JP3146083B2 - Deflection device for cathode ray tube device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deflecting device for a cathode ray tube, and more particularly to an improvement in a saturable reactor for correcting misconvergence caused by horizontal deflection.

[0002]

2. Description of the Related Art Japanese Patent Application Laid-Open No. Sho 61-269636 discloses that
A series circuit of two sets of saturable reactor coils and a convergence correction coil is connected in parallel, a horizontal deflection current is passed through the series circuit, and a parabolic waveform current for correcting convergence is obtained from the two sets of saturable reactors. It has been disclosed. Japanese Patent Application Laid-Open No. Sho 62-18888 discloses that a saturable reactor is provided with a horizontal control winding and a vertical control winding, and a correction coil is further connected to the vertical control winding so that a parabolic wave current having a horizontal cycle is generated at a vertical cycle. It is disclosed that a modulated current is supplied to correct convergence.

[0003]

SUMMARY OF THE INVENTION The above-mentioned JP-A-61-26 is disclosed.
In the method disclosed in Japanese Patent No. 9836, a horizontal deflection current flows through the correction coil, so that the correction coil needs to be configured for a high voltage and a large current, and requires two sets of correction coils. There was a problem that the production cost was increased. Further, in the method disclosed in Japanese Patent Application Laid-Open No. Sho 62-18888, a vertical deflection current flows through the correction coil, so that it is necessary to similarly configure the correction coil for a large current. There was a problem of being bulky. An object of the present invention is to provide a deflection device for correcting a convergence or a beam spot shape of a cathode ray tube device having a low withstand voltage, a low current, and a low price by preventing a horizontal deflection current and a vertical deflection current from flowing through the correction coil. Is to do.

[0004]

According to the present invention, there is provided a cathode ray tube apparatus comprising:
The deflection device solves the above problem by the following configuration. Immediately
According to a first aspect of the present invention, a horizontal deflection
In a cathode ray tube deflecting device provided with a saturable reactor that outputs a current for correcting misconvergence in the horizontal direction by inputting a current , the saturable reactors are connected in series.
And a horizontal deflection current
And the first coil connected in series with the primary coil
A secondary coil comprising a first part and a second part;
The first part of the coil and the first part of the secondary coil
A first saturable magnetic core around which a portion is wound,
Before the second part of the primary coil and the secondary coil
A second saturable magnet around which the second coil portion is wound;
The horizontal deflection voltage is applied to the core and the first saturable magnetic core.
Magnetic via in the same direction as the magnetic field generated by the positive current in the current
And the second saturable magnetic core has the horizontal deflection.
A magnetic bias in the same direction as the magnetic field generated by the negative current
Equipped with a permanent magnet that gives
To output our presence correction current - direction of Miss converter.

[0005] Further , a second invention according to claim 2 of the present invention.
The invention relates to a deflection device for a cathode ray tube device according to claim 1.
Thus, the permanent magnets are arranged in parallel with the first saturable magnets.
Hold both ends of the Japanese magnetic core and the second saturable magnetic core
The first saturable magnetic member.
The air core includes the first part of the primary coil and the secondary
The first part of the side coil is wound in the opposite direction to the second part,
The saturable magnetic core includes a second portion of the primary coil.
And the second part of the secondary coil in the same direction,
The first part of the primary coil and the primary coil
The second part has the same number of turns, and the secondary coil
Of the first part and the second part of the secondary coil
The number of turns is the same.

