DE1949168B2 - cathode ray tube - Google Patents

Description

can be set. As a result of the symmetrical arrangement of the lens, which the deflected beam scatters, an elliptical distortion of the defocused light spot as a result of the divergence or scattering be switched off, which is particularly the case with conventional deflection-spreading systems, for example the type shown in Fig. 3 nachteih> The light spot can therefore have more normal effects Practice by simply adjusting the main lens to be focused and focused.

1 sheet of drawings

Claims (1)

shows a conventional deflection system for cathode ray tubes with two X 'axes ^ deflection 1 and Claim: Y-axis deflection unit 2 forming electrodes regulations. In the following it is assumed that the Cathode ray tube with two electron 5 X and Y axis deflection devices along the beam deflection systems and an electron optical device arranged between these directions of movement of an electron beam are net. Between these two deflection units, in order to intensify the deflection effect of the cathode, a deflection system, which is closer to the electrical shielding thereof, is provided, which is switched on by an electrode 3. This indicates that the device for the abio arrangement is a double-tube lens with an electron beam 4 exiting between the tubes (10) and the single lens attached to the deflector plates (9) , whose stirring potential or the same diameter flowing through deflection coils and deflected with respect to current. In this known device, the power supply electrode at a more positive potential Ije-15, no provisions are made for scattering the deflected. th beam or for image spreading. According to Fig.2 is for use in a a cathode ray tube already proposed Spreading device with downstream acceleration 20 transmission device eme from a metal mesh screen or the like existing electrode 5 between two conventional deflectors and one The invention relates to a cathode ray tube light or screen 6 switched on to the Bemit shield two electron beam deflection systems and an acceleration field at the last stage between these arranged elektronenopüschen 25 and in this way the deflected beam still white device to enhance the distraction of the ter. The percentage of that distraction deflection system closer to the cathode. depends on the configuration and the The US Pat. No. 3,328,627 already discloses the position of the mesh electrode and the acceleration beam brought about by an arrangement for deflecting an electron downstream stage, in which a Y deflection is determined without any relation so that it is Percentage with associated A 'deflection is achievable. Not to be easily adjusted electrically.
Achievement of this independent of the A 'deflection Even if, in this system, the percentage of Y deflection magnetic fields are additional reasonable spread by changing the acceleration used, the alteration adjusted to avoid Af Ablenkungsän- holds isses at the downstream stage upstream with variation of the Y-Ablenkverstärkung 35, the spreading of both the X and the are seen. Since this known arrangement does not vary the ro-Y-axis deflection direction at the same time, so that it has a station-symmetrical field, the influence of the electron beam in the strains results, which cannot even be determined by setting the Y-axis direction independently of the in Electron source can be prevented. .Y-axis direction can be varied. In contrast, the object of the invention is to provide a 40 The in FIG. 3, the known deflection scattering cathode ray tube of the type mentioned at the outset uses one of four electrodes, in which the deflection gain in a protruding electrostatic lens 7, which is between the steering direction independently of the other deflection .Y-axis and the Y-axis deflection device direction can be changed and the direction through which is not switched on; the field distribution of this arrangement, avoidable beam spreading of the deflection gain, is shown in FIG. 4 illustrates. Since this system changed the light spot, the electric field of the four-electrode lens on the can be kept so that it is easily correctable electron beam in opposite directions. acts along the X and Y axes, the beam becomes 8 According to the invention, this object is achieved in accordance with FIG. 5 elliptically distorted. To one really solves that the device for deflection amplification a 50 circular light spot on the screen As a two-tube lens with an arrangement between the tubes, it is evident that it is a very complete one Mesh electrode formed single lens is required whose ornamental setting. Pipes have the same diameter and opposite- F i g. 6 shows an electrode arrangement with the Features of the invention, in which between a lie. 55 .Y-axis deflection system 1 and a Y-axis deflection In the following, the invention is a diverging lens is connected in connection with guiding system 2, the lannten deflection systems \ n an OF PREFERRED sieve of a mesh electrode 9 made of a metal mesh embodiment of the drawings or the like and two explained on both sides of LER. It shows mesh electrode 9 arranged tubular electrodes 10 loading F i g. 1 to 5 known deflection systems for Ka- 60 stands. The mesh electrode 9 lies on lower pod ray tubes, potential than the tubular lens 10. This lens causes a F i g. 6 a schematic representation of the electrical divergence or a spreading of the deflected -! arrangement for a cathode ray tube with the electron beams. rcrnals of the invention and FIG. 7 shows the field distribution of the lens and the F i g. 7 shows the field distribution of the electron beam. The percentage of spread in key system according to FIG. 6. Direction of the Y-axis can be easily and independently In the F i g. 1 to 5 are known deflection-dependent of that in the direction of the X-axis ¹ learn for cathode ray tubes. F i g. 1 by changing the potential of the mesh electrode 9