DE3132834A1 - Deflection yoke for a cathode ray tube - Google Patents

Abstract

A deflection yoke (10) especially for a colour cathode ray tube is specified, which does not cause any raster distortion and which prevents any electron beam convergence error. Both horizontal deflection coils (30) and vertical deflection coils (50, 51) produce fields having a cushion-shaped distribution. Front-end magnet elements (60, 70) expand the cushion-shaped vertical deflection magnetic field in the direction of the screen of the tube. Rear-end magnet elements (80, 90) deform a portion of that magnetic field which is produced by the vertical deflection coils to form a barrel shape, in such a manner that the sum of the vertical deflection magnetic field effectively and actually achieves a barrel-shaped distribution. <IMAGE>

Description

DEFLECTOR FOR CATHODE BEAM TUBE

The invention relates to a deflection yoke for a cathode ray tube.

Experiments and studies have shown that a deflection yoke for a color cathode ray tube with an in-line or delta electron gun assembly can be formed, which a pincushion distributed redirecting magnetic field generated to correct for right-hand and left-hand distortion of the grid. The deflection yoke can also be used to create a cushion-shaped spread Horizontalabienkmagnetfeldes are trained for the purpose of correction with respect to the top and bottom distortion of the grid. The raster distortion is very much dependent on the magnetic field that is generated on the part of the deflection yoke corresponding to the cone portion of the cathode ray tube.

It also turns out that in order to prevent three electron beams Xonvergence errors cause the sums of the vertical deflection magnetic field - the near one the deflection yoke, which is the area between the neck. and the cone section corresponds to the cathode ray tube, must be a barrel-shaped distribution. In contrast for this, the sum of the horizontal deflection magnetic field must have a pillow-shaped distribution be.

A conventional deflection yoke of a so-called self-converging design is designed so that there is a barrel-shaped distribution in the vertical shielding magnetic field and has a pincushion distribution in the horizontal deflection magnetic field. at Such a yoke can have a satisfactory convergence characteristic with respect to the electron count and the correction of the top and bottom pillow-shaped Distortion or distortion of the raster can be obtained. However, the right-hand one and increases the left-hand distortion of the raster.

Correcting for the right-hand side and the left-sided pincushion distortion of the raster uses a correction circuit for generating an output signal in synchronism with a vertical signal. The output signal has an amplitude that changes parabolically, and the signal becomes the horizontal deflection signal superimposed. However, such a correction circuit introduces components increased increases the cost and complexity of the structure.

It is therefore the object of the invention to provide an improved deflection yoke, which does not cause raster distortion and which has satisfactory electron beam convergence characteristics achieved.

According to the invention, a deflection yoke for a cathode ray tube, which has a viewing screen indicated, which is characterized by the fact that it comprises: a core surrounding the tube, a pair of horizontal deflection coils between the tube and the core to generate a horizontal magnetic field with a pillow-shaped Distribution, a pair of vertical deflection coils wrapped around to those around the core and facing each other to generate a vertical deflection magnetic field with pillow-shaped distribution, one. Front end magnet means at or near the Large diameter end of the core is attached to accommodate leakage flow, the caused by the vertical deflection coils, and to extend or expand of the pillow-shaped vertical 'deflecting magnetic field in the direction of the screen of the Tube and a high-end magnet assembly that are small at or near one end Diameter of the core is attached to deform part of the vertical deflection magnet field to a barrel-shaped distribution.

According to another feature of the invention, a deflection yoke for a color cathode ray tube with a substantially rectangular screen specified, which is characterized by that it shows one Core surrounding the tube, a pair of horizontal deflection coils between the tube and the core for generating a horizontal deflection magnetic field with a pillow-shaped distribution, a pair of vertical deflection coils wound around the core and facing each other for generating a vertical deflection magnetic field with a pillow-shaped distribution, front end magnetic links or devices attached to or near the large diameter end of the core are, wherein the link tubes have at locations which substantially the corners of the screen of the tube, and a pair of rear end magnetic members or -Devices between the tube and the vertical deflection coils and at or attached near the small diameter end of the core, the rear end magnetic links face each other.