A third aspect of the present invention is a third aspect of the present invention.
The present invention relates to a deflection device for a cathode ray tube device according to claim 2.
And at least one of the pair of permanent magnet members and the
Opposing first saturable magnetic core and second saturable magnetic core
Means for adjusting the distance between the magnetic core and the end face is provided .
Further, the fourth invention described in claim 4 of the present invention is directed to claim 4
2. The deflection device for a cathode ray tube device according to item 2,
Change the direction of magnetization of one of the permanent magnet members to the primary and secondary sides.
In the axial direction of the coil, the other of the pair of permanent magnet members
The magnetization direction is a direction orthogonal to the axial direction . Also book
According to a fifth aspect of the present invention, there is provided the fifth aspect of the present invention.
In the deflection device for a cathode ray tube device, the pair of permanent magnets
Said one of said members and said first and second
Means for adjusting the distance between the end face of the saturable magnetic core and
The other of the pair of permanent magnet members is a flat member perpendicular to the axial direction.
Means for rotating in the plane .

A sixth aspect of the present invention is a sixth aspect of the present invention.
In the horizontal direction, the horizontal deflection current is
Saturable reactor that outputs current for convergence correction
Saturable reactor in a cathode ray tube deflector provided with
Is connected in series with a saturable magnetic core of EI type
A first part and a second part, wherein the first part
Are wound around one of the magnetic paths at both ends of the EI type saturable magnetic core.
And the second part is connected to both sides of the EI type saturable magnetic core.
A primary coil wound around the other end of the magnetic path;
The EI type saturable magnetic core is wound around a magnetic path at the center.
The secondary coil and the magnetic field at both ends of the EI type saturable magnetic core
On the one side of the road, on the first part of the primary coil
Permanent magnet for providing magnetization in the same direction as the magnetization direction
And the other of the magnetic paths at both ends of the EI type saturable magnetic core.
The direction of magnetization by the second part of the primary coil
A second permanent magnet for providing magnetization in a direction opposite to the
Correction of misconvergence in the horizontal direction from the secondary coil
Outputs current for use. Further, the seventh aspect of the present invention is as follows.
According to a seventh aspect of the present invention, there is provided a deflection device for a cathode ray tube device according to the sixth aspect.
Here, the magnetization directions of the first and second permanent magnets are adjusted.
Means are provided .

[0008] An eighth aspect of the present invention is the eighth aspect.
In the horizontal direction, the horizontal deflection current is
Saturable reactor that outputs current for convergence correction
Saturable reactor in a cathode ray tube deflector provided with
Are an EI type saturable magnetic core and an EI type saturable magnetic core.
A primary coil wound on the magnetic path at the center of
And a first part and a second part connected in series.
The first portion is formed at both ends of the EI type saturable magnetic core.
And the second part is of the EI type.
Two coils wound around the other of the magnetic paths at both ends of the saturated magnetic core
A secondary coil, the first portion of the secondary coil,
Between the primary coil and the first coil;
To provide a magnetization in the same direction as the magnetization direction in the portion
And the second part of the secondary coil and the permanent magnet
A second coil between the primary coil and the primary coil;
The second direction which gives the magnetization in the direction opposite to the magnetization direction in the portion
A permanent magnet, and a horizontal magnet from the secondary coil.
A convergence correction current is output. In addition, the present invention
A ninth invention according to claim 9 is the cathode according to claim 8.
In the deflection device for a wire tube device, the first and second permanent
Means for adjusting the magnetization direction of the magnet is provided. In addition, the present invention
The tenth invention according to claim 10 is the invention according to claims 1 to
9. The deflection device for a cathode ray tube device according to any one of
And a cathode ray caused by the misconvergence correction current.
Means for generating a quadrupole magnetic field is provided at the neck of the tube .

[0009]

Since the magnetic bias of the permanent magnet saturates the saturable magnetic core with respect to both positive and negative horizontal deflection currents, the correction coil connected to the secondary coil has a horizontal deflection period. Is supplied.
Further, if the correction coil is configured to generate a quadrupole magnetic field, a horizontal deflection force in the opposite direction acts on each of the pair of side electron beams of the in-line type color cathode ray tube. Convergence is corrected. A correction coil configured to generate a quadrupole magnetic field corrects a horizontally elongated beam spot distortion of a cathode ray tube of a single electron beam into a circular shape.

