RU1812576C - Indicator based on cathode-ray tube - Google Patents

Description

The invention relates to the field of electronic engineering - to the design of electron beam devices (EBTs).

It is an object of the invention to provide the ability to change, during operation, the shape of an optimally focused spot on the screen.

This goal is achieved by 4to working holes in the electrodes of the beam forming system made axisymmetric, and the loudspeakers of the modulator are divided into at least two isolated hours ™, electrically connected to sources of different potentials. The edges of the holes in the modulator can be divided into equal parts, and can also be symmetrical about the longitudinal axis

..Eos ... :. ; /. -: ... : ...

One embodiment of the MELP according to the proposed invention is shown in Fig. 1. MELP contains a glass vacuum shell 1 with a flat end washer 2, on the inner surface of which a phosphor coating 3 is applied: an EOS, including a cathode 4 with an end surface, a modulator diaphragm, consisting of insulated parts 5 and b, an accelerating electrode 7. high voltage electrode 8. 8 modulator, accelerating and front end of the high voltage electrode made coaxial working holes. The high voltage electrode is electrically through a conductive

ate

S

"

the coating 9 on the inner surface of the shell is connected to the screen and through a high-voltage terminal 10 with a screen potential source. As the FS, a magnetic lens is used - a single-section coil

11. The beam is deflected along the surface of the screen by an electromagnetic OS

12. EBL works as follows.

Modular diaphragm embodiments are shown in FIG. One of the options - the quadrupole is shown in figa, where when applying the same potentials + U to the opposite parts 13 and 14 and also the same, but different in magnitude or polarity -U to the other parts 15 and 16 between the cathode and the accelerating electrode is formed the electric field of the object-forming system with quadrupole components, which forms a crossover object of a non-circular - elliptical shape. In this case, the emitting surface on the cathode has the shape of an ellipse 17. Sources .18, 19 for setting potentials on the parts of modulators 13-16 can be either constant or variable and pulsed. The magnitude of the beam current can be controlled by the power source of the cathode 20, the second end of which can be grounded. A circular crossover 21 formed in the object-forming system is displayed in a non-circular spot 22 on the CRT screen in the center. When the electron beam 23 is shifted from the axis of the EOS to the edge of the screen, the shape of the spot may change. To maintain the same size and shape of the spot on the edge as in the center, it is possible to apply a dynamic focus signal to the FS, and correct the astigmatism of the deflection by applying the corresponding dynamic correction signal to the isolated parts of the modulator. So the screen may be

the same non-circular spot is obtained on the surface of the screen. By supplying the appropriate signals to the modulator part, it is possible to obtain spots on the screen with the specified law of changing the shape of the screen. Well.

Naturally, applying the same potentials to the modulator parts, we get a round spot in the center of the screen; also round

spot over the entire surface of the screen can be obtained by applying the corresponding dynamic potential difference to the part of the modulator to correct astigmatism deviation.

In addition, potentials can be selected on parts 13-16 of the modulator in such a way that they are obtained relatively. a narrow emitting region with a large ratio of its length to width and thereby

resolution can be obtained in one of the scanning directions, usually in the lower case. . To confirm the operability of the present invention, vacuum MELP mock-ups were manufactured. Layout length 360 mm, screen diagonal 31 cm, inner diameter of the neck of the shell 25 mm. In the modulator, accelerating, focusing electrodes, coaxial axisymmetric holes with a diameter of 0.5 mm are made. The working edges of the aperture of the modulator are divided into 4 equal parts (step 90 °). The width of the groove between the parts of the modulator is 40 microns.

5 The main lens is bipotentially axisymmetric, formed by the second tubular end of the PV and the high-voltage electrode, in the form of a conductive coating on the inner surface of the neck of the shell. Operating mode - screen potentials - 20 kV; PV - 4.5 kV; the accelerating electrode is 800 V, with the shorted and grounded parts of the modulator, the cathode locking potential is positive 5 80 V. At the same time, a raster with an operating current of 150 µA with a spot of a round shape with a diameter of 150 µm at a level of 0.606 is displayed on the screen. When applying negative modulator to two opposite parts

At a potential of 20 V at the same operating current, a non-circular elongated spot with a size of 200 x 120 μm is again observed on the screen, again at a level of 0.5 of the maximum current density in the spot. At 30 V, a spot is obtained

5 with a size of 250 x 100 microns.

The technical and economic effect of the present invention consists in obtaining the possibility of controlling the shape of the optimally focused spot on the screen by changing the potentials on the cut parts of the modulator, which makes it possible to obtain a non-circular spot with specified parameters in a relatively simple design of the EOS. Also offered

5, the design of the EOS allows efficient dynamic correction of astigmatism of beam deflection on the screen, including a round one,

Compared to the base sample, for

0 which (due to the lack of index picture tubes designed or mass-produced in the country) was adopted as a prototype, it was possible to change the spot shape dynamically on the screen by changing

5 potential with a relatively simple compared to the prototype design of the object-forming system of the EOS.

The alleged invention is most suitable for use in color index picture tubes as well as in high-resolution and ultra-high resolution indicator tubes, in projection picture tubes and color mask picture tubes. In addition, the proposal can be used in EOS of electron microscopes, Elion technology, light valve ZLP - where cathode assemblies with a hairpin cathode are used.

Claims (3)

SUMMARY OF THE INVENTION 1. An electron-beam device with a non-circular shape of an electron spot on the screen, containing an electron-optical system including an electron source, a modulator, accelerating, high-voltage electrodes with working holes, including a non-circular shape, focusing and a deflecting system; 4 S 7 V 111 so that, in order to provide the possibility of changing during operation the shape of the optimally focused spot on the screen, the working holes in all the electrodes are axisymmetric, and the edges of the modulator are divided into at least two insulated parts, electrically connected to sources of different potentials. : ..:. 0 2. The device according to claim 1, characterized in that the edges of the hole in the modulator are divided into equal parts. 3. The device according to paragraphs. 1 and 2, on the basis of that. that the edges of the holes in the modulator 5 are divided symmetrically with respect to the longitudinal axis of the electron-optical system. 129