The invention is based on the exemplary embodiments shown in the drawing explained in more detail. 1 shows a deflection yoke in a front view according to an exemplary embodiment of the invention, FIG. 2 shows the deflection yoke in a rear view, FIG. 3 shows a partial section Seitenansi-Eh.t-des deflection yoke, FIG. 4 shows a representation of the vertical deflection magnetic field distribution, which is generated by the deflection yoke, Fig. 5 is a perspective view of a front end magnetic member, which is used in the deflection yoke, Fig. 6 is a perspective view of a rear end magnet member, used in the deflection yoke, Figures 7a and 7b are perspective views of two forms of FIG Magnets which can be used with the deflection yoke, FIG. 8 shows a representation of the raster distortion.

A deflection yoke according to an embodiment of the invention is shown in FIG 1 to 3 shown, with a representation of the vertical deflection magnetic field distribution of the deflection yoke 10 in FIG is reproduced. A pair of saddle-shaped Horizontal deflection coils 30 is on the inner circumference of a funnel-shaped coil separator 20 arranged. The coil separator 20 is around the outer periphery of a color cathode ray tube (not shown) arranged. Horizontal deflection coils 30 generate a horizontal deflection magnetic field with pillow-shaped. Distribution. A substantially cylindrical core 40 is µm arranged on the outer periphery of the partition member 20. A pair of vertica; deflection coils 50 and 51 are toroidal and annular, respectively, around the upper and lower parts of the core 40 formed. The width of the vertical deflection coils 50 and 51 is narrow for generation a vertical deflection magnetic field with a pincushion distribution, such as that by the Dashed dot line B1 is shown in 'Figure 4, with A being the neck side of the tube. and C showing the cone side of the tube with magnetic field sections above the horizontal axis pincushion distribution and magnetic field spacing below the Hotizontal axis have barrel-shaped distribution.

A pair of front end magnetic members 60 'and 70 are large at the end Diameter of the core 40 attached. Since these magnetic members 60 and 70 are identical is only one of these front end magnetic members in FIG. 5 reproduced, the two reference numerals referring to corresponding designations for the two different magnetic members 60 and 70, respectively. As shown in Fig. 5, the front end magnetic members 60 and 70 have curved bars 61 and 71, respectively substantially the same curvature as the large diameter end of the outer circumference of the core 40 own. Therefore, these curved bars 61 and 71 fit on the core 40. The curved rods. 61 and 71 of the. Front end magnetic links 60 or 70 cross zen the side of core 40 near vertical deflection coils 50 and 51. Each of the magnetic members 60 and 70 also includes a pair of arms 62 and 72, respectively, and 63 and 73, respectively, on opposite sides Ends of the curved rods 61 and 71, respectively. Each arm 62, .63 is substantially below at right angles to the curved rod 61, 71 and the end of each arm 62, 63 is to Adaptation to a flange 21 ,, on the large diameter side of the separator 20 is bent.

When both the front end magnet members 60 and 70 are at the large diameter end the outer periphery of the core 40 are attached, corresponding arms 62, 63, 72 and 73 essentially the four corners of the cathode ray tube screen.

Leak flow from the vertical deflection coils 50 and 51 is through the front end magnet members 60 and 70-added. For example, leakage can flow through the curved rod 61 of the front end magnetic link 60 and supported by the arms 62 and 63 of the link 60 are guided to arms 72nd and 73 of link 70. The magnetic field between the arms 62 and 63 of the link 60 and the arms 72 and 73 of the link 70 is with synchronized with the vertical deflection magnetic field generated by the vertical deflection coils 50 and 51 is generated, which is distributed in a pillow shape. As a result, it becomes pillow-shaped Vertical deflection magnetic field extended to the screen side of the cathode ray tube or extended as shown by dashed lines B22 in Fig. 4 because the Arms from each of the feed end magnet members 60 and 70 extend toward the screen of the tube stretch q.

Each of a pair of rear end magnetic members 80 and 90 are on the outer circumference of the separating member.20 at or near the end of the small diameter of the Core 40 or attached under this.

The tail end magnet members 80 and 90 are also under vertical reel coils 50 and 51 arranged and are opposite each other. As shown in Fig. 6, has each of the tail end magnetic members 80 and 90 have substantially the same curvature such as the outer periphery of the portion of the separator 20 that is the small diameter end of the core 40 corresponds. The - the reluctance or magnetic resistance of the tail end magnetic links 80 and 90 is smaller than that of the air, so that by the vertical deflection coils generated magnetic fluxes easily come near the rear end magnetic members 80 and 90. Therefore, the magnetic fluxes generated by the vertical deflection coils 50 and 51 become in the direction of the inner circumference of the core 40 steered. This means, the vertical deflection magnetic field is in the form of a barrel-shaped distribution on the The small diameter end of the core 40 as indicated by dashed line B21 in FIG Fig. 4 is shown.

