JPH0456047A - Deflection yoke of cathode-ray tube - Google Patents

Abstract

PURPOSE:To improve simply and cheaply both the VCR and spot distortion due to convergence piece by providing an upper and a lower means to generate a magnetic field behind a deflection yoke on its electron gun side, and thereby generating a vertically deflecting pin magnetic field. CONSTITUTION:An upper and a lower magnet 15 are installed behind a deflection yoke 11 on its electron gun 16 side so as to generate a four-polar pin magnetic field. The VCR is corrected by this pin magnetic field. Also by this mag. field a longitudinally stretching astigmatic point is inserted into a beam spot, and the spot is improved by canceling with the transversely stretching astigmatic point generated by the deflectting mag. field. Accordingly the VCR and spot distortion due to convergence piece can be improved simply and cheaply. The spot is improved by adding an astigmatic point in the opposite direction to the astigmatic point generated by the deflecting mag. field to the deflection yoke itself.

Description

[Detailed description of the invention]

(Industrial Application Field 1 The present invention is applied to CRT (Cathode Ray Tube)
be 1 cathode ray tube), in particular a deflection yoke comprising a horizontal deflection coil and a vertical deflection coil, which connects from the funnel part to the neck part of the CRT.

[Summary of the invention 1] This invention relates to convergence correction and spot improvement using a deflection yoke, in which convergence coma correction is performed by the deflection yoke itself using a magnet attached to the rear side of the deflection yoke and on the electron gun side. In addition to eliminating coma, the beam spot is made vertically elongated to cancel out astigmatism caused by deflection distortion and improve the spot. [Prior Art] In a color CRT, when three color electron beams, R and GlB, are deflected by a deflection coil, the three electron beams are concentrated at exactly the same point in any part of the aperture grill. It is necessary. However, because the distance from the deflection point of the electron beam is different between the center and the periphery of the screen, the three beams converge in front of the aperture grill in the periphery and do not pass through the same slit, causing color shift. Become. In order to correct this problem, a convergence coil is installed on the front side of the deflection yoke.