[0010]

FIG. 1 (a) is a structural view of a cathode ray tube device to which a deflection device according to the present invention is mounted. A deflection device 2 is attached to the neck of the cathode ray tube 1. The deflection device 2 includes a deflection yoke 3 including a horizontal deflection coil 4 and a vertical deflection coil 5, a saturable reactor 7, a correction coil 8, and the like. A magnetic core 6 is attached to the deflection yoke 3. 9 is a static convergence magnet.

FIG. 1B is a configuration diagram of the saturable reactor 7. Primary coils 10a, 10b and secondary coils 11a, 11a are respectively attached to a pair of drum cores 12a, 12b.
b, and cylindrical permanent magnets 13a, 13b magnetized in the direction of the central axis 33 at both ends of the drum-shaped cores 12a, 12b.
Attach. FIG. 1C shows the primary coils 10a and 10b.
FIG. 5 is a connection diagram between the horizontal deflection coils 4a and 4b. The horizontal deflection coils 4a and 4b are connected in parallel via the balance coil 19, and the saturable reactor 7 is connected in series from the intermediate terminal 16a so that the horizontal deflection current _Ih flows. A correction coil 8 is connected to the secondary coils 11a and 11b of the saturable reactor 7.

The coils 10a and 11 of the saturable reactor 7
a and 10b and 11b respectively represent the drum core 12
a and 12b are magnetically coupled, and each core 1
Bias magnetic fields of opposite directions are applied to 2a and 12b by permanent magnets 13a and 13b. Therefore, the flow horizontal deflection current I _h, for example, as (c) Figure, the magnetic field due to the current I _h is reduced the magnetic flux density cancels the biasing magnetic field in the core 12a, it is added to the bias magnetic field in the core 12b simultaneously To increase the magnetic flux density.

As a result, the core 12a moves away from magnetic saturation, so that the magnetic coupling between the coils 10a and 11a becomes dense, and the core 12b approaches magnetic saturation.
The magnetic coupling between 0b and 11b is reduced. Accordingly, the correction coil 8 is mainly coupled to the coil 11a of the secondary side flows correction current I ₁ of the illustrated orientations. When the direction of the horizontal deflection current I _h Conversely, reversed the correction current I ₁ and the orientation of the relationship between the horizontal deflection current I _h the change of the bias magnetic field in the cores is reversed.

[0014] FIG. 2 is a waveform diagram of the I _h and I _1. Parabolic correction current I ₁ as in FIG (a) is obtained in correspondence with the horizontal deflection current I _h of the sawtooth waveform shown in FIG. (B). FIG. 3 shows a neck portion 2 of an in-line type color cathode ray tube.
FIG. 4 is a connection diagram of a correction coil 8 mounted on the correction coil 4. The correction coil 8 is divided into coils 8a and 8b and 8c and 8d, each of which is separately wound around cores 22a and 22b. Correction current I
₁ flows, for example, in the direction shown in FIG.
31 and 232 are generated, and deflecting forces 21a and 21b are applied to the electron beams 20B and 20R in directions repelling each other. In the present invention, a mis-converter of a cathode ray tube device is produced by the above-mentioned deflection force.
Correct the presence.

Since the correction current I ₁ is an AC signal, FIG.
As shown in (1), a deflection force due to the positive peak current Ip acts on the left and right sides of the deflection screen, and a deflection force due to the negative peak current Im acts at the center. Therefore, it is necessary to correct the misconvergence by correctly giving the value of Ip to both ends of the screen and the value of Im to the center. In the present invention, the correction current I ₁ amplitude (Ip +
Im) is adjusted, and misconvergence is adjusted using a conventional static convergence magnet (abbreviated as STC magnet, see FIG. 1) 9. The STC magnet 9 generates substantially the same magnetic field and the magnetic field by the correction current I ₁ shown in FIG. 3 because it has a magnetic quadrupole. Therefore, by adjusting the position of the STC magnet 9, the static magnetic field effect corresponding to the amplitude Im of the correction current I ₁ can be canceled and corrected.

