turns out that the contact resistance between the contact springs 17 and the resistive layer 12 is of particular importance, in the sense that the amount of interfering radiation is less, depending on whether this transition resistance is lower. To a low one To get contact resistance is at the point where the contact springs 17 against the tube wall press, a low-resistance contact surface in the form of a strip 20 on the resistance layer 12 appropriate. This strip 20 consists of a low-resistance material of the composition 60 - 90 parts by weight of graphite and 10 - 40 parts by weight an inorganic binder such as potassium or sodium silicate. Such a material can be applied in the form of an aqueous suspension with a brush. Instead of this material however, other highly conductive materials such as aluminum can also be used. The stripe 20 has a width of about 5 cm and forms

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as shown in Fig. 2, a closed ring on the inner surface of the cone 2. With a Such a ring is also a good electrical coupling due to its large contact surface between on the one hand the color selection electrode 10 and the screen 8 and on the other hand the capacitor obtained, which is formed by the resistive layer 12 and the outer layer 13.

As is known, after evacuating the tube, a layer of a gas-binding material, e.g. barium, strontium, calcium or magnesium, deposited on the tube wall to get inside the tube to bind remaining residual gases. In the usual picture tube is the holder from which this gas-binding material is triggered by heating, either directly or by means of a Metal strip connected to the electrode system. This common fastening method can be found in a picture tube according to the invention can not be used because a part of the gas-binding metal then deposited on the resistance layer 12 at the point of the neck and at the neck-cone transition would be, whereby the resistive layer is short-circuited. Furthermore, in the case of an electrical see flashover glide sparks along the fastening strip of the holder. An example

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2703033

- YZ -

A ₁ , PHN 8624

^M 7.1.77

a possible fastening of the getter holder, in which these problems are avoided, is shown in Fig. This getter holder 30 is shown therein with the aid of a fastening strip 31 on the high-voltage connection 14 attached.

In this way it is achieved that the gas-binding material is not on the neck and the Neck-coneT-transition, but on the large part of the cone 2 is knocked down. By short-circuiting the resistance layer on it The aforementioned filter effect of the tube is improved, while the dynamic resistance the layer 12 is thereby almost unaffected during an electrical flashover will.

The invention is not limited to tubes with an inner metal shielding cone. The invention can also be used for tubes without a metal shielding cone or for tubes with a outer metal shielding cone can be used. In these cases the contact springs are 17 e.g. attached directly to the frame of the color selection electrode 10 and are the low-resistance contact surfaces or the strip 30 is closer to the screen than shown in FIG.

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Claims (1)

PHN 8624 2703633 Claims ; 1. Color television picture tube contained in an evacuated one Enclosure an electrode system for generating at least two electron beams; a screen, which consists of a multitude of areas that light up in different colors and that appear on attached to an inner wall portion of the enclosure which forms the front glass; an electric Resistive layer on an inner wall part of the envelope between the electrode system and the screen, and color selection means with a multitude of openings through which each electron beam Luminous areas of a certain color is assigned, this color selection means at a defined distance from the screen in the tube and electrically connected to the named resistance layer are connected by means of a metal contact spring, which against the with the resistance layer provided wall part of the tube, characterized in that the contact spring is electrically connected to the resistive layer via one attached to the resistive layer Contact surface is connected, which is made of a material with a that of the material of the There is electrical conductivity exceeding the resistance layer, 809824/0524 ORIGINAL INSPECTED PHN 8624 7.1.77 2. color television picture tube according to claim 1, characterized characterized in that the contact surface is a 2
Has a size of at least 5 cm. 3 · color television picture tube according to claim 1 or 2, characterized in that the contact surface consists of a strip of low-resistance material . H. Color television picture tube according to Claim 3 »characterized in that the strip forms a closed ring. 5. Color television picture tube according to claim 3 or k, in which the color selection means are connected to the resistive layer via at least two contact springs, characterized in that the contact springs are connected to the resistive layer via a strip of low-resistance material attached to the resistive layer. 6. Color television picture tube according to one of the preceding claims, characterized in that the resistance layer consists essentially of 1 part by weight of graphite powder, 6 to 10 parts by weight of iron oxide powder (Fe ~ O) and 1.5 to 3 parts by weight of alkali metal silicate, while the contact surface consists essentially of 60 to 90 parts by weight of graphite and 10 to ko parts by weight of alkali metal silicate. 809824/0524