[By applying a parabolic current synchronized with the deflection current to this coil, the magnetic field at the position where the three electron beams pass through the tube is changed, and this causes the electron beam to touch the periphery of the screen. The trajectories of the three electron beams during scanning are corrected in directions outward from each other, that is, in the radial direction. [Problems to be Solved by the Invention] In an in-line CRT that emits three beams of R, G, and B, such as a trinitron tube, arranged horizontally in a row, the convergence coil is omitted to make the convergence free. To do this, the horizontal deflection coil of the deflection yoke generates a pin magnetic field, and the vertical deflection coil generates a barrel magnetic field. According to such a magnetic field, when the beam is deflected between the top and bottom of the screen,
The barrel magnetic field creates a difference in the amount of deflection between the center beam and the side beams, and as shown in Figure 5, the center beam enters the convergence coma (hereinafter referred to as VCR).
), a misconvergence occurs. At the same time, the spot of the side beam is tilted and changes into an oval shape, causing shape deterioration. Conventionally, the side beam was shielded by a pole piece made of a magnetic material attached to the electron gun, and the difference in deflection amount was eliminated to correct the VCR. However, with these measures, it has not been possible to correct the distortion of the spot into an oval shape. There is also a method of generating a correction magnetic field by connecting another coil to the vertical deflection coil, but although this method can correct both VCR and spot distortion, it has the disadvantage that the correction mechanism is complicated and costly. Furthermore, since a vertical deflection current is used, deflection efficiency deteriorates. The present invention has been made in view of these problems, and it is an object of the present invention to provide a CRT deflection yoke that has a simple and inexpensive means for improving both VCR and spot distortion due to convergence coma. be. K@Means for Solving the Problem 1 The present invention provides a CRT in which a deflection yoke including a horizontal deflection coil and a vertical deflection coil is mounted from a funnel section to a neck section. Means for generating magnetic fields are provided on the top and bottom of the electron gun side,
This means generates a vertical deflection pin magnetic field. Therefore, a quadrupole magnetic field is generated by magnetic field generating means such as magnets arranged above and below the electron gun side behind the deflection yoke, and the VCR is corrected by this magnetic field. Also, this magnetic field creates a vertically long astigmatism in the beam spot, and the deflection magnetic field cancels out the astigmatism to make it horizontally long, thereby making it possible to improve the spot. K Embodiment 1 FIGS. 1 and 2 show a trinitron-type inline CRT 10 according to an embodiment of the present invention, and this CRT lo has a deflection yoke 11 attached from its funnel section to its neck section. . The deflection yoke 11 is composed of a horizontal deflection coil 12 and a vertical deflection filter 13. The vertical deflection coil 13 is wound around the core 14. A magnet 15 is attached to the inside and rear of this deflection yoke 11. The magnet 15 is designed to generate a quadrupole magnetic field as shown in FIG. 1, and the electron gun 16
A deflection force is applied to the three electron beams 17 emitted from the electron beam. As shown in FIG. 2, the CRTlo according to this embodiment has magnets 15 mounted vertically on the back side of the deflection yoke 11 and on the side of the electron gun 16. It is designed to generate a four-pole magnetic field. This magnetic field forms a pin magnetic field for the beam 17, so that the deflection force for the center beam is stronger than for the side beams. In other words, since it is a pin magnetic field, beam G in the middle is beam B on both sides,
It will receive a force larger than R in the vertical direction. Therefore, the VCR is corrected by such an effect. Further, since such a pin magnetic field becomes a vertical magnetic field in the opposite direction to the perpendicular magnetic field, the spot distortion of the side beam is also canceled out and corrected by the pin magnetic field. Due to the deflection magnetic field of the convergence-free deflection yoke 11, the beam spot becomes horizontally elongated due to a strong astigmatism effect, as shown in FIG. Conventionally, this has been corrected by inserting an astigmatism point in the opposite direction to the electron gun electrode (see Figure 4).
. In this embodiment, a vertically elongated astigmatism can be added to the beam spot by the VCR correction magnet 15, making the astigmatism of the electron gun 16 unnecessary. Furthermore, it is possible to add astigmatism in the opposite direction to the astigmatism caused by the deflection magnetic field at a location almost close to the astigmatism caused by the deflection magnetic field, making it more effective than astigmatism caused by the electron gun. Effect 1 of the Invention As described above, in the present invention, magnets are attached above and below the electron gun side behind the deflection yoke to generate a four-pole pin magnetic field. Therefore, the VCR is corrected by such a pin magnetic field. Further, the beam spot is improved by creating a vertically long astigmatism point in the beam spot using this magnetic field and canceling it out with a horizontally long astigmatism point due to the deflection magnetic field. Therefore, it becomes possible to improve VCR and spot distortion due to convergence coma by a simple and inexpensive method. In addition, the spot can be improved by adding astigmatism in the opposite direction to the astigmatism caused by the deflection magnetic field to the deflection yoke itself.

[Brief explanation of the drawing]

FIG. 1 is a vertical cross-sectional view of a main part of a CRT according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of the same side, FIG. FIG. 4 is a front view showing a spot when a vertically long astigmatism point is inserted, and FIG. 5 is a front view showing a convergence coma (VCR) and spot distortion. The names of the main parts in the drawings are as follows. 10 ・ 11 ・ 12 ・ 13 Cloudy 15 ・ 16 ・ 17 ・ ・ CRT ・Deflection yoke ・Horizontal deflection coil ・Vertical deflection coil ・Magnet ・Electron gun ・Electron beam

Claims (1)

[Claims] 1. In a CRT in which a deflection yoke including a horizontal deflection coil and a vertical deflection coil is attached from a funnel part to a neck part, a magnetic field is generated behind the deflection yoke and on the electron gun side. 1. A deflection yoke for a CRT, characterized in that means are provided above and below to generate a vertical deflection pin magnetic field.