FIGS. 4 and 5 are examples of screens for explaining the misconvergence correction method. First, shift enough as STC magnet 9 does not work, if the correction current I ₁ to 0, a screen as shown in FIG. 4 is obtained. Screen 26
The solid line and the dotted line are the electron beams 20R and 20B, respectively.
The position is shown. Next, the position of the STC magnet 9 is adjusted to make the screen as shown in FIG. At this time, screen 2
6, the shift amount between the solid line and the dotted line on the right and left sides is equal, the positive peak value Ip is a value for just correcting this shift amount, and the similar negative peak value Im is the center of the screen. if just a value for correcting the amount of deviation of the part, a match of the dotted and solid lines by supplying a correction current I ₁ and misconvergence can be corrected completely.

The misconvergence at the center of the screen shown in FIG. 5 can be generated according to the emission conditions of the electron guns for the electron beams 20B and 20R without using the STC magnet. However, if the values of Ip and Im are not proper values as described above, it is necessary to separately adjust their sizes.

FIG. 6 is a sectional view of a saturable reactor 7 according to the present invention, in which the above Ip and Im can be adjusted. Permanent magnets 13a in FIG. 1 (b) in FIGS. 6 (a)
As shown in FIG. 6B, a screw is provided and fitted into the threaded portion of the holding frame 28 of the saturable reactor 7, and the cores 12a, 12
The distance to b can be adjusted. As a result, the bias magnetic field in the cores 12a and 12b is adjusted by the same amount in the same direction by inserting the driver into the square hole 29 of the permanent magnet 13a and rotating, so that the amplitudes Ip and Im of the correction current I1 are equal. It can be adjusted by quantity. In addition,
On the surfaces of the cores 12a and 12b, a soft magnetic core 2 is provided.
7a and 27b may be attached.

The right permanent magnet 13b is
a, the strength of the magnetic bias that acts on a different direction each of the bias magnetic field in 12b can be fixed amount added. Next, a description will be given of a saturable reactor according to the present invention, which can correct, when the misconvergence amount corresponding to FIG. 4 becomes unbalanced as shown in FIG. FIG. 7 shows a case where the misconvergence amount is large on the right side and small on the left side.

[0020] FIG. 8 (a) is a waveform diagram of a correction current I ₁ that can correct the misconvergence. As in the case of FIG. 5, misconvergence The lower peak corresponding to the left side of the screen - corrected by click value Ip _1, Pi the higher the right misconvergence - corrected by click value Ip _2.

FIG. 9 is a sectional view of a saturable reactor according to the present invention capable of adjusting the values of Ip1 and Ip2. In FIG. 9A, the permanent magnet 13b of FIG.
Instead of 3c, this is magnetized as shown in FIG. 9 ( c ).
As a result, by inserting a driver or the like into the square hole 29 of the permanent magnet 13c and rotating, one of the magnetic biases generated in the cores 12a and 12b by the permanent magnet 13a can be strengthened and the other can be weakened. . Therefore, by adjusting both the permanent magnets 13a and 13c, the magnitudes of Ip1, Ip2, and Im can be adjusted, so that the misconvergence of FIG. 7 can be accurately corrected.

FIG. 10 is a diagram showing a main part of another embodiment of the saturable reactor according to the present invention. FIG. 1 (c), FIG.
(A), the feature that the two secondary coils 11a and 11b of the saturable reactor shown in FIG. 9 (a) can be constituted by one coil 11, and the misconvergence is similarly corrected with high accuracy. can do. In FIG. 10, primary coils 10 a,
A horizontal deflection current _Ih is passed around the coil 10b, and the magnetic flux is linked to the secondary coil 11 provided on the central leg.

