DE680825C - Braun tube with a flat fluorescent screen - Google Patents

Description

Braun tube with a flat fluorescent screen If the cathode ray is a Braun's tube is deflected, the image point does not remain at all deflections of the beam sharp because of the distance. of the various pixels on the plane Fluorescent screen is different from the cathode. So it occurs with larger ones Deflection exZ blurring, especially when watching television with a very high number of pixels are very annoying. The distance between the individual pixels differs particularly strongly on the flat screen from the cathode when the screen is tilted.

According to the invention, this problem is eliminated by the fact that the luminescent screen is designed as a resistive layer and a voltage drop is applied to it that is so high that it eliminates the pixel sharpness caused by the deflection of the cathode ray.

In Fig. Z is an embodiment with an inclined umbrella shown. A voltage drop appears on the screen to remove the blurring of the image generated between parallel equipotential electrodes E1, E2. The screen is made for this purpose from resistance material W, which. to the opposite. edge is set in metal. A direct voltage B is applied to these electrodes E'1, E'2. The rest of the circuit is the usual one for Braun tubes and will be needed in the following not to be explained. The resistance material of the fluorescent screen can z. B. be made by sputtering. Depending on the location of the resistor material, on which the pixel is located, a certain voltage, which is dependent on the position, is generated of the battery B is added to the existing accelerating voltage, so that a certain part of the voltage drop caused by the battery B across W to the acceleration voltage supplied by battery A.

If the screen is not at an angle, the circularly symmetrical Image errors are also eliminated. The arrangement must then be circularly symmetrical its only the same center of symmetry as the image defect. You can in a similar way, as described above, but the arrangement as shown in Fig. 2 indicated eats to be circularly symmetrical. The negative pole of battery B is therefore at an electrode E'3 in the center of the one made of resistance material circular screen, while the other pole of the battery with a xing-shaped, at the Perimeter of the screen attached equipotential electrode E4 is connected. The on The voltage drop generated by the resistor material is therefore radial.

In all cases, the conductivity any potential distributions on the various zones of the screen the screen. It can. at the same time others from Ablenl, # vinkeln dependent image errors are compensated. For example, you can still accelerate between the screen and the preceding accelerating electrode, in particular in the vicinity of the deflection system, make the same for large ones Divergence angle have a desired course.

In all cases where resistor material is used, is to note; That is, the resistance of the faceplate between the closure points is so small that. there is no voltage drop due to the outflowing beam current, which changes the field lines in an undesired way. For example, the common low voltage tube constructions of the through the The voltage drop on the faceplate caused by the beam current should be less than 10 volts. Since with the usual tubes beam currents of about 10-4 Amp. Flow, this corresponds to Value of a resistance of 100,000 ohms, which, as already indicated, is easily generated by cathode sputtering or other deposition methods can be achieved.

Claims (1)

PATENT CLAIM: i. Braun tube with a flat fluorescent screen, at which a post-acceleration voltage is placed between the anode and the luminescent screen is, characterized in that the luminescent screen is designed as a resistive layer is and on him such a high compensation voltage generating a voltage drop in him is placed that the pixel blurring caused by the deflection of the cathode ray is eliminated. z. Braun tube according to claim i with oblique to the tube axis set luminescent screen, characterized in that the equalizing voltage between parallel and straight equipotential electrodes attached to the upper and lower edge of the screen is placed, namely the negative pole of the voltage source to the deflection system next electrode. 3. Braun's tube according to claim i, characterized in that that with a circular luminescent screen the negative pole of the equalizing voltage is at, one electrode located in the center of the screen and the other pole the equipot delimiting the screen: ntialelectrode is placed. q .. Braun tube according to claim i to 3, characterized in that the voltage drop across the Resistance of the fluorescent screen is not linear.