In summary, the vertical deflection magnetic field is due to the yoke 10 in the form of a pillow-shaped distribution on the cone - sideñ of the tube. However their total sum B2 (according to Fig. 4) also reaches a part B21, which is barrel-shaped Distribution forms. The horizontal deflection magnetic field generated by the horizontal deflection coils 30 is in the form of a pillow-like distribution, as has been explained. Consequently, the yoke 10 does not cause any raster distortion or distortion and none Convergence failure.

Next is a pair of plate-shaped permanent magnets 100 and 101, as shown in Fig. 7a, at the upper or lower section of the rear end The flange 21 is mounted on a vertical center line N of the yoke 10. if as the angle of deflection of the cathode ray tube increases, the raster develops a wavy distortion or distortion (called seagull distortion) in Horizontal direction and an inside distortion in the vertical direction, as in Fig. 8 shown.

Correct the magnetic fields generated by magnets 100 and 101 the above distortions and improve the linearization of the raster. Instead of the magnets 100 and 101 may be a pair of pole-shaped permanent magnets 100 'and 101 'on flange 21 of the separating member. 20 in humpback area: age% 'sefestigung 110 as be attached according to Fig. 7b.

The deflection yoke 10 explained can be used in a simple manner without any need The vertical deflection coils 50 and 51 are also easy to wrap and train. Finally, the diversion yoke must 10 does not correspond to the deflection angle of the cathode ray tube in FIG it is used, modified or discontinued.

Of course, other embodiments are also possible.

Claims (1)

EXPECTATIONS 1. Deflection yoke for cathode ray tube with viewing screen, marked by a core (40) surrounding the tube ,. a pair of horizontal deflection coils (30) between the tube and the Core (40) for generating a horizontal deflection magnetic field with a pillow-shaped Distribution, a pair of vertical deflection coils (50, 51) around the core. (40) are wound and face each other to create a vertical magnetic field with a pillow-shaped distribution, a. Front end magnet device (60, 70) attached to or near the large diameter end of the core (40) is for taking up leakage flow caused by the vertical deflection coils (50, 51) is, and to expand the kissenför shaped vertical deflection magnetic field z.m screen of the tube and a tail end magnet means (80) at or near the end small diameter of the core is attached to deform part of the vertical deflection magnetic field to a barrel-shaped distribution 2. Abienkjoch according to claim t, characterized by a pair of permanent magnets (100, 101) at or near the E> de large Diameter of the core (40) are attached and are opposite to each other. 3. Deflection yoke for color cathode rays with a substantially rectangular shape Screen indicated by a core surrounding the tube (40), a pair of horizontal deflection coils (30) between the tube and the core (40) for generating a horizontal deflection field with a pillow-shaped distribution Pair of vertical deflection coils (50, 51) wound around the core (40) and are opposite to each other to generate a vertical deflection magnetic field with a pillow-shaped Distribution, a front end magnet means (60, 70) at or near the end large diameter of the core (40) is arranged, wherein the device arms (62, 63 and 72, 7) in layers which essentially correspond to the corners of the screen of the Tubes, and a pair of tail end magnet means (80, 90) corresponding to between the tube and the vertical deflection coils (50, 51) and at or near the end small diameter of the core (40) be fastened, wherein the rear end Magneteinrichungen face each other. 4. deflection yoke according to claim 3, characterized in that each of the Votrderende-Magnetein'einrichtungen (60 or 70) a curved magnetic rod (61, 71) contains the overlying opposite ends of the vertical deflection coils (50, 51), each of the front end magnet means (60, 70) further two of the arms (62, 63 or 72, 73) at opposite ends of the curved one Rod - (67, 71) attached. 5. deflection yoke according to claim 3 or 4, characterized in that Extend your arms in the '' direction towards the four corners of the screen. 6. deflection yoke according to one of claims 3'to 5, characterized in that that a pair of permanent magnets (100, 101) is provided, the large diameter end 'of the core (40) and substantially on a vertical center line (Lv) of the tube are attached, wherein the permanent magnets (100, 101) are opposite to each other.