Both legs of the E-shaped core 31 and the I-shaped core 3
Between 0, the permanent magnets 13d are inserted with the polarities shown, respectively, so that the magnetic field biases 18a and 18b are applied to both leg portions. As a result, for example, the left leg is saturated for the positive component of the horizontal deflection current _{Ih, and} the right leg is saturated for the negative component. it is possible to obtain the same correction current I _1. The magnetic resistance can be adjusted by appropriately providing an air gap in the central leg of the E-shaped core 31.

Also, by mounting the permanent magnets 13e and 13f on the I-shaped core 30 and rotating them, the sizes of the magnetic biases 18a and 18b can be unbalanced.
Two positive peak of the correction current I ₁ as Ip ₁ and Ip ₂ of (a) - may be uneven to click value. The rotation of the permanent magnets 13e and 13f causes the magnetic biases 18a and 1
Since it is also possible to vary equally both 8b, by the rotation of the resulting permanent magnet 13e and 13f would be arbitrarily adjusting the Ip ₁ and Ip _2, and Im.

FIG. 11 is a diagram showing a main part of another embodiment of the saturable reactor according to the present invention. In FIG. 11, E
A single primary coil 10 is provided on the central leg of the letter-shaped core 31, and the secondary coils 11a and 11b are wound on both sides of the leg. Further, the permanent magnet 13d in FIG. 10 is omitted, and the directions of the permanent magnets 13e and 13f are reversed. When the horizontal deflection current Ih flows through the primary coil 10, the magnetic flux 14a links to the secondary coil 11a, and the magnetic flux 14b links to 11b. At this time, if the magnetic bias by the permanent magnet 13e cancels the magnetic flux 14a and the magnetic bias by the permanent magnet 13f strengthens the magnetic flux 14b, for example, the left leg of the E-shaped core 31 with respect to the positive component of the horizontal deflection current Ih There saturated, it is possible to obtain the correction current I1 similar to FIGS. 2 (a) from the secondary side coil since the right leg is saturated with respect to the negative component.

[0026] At this time, peak of the I ₁ be changed equally both the magnetic bias 18a and 18b by rotating the permanent magnet 13e and 13f - it is possible to adjust the click value Ip and Im. In addition, by each rotation of the permanent magnets 13e and 13f,
Since the magnitudes of the magnetic biases 18a and 18b can be unbalanced and their magnitudes can be changed, FIG.
Two positive peak of the correction current I ₁ as Ip ₁ and Ip ₂ of (a) - and irregular the click value, well, Ip ₁ and Ip _2, and I
The size of m can be adjusted. The magnetic resistance can be adjusted by appropriately providing an air gap in the central leg of the E-shaped core 31. The secondary coil 8 connected to the saturable reactor 7 may generate a correction magnetic field different from the quadrupole magnetic field.

FIG. 12 shows the saturable reactor 7 of each of the above embodiments.
FIG. 9 is a diagram showing another embodiment of the present invention in which a pincushion-type deflection distortion of a cathode ray tube of a single electron beam (for monochrome) is corrected by the above method. In the single electron beam cathode ray tube device, the spot of the electron beam is deformed into, for example, a horizontally long elliptical shape in the horizontal direction in FIG. Thus, the electron beam is applied to the electron beam by the saturable reactor of the present invention shown in FIG. 1B, FIG. 9, FIG.
The deflection of the beam spot is made by applying the polar magnetic field 23 to compensate the beam spot to be circular, thereby improving the resolution.

[0028]

The saturable reactor according to the present invention can generate only a parabolic waveform current without flowing a horizontal deflection current to the correction coil connected to the secondary side coil. Mis-convergence of the color cathode ray tube can be corrected by easily insulating from a high voltage and a large current, and as a result, the safety and economy of the saturable reactor can be improved. Further, the saturable reactor according to the present invention can correct misconvergence of an in-line type color cathode ray tube. In addition, the saturable reactor according to the present invention can correct the beam spot distortion of a monochromatic cathode ray tube for a single electron beam and improve the resolution thereof.

[Brief description of the drawings]

FIG. 1 is a diagram showing the configuration and connection of an embodiment of a saturable reactor for a cathode ray tube deflector according to the present invention.

