SU658623A1 - Focusing-deflecting system - Google Patents

Description

one

The invention relates to e-beam devices, in particular, to devices dp of focusing and deflecting a beam, and can be used in the manufacture of schistographic and eeptelectron-beam tubes (CRT).

Electrostatic focusing from the CRT systems (FOS) of CRT are known, consisting of two, three, and four astigmatic, for example, quadrupolar tangenses, in the intervals between which the deflecting systems flj are located.

The disadvantage of these systems is the impossibility of simultaneous high resolution and deflection sensitivity, due to the tightness of the mutual arrangement of the deflection systems and pin focusing.

The closest technical solution to the present invention is a focusing-deflecting system of a cathode ray tube containing

at least two astigmatic, predominantly quadruppe lenses and an electrostatic deflection system.

The vortex deflection is located either in front of the last quadrupole lens so that its scattering plane coincides with the deflection plane, or in front of the penultimate lens. Focusing in the plane

deviations (with both lenses being close up {fug to friend 2J.

The disadvantages of the known system are, in the first case, a large spot size on the screen (low resolution

Claims (2)

the ability of a CRT) with good sensitivity, in the second - low sensitivity with acceptable spot sizes. Another disadvantage of the known system is that the electronic spot on the screen has an elliptical shape, with the major axis corresponding to the direction of the signal deflection, while for a number of devices it is desirable to have a spot close to a circular shape. The chain of the present invention is The resolution and specific sensitivity of the system are different. This goal is achieved in that the deflection system is made up of two parts located on either side of the penultimate lens. The lengths of the parts are approximately equal. FIG. 1 shows schematically two projections of a focusing-opening system with three; in fig. The 2nd two lenses, the Focusing-Rejection system consists of a focusing system, formed by at least two astigic Matical (for example, quadrupole) lenses 1, 2, 3 and a deflecting system made of; The length of С and 2 are located on both sides of the penultimate pinza 2. The system can be considered using the example of a trippet (figd). The electron beam generated by an axisymmetric electron gun enters the focusing system formed by three astigmatic pin 1-3. This lens has a different optical power in two / mutually perpendicular directions and creates a linear image of a point object. Examples of astigmatic lenses are cylindrical, quadrupole, transaxial, and also a crossed lens formed by a set of diaphragms with elongated holes that are turned shcheug relative to each other by 9O. Forces, pins 1–3 of the focusing system are selected so that —the beam is assembled in the plane of the tube screen (in the absence of an acceleration system) or closer to the output of the focusing-deflection system, depending on the type and strength of the acceleration system. The signal under investigation is applied to both parts of the deflecting system 4.5. In the deflection plane OZ, the first pinch triplet scatters the beam, which passes the first part of the deflecting system 4, falls into the pinse 2, which collects the beam, somewhat lower deflection angle. A similar beam passes the second part of the deflecting system 5 and the lens 3, the scattering ppos 6 3 4 which strengthens the deflection of both parts of the deflecting system; 2) .- the system is simpler than the triplet, however, it has the disadvantage of giving a spot in the form of a strongly elongated ellipse with a 1: 1O ratio of the axes, as well as a smaller gain of sensitivity. However, if the axially symmetric gun is replaced by a two-dimensional one, which gives a ribbon beam whose width is an order of magnitude greater than the thickness, then the spot on the screen will satisfy the CRT requirements in shape and size. Therefore, it is possible to use a focusing-deflection system with a split deflection system and two astigmatic lenses, such as the scheme of which is shown in FIG. 2. The operation of this system is similar to the operation of the system with a triplet, which is discussed in detail above. It should be noted that there is an additional possibility of increasing the sensitivity of the deviation by applying the signal under study not only to the main deviation to this system 4, but also to the opposite electrodes of the lenses 2 and 3 of the focusing System. In this case, the deflection system is lengthened, as it were, which increases the sensitivity of the deflection. It should be noted that the total length of this focusing ee-deviation of the khtsey system in the case of a triplet does not exceed, and in the case of a doublet it is less than the length of the known system. Experiments have shown that in the case of optimal operation of the triplet, with a point. From the point of view of obtaining minimum spot sizes on the screen, taking into account spherical aberration in the VOZ plane, the spot size is about O, 21 mm, in the plane, 25 mm (with a crossover size d 50; MK), t, e, a nearly round spot was obtained, and also its reduction in comparison with the known systems in the plane of deviation, where the size of the spot is maximal. The specific sensitivity (the ratio of the sensitivity to the size of the focused spot on the screen in the plane of deflection) of the system increases. Another option for feeding the lenses is possible, when in the plane of deflection of the first and third lenses of the triplet the beam is collected and the second is scattered. Calculations show that in this case, too, the predicted FOS provides a gain in specific sensitivity compared with known systems. However, in this case, the absolute vepichiny feel otkhno otkongeni is significantly less than that of the main option, discussed in detail above. Therefore, the option in which the pinned piece collects, in practice, it is not very convenient to apply, if there are no additional essential considerations. The effectiveness of the proposed device consists in increasing one of the main parameters of the cathode ray tube resolution and specific sensitivity with an almost round shape of the electron spot. At the same time, the absolute sensitivity is maintained at a high level, and the dimensions of the pre-fosted OPC and its individual parts are not. increase. 23b Claim 1. In focusing-deflecting system of a cathode ray tube, containing at least two astigmatic, mainly quadrupole tubes, and an eectrostatic deflecting system, characterized in that, with a chain of increasing resolution and specific sensitivity, the deflection system Made cocTOSi of two parts, located on both sides of the penultimate pinza. 2. Focusing-deflection of the system's system, ti Ishchaya with the fact that, the lengths of both parts of the deflecting system are equal to each other. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 34137О, cl. H O1T29 / 58, 1971. 2. Lyubchik Ya.G., et al. Increasing the sensitivity of schispograph LLT with the help of electrostatic lenses. Radio engineering and electronics t. 16, NO 10, 1971, p. 1942-1945. “F