TH8008B - Color cathode ray tube equipment - Google Patents

Abstract

The seventh grid (G7), which is supplied with a high anode voltage, the sixth grid (G6), which is supplied with a dynamic voltage. and the fifth grid (G5) will be provided in the main electron lens (ML) part of the electron gun. The dynamic voltage is obtained by superimposing the DC voltage below the high-voltage anode voltage by the voltage at which the synchronization changes with the fifth grid electron beam (G5 ) are connected together to the sixth grid (G6) via a resistor device (22), provided in the tube in such a way as to be close to the sixth grid (G6) towards the generator section. The fifth grid (G5) and sixth grid (G6) electrons (GE) work together to form a maldipole lens. (QL) for correcting deflection aberrations within the lens focus area of As for the main electron lens (MC), the result is Withstand voltage of an electron gun (21) with dynamic focus method. and the power resolution classification of the color cathode tube device and reliable performance will be improved.

Claims (6)

1. Color cathode ray tube device for displaying images on targets. electron beam paths, including electron beam paths For generating the electron beam, the focal path has the first to fourth electrode structure that forms the primary electron lens. To focus the electron beam to appear on the target electrostatic capacitance Ca. which is arranged between the adjacent third and second electron structures. and the electrostatic capacity Cb, which provides between the second and first electrode structures. Each part of the structure creates such an electrode. There is an aperture hole to allow the electron beam to pass through and a resistive path of resistance R for connecting the second and third electrodes that are close together. It serves to create a magnetic field for sharpening electrons. which is released from the electron gun trajectory in the horizontal and vertical direction in this way will scan the target area in the horizontal and vertical direction with an electron beam High voltage supply method It serves to supply high anode voltage to the fourth electrode structure. dynamic voltage supply method It serves to supply a dynamic voltage that changes the synchronization with the horizontal bias of the electron beam by supplying it to the third electrode structure. As a result, the dynamic voltage frequency, which is synchronized with the horizontal bias, is expressed by fH, and the ratio of the circle's circumference to its diameter is expressed by and there is a corresponding relationship as follows: n 2.fH.C a.R>_13.(1-y) where y = Ca/(Ca+Cb), and Method for maintaining potential To stabilize the first, second, and third electrode structures the first, second and third DC potentials are created in this way a multi-pole lens is created to correct any misalignment. in which the electron beam is located between the second and third electrode structures Purger which is opposite to the second electrode structure. and has a longitudinal figure extending in the vertical direction for allowing the electron beam to pass through. including the second part resistor which is connected between the third and fourth electrode structures. This includes the fifth electrode construction, which is prepared between the third and fourth electrodes. Resistor path, part two The connection between the third and fifth electrode structures and the third part resistor trajectory which is connected between the fourth electrode structure and fifth section 5. Cathode ray tube devices according to claim 1, where the mixture of y = ga/(ga+gb), which is consistent with the case where ga expresses the distance between the electron structures. The third and second electrodes corresponding to the static capacitance Ca and gb express the expression of the distance between the second and first electrode construction corresponding to the static capacitance cb. 6. The cathode ray tube device according to claim 1, where the relative fraction of R <_ 20.9 M (omega), which would be of correspondingly appropriate in the case of the static capacitances Ca and Cb, each had The approximate value of 2 pF and the horizontal deflection frequency fH is 15.75 kHz. 7. The cathode ray tube device complies with claim 1, where the relation of R <_ 5.1 M (omega), which would be appropriate, corresponds. In the case of static capacitances Ca and Cb, each segment is approximately 2 pF and the horizontal deflection frequency fH is 64 kHz. _ 2.0 M (Omega), which is consistent in the case of the individual static capacitances Ca and Cb by about 2 pF and the horizontal refraction frequency fH is 120 kHz. 9. In a cathode color luminaire device for displaying the image on the target, consisting of The electron gun trajectory, including the cathode for generating electron beams. Focal path with first grid to seventh grid which serves to create the main electron beam lens to focus the electron beam to appear on the target The electrostatic capacity Ca, which is provided between the third, sixth and fifth grids. close to each other The electrostatic capacity Cb, which is provided between the first, fifth and fourth grids. Each part of the grid had an aperture hole to allow the electron beam to pass through the fifth aperture grid. Which is directed towards the sixth grid, which has a shape extending in the vertical direction. and the sixth grid's aperture hole which is directed towards the fifth grid, which has a shape extending in the horizontal direction and Resistor way with resistance R for connecting the fifth grid and the sixth grid in close proximity to each other. The electrons go horizontally and vertically. In this way, the target area is scanned in the horizontal and vertical directions of the electron beam. High voltage supply method for supplying high voltage anodes to the seventh grid dynamic voltage supply method for supplying a dynamic voltage that changes the synchronization with the horizontal direction of the electron beam. It is supplied to the third grid and to the sixth grid so that the frequency of the dynamic pressure synchronized with the horizontal deflection is expressed by fH and the ratio of the circle's circumference to its diameter. is expressed by n and the corresponding relation is as follows: n 2.fH.CaR>_13.(1-y) where y = Ca/(Ca+Cb)and Method for maintaining potential for making the first grid The second grid and the third grid have different potential The second grid and the fourth grid have the same potential, and the third grid and the sixth grid have another partially identical potential 1 0. Claims 9 cathode ray tube devices in which the multipole LANs For the correction of anomalies, deflection is established between the fifth grid and sixth grid 1. 1. Cathode ray tube device according to claim 9 where the path is electron. including the second resistor path which is connected between the sixth grid. and the seventh grid 1 2. Cathode ray tube device according to claim 9 where the path is electron. including additional section grids which is arranged between the sixth grid and the seventh grid of the second resistor path. which is connected between the additional grid and the sixth grid. and the third part of the path which is connected between the additional grid and the seventh grid 1 3. The cathode ray tube device according to claim 9, where the equation of y = ga/(ga+gb), which is congruent if ga expresses the expression of the distance between the fifth grid and and the grid. sixth which corresponds to the static capacitance Ca and gb, expresses the expression of the distance between the fourth grid and the fifth grid. which corresponds to the electrostatic capacity cb 1 4. The cathode ray tube device according to claim 9, where the relation of R <_ 20.9 M(Omega), which would be consistent with the static capacitance Ca and Cb, each of which is approximately 2pF and the horizontal deflection frequency fH is 15.75 kHz 1 5. The cathode ray tube device according to claim 9, where the relation of R <_ 5.1 M(omega), which would be correspondingly appropriate in the case of the individual static capacitances Ca and Cb, is approximately 2pF and the horizontal deflection frequency fH is 64 kHz 1 6. The cathode ray tube device according to claim 9, where the relation of R <_ 2.0 M(omega), which would be correspondingly appropriate in the event that the static capacitances Ca and Cb each have a value. Approximately 2pF and the horizontal deflection frequency fH is 120 kHz.