2 and 8 are current waveform diagrams of a saturable reactor and a correction coil according to the present invention.

FIG. 3 is a diagram illustrating a misconvergence correction operation of a correction coil connected to a saturable reactor according to the present invention.

FIGS. 4, 5, and 7 are examples of misconvergence patterns on a cathode ray tube screen.

FIG. 6 is a configuration diagram of another saturable reactor embodiment according to the present invention.

FIG. 9 is a configuration diagram of another saturable reactor according to the present invention.

FIG. 10 is a configuration diagram of another saturable reactor according to the present invention.

FIG. 11 is a configuration diagram of another saturable reactor according to the present invention.

FIG. 12 is a diagram for explaining a beam distortion correcting operation of a single electron beam cathode ray tube by a saturable reactor according to the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Cathode ray tube, 2 ... Deflection device, 3 ... Deflection yoke, 4 ... Horizontal deflection coil, 5 ... Vertical deflection coil, 6 ... Core, 7 ... Saturable reactor, 8, 8a, 8b ... Correction coil, 9 ... Static Convergence magnet, 10,10
a, 10b: Primary coil, 11, 11a, 11b: Secondary coil, 12a, 12b: Drum core, 13a-
13f: permanent magnet, 16a, 16b: terminal of primary coil, 17a, 17b: terminal of secondary coil, 18a, 1
8b: magnetic bias, 19: balance coil, 20B,
20G, 20R: electron beam, 21, 21a, 21b ...
Deflection force, 22a, 22b: U-shaped core, 23: magnetic field lines,
24: inner surface of neck portion of cathode ray tube, 26: fluorescent screen, 27
a, 27b ... core, 28 ... holding frame, 29 ... square hole, 30 ...
I-shaped core, 31 ... E-shaped core.

Continued on the front page (72) Inventor Souichi Sakurai 292 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Prefecture Inside Hitachi Video Media Laboratory (72) Inventor Masaki Nakahara 292, Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Hitachi, Ltd. Factory Video Media Research Laboratory (72) Inventor Takahisa Mizuta 292 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Prefecture Hitachi, Ltd.Video Media Research Laboratory (72) Inventor Hiroshi Yoshioka 3300 Hayano, Mobara-shi, Chiba Prefecture Hitachi, Ltd. Inside the Electronic Devices Division (72) Inventor Masao Ohara 1st Kitano, Makino, Mizusawa City, Iwate Prefecture Inside Hitachi Mizusawa Electronics Co., Ltd. (72) Atsushi Takeyama 1st Kitano, Majo, Mizusawa City, Iwate Prefecture Hitachi Mizusawa Corporation In Electronics (56) References JP-A-64-2242 (JP, A) JP-A-2-134785 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04N 9/28 G09G 1/00 G09G 1/04

Claims (10)

(57) [Claims] 1. A cathode ray tube deflecting device comprising a saturable reactor for outputting a horizontal misconvergence correction current by inputting a horizontal deflection current, wherein the saturable reactor is connected in series to a first saturable reactor . And the second part, water
A primary coil to which a flat deflection current is input, and a secondary coil comprising a first portion and a second portion connected in series.
Side coil, the first portion of the primary side coil, and the secondary side coil
A first saturable magnetic core around which the first portion is wound.
A, the second portion of the primary coil and the secondary coil
A second saturable coil around which the second coil portion is wound
The magnetic core and the first saturable magnetic core have a positive
Apply a magnetic bias in the same direction as the magnetic field generated by the current
The second saturable magnetic core has the above-mentioned horizontal deflection current.
A magnetic bias in the same direction as the magnetic field generated by the negative current
From the secondary coil with a permanent magnet
Miss converter - our presence deflecting device of the cathode ray tube apparatus and outputs a correction current. 2. The saturable magnet according to claim 1, wherein the permanent magnets are arranged in parallel with each other.
Between both ends of the air core and the second saturable magnetic core
The first saturable magnetic core includes a pair of permanent magnet members .
Part and the first part of the secondary coil are opposite to each other.
And the second saturable magnetic core is
2 and the second part of the secondary coil in the same direction
Winding the first part of the primary coil and the primary coil
The second portion has the same number of turns, and the first portion of the secondary coil and the secondary coil
Wherein the number of turns is the same as that of the second part . 3. The pair of permanent magnet sections according to claim 2,
At least one of the materials and the first saturable material opposed thereto
Distance between the magnetic core and the end face of the second saturable magnetic core
A deflection device for a cathode ray tube device, comprising means for adjusting the separation . 4. The pair of permanent magnet sections according to claim 2 ,
The direction of magnetization of one of the materials is set to the axis of the primary and secondary coils.
Direction, and the other magnetization direction of the pair of permanent magnet members is
A deflecting device for a cathode ray tube, wherein the deflecting device is arranged in a direction perpendicular to the axial direction . 5. The apparatus according to claim 4 , wherein said one of said pair of permanent magnet members is opposed to said one of said pair of permanent magnet members.
The distance between the end faces of the first and second saturable magnetic cores
Means for adjusting the position of the permanent magnet member and the other of the pair of permanent magnet members
A deflecting device for a cathode ray tube device, comprising: means for rotating in a plane . 6. A horizontal deflection current is input so that a horizontal deflection current is input.
Saturable resistor that outputs misconvergence correction current
In a cathode ray tube deflection apparatus provided with an actor, the saturable reactor includes an EI type saturable magnetic core, a first part and a second part which are divided into two and connected in series.
Wherein the first portion comprises the EI type saturable magnetic core.
Wound around one of the magnetic paths at both ends, and the second portion is
Wound around the other end of the magnetic path at both ends of the saturable magnetic core
And a primary coil wound around a magnetic path at the center of the EI type saturable magnetic core.
A secondary coil and one of the magnetic paths at both ends of the EI type saturable magnetic core;
The magnetization direction of the primary coil due to the first portion.
A first permanent magnet for providing magnetization in the same direction as that of the EI type saturable magnetic core;
Wherein the direction of magnetization by the second portion of the primary coil is
And a second permanent magnet for providing a magnetization in a direction opposite to that of the secondary coil.
A deflection device for a cathode ray tube device, which outputs a positive current . 7. The method according to claim 6, wherein the first and second parameters are the same.
A deflection device for a cathode ray tube device, comprising means for adjusting the magnetization direction of a permanent magnet . 8. The method according to claim 8, wherein a horizontal deflection current is input so that
Saturable resistor that outputs misconvergence correction current
In a deflection apparatus for a cathode ray tube having an actor, a saturable reactor includes an EI type saturable magnetic core, and an EI type saturable magnetic core wound around a central magnetic path.
A first coil and a second coil which are divided into two and connected in series
Wherein the first portion comprises the EI type saturable magnetic core.
Wound around one of the magnetic paths at both ends, and the second portion is
Wound around the other end of the magnetic path at both ends of the saturable magnetic core
Secondary coil, the first portion of the secondary coil and the primary coil
During the first part by the primary coil
A first permanent magnet for providing magnetization in the same direction as the magnetization direction, the second portion of the secondary coil, and the primary coil;
During the second part by the primary coil
A second permanent magnet for providing a magnetization in a direction opposite to the magnetization direction.
In addition, horizontal misconvergence compensation is performed from the secondary coil.
A deflection device for a cathode ray tube device, which outputs a positive current . 9. The method according to claim 8, wherein the first and second parameters are the same.
A deflection device for a cathode ray tube device, comprising means for adjusting a magnetization direction of a negative magnet . 10. A cathode ray tube according to claim 1 , wherein said misconvergence correction current is applied to said cathode ray tube.
A means for generating a quadrupole magnetic field at a neck portion of the cathode ray tube device.