KR0133625B1 - Dissemination correction apparatus of inductance using balance bobbin - Google Patents

Abstract

After the assembly of the deflection yoke, the ferrite core is seated in the thread groove of the balance bobbin to finally correct the amount of dispersion that may be caused by the deviation of the left / right inductance of the horizontal deflection coil. A balanced coil is wound around one winding part, and the balanced coil is connected in parallel with a horizontal deflection coil, thereby implementing an inductance dispersion compensating device using a balance bobbin in which the amount of inductance is adjusted according to the left / right movement of the ferrite core. .

Description

Scatter Correction Device for Inductance Using Balance Bobbin

1 is a structural diagram showing an embodiment of the inductance dispersion correction device using a balance bobbin according to the present invention.

2 is a circuit diagram according to FIG.

Explanation of symbols on the main parts of the drawings

10 Balanced bobbin 11: Screw groove

12 ferrite core 13 winding part

H1, LH2: Horizontal deflection coil LH: Balance coil

The present invention relates to a device for compensating dispersion of inductance using a balanced bobbin. More specifically, in a deflection yoke, a wound coil is wound around a balanced bobbin to change an inductance value flowing in a left / right horizontal deflection coil and appear on a screen. The present invention relates to an inductance dispersion correction device using a balanced bobbin that corrects dispersion amount due to convergence.

In general, the deflection yoke is a device that acts to deflect the electron beam by forming a constant magnetic field in order to accurately scan the electron beam generated by the electron gun to each pixel of the screen, which is largely a coil separator, a vertical deflection coil, a horizontal deflection coil, and a misconvergence. It is divided into a calibrator.

However, as the screen becomes flat or large, the amount of local misconvergence appears nonlinearly, not proportional to the distance between the electron gun and the screen. This misconvergence is represented by the difference between the left and right inductance values of the horizontal deflection coil. In the present invention, a correction device for correcting the difference between the inductance values by the balance coil will be described.

The conventional misconvergence correction device connects a pair of balance coils to the left and right sides of the horizontal deflection coil, and then changes the inductance value of the balance coils to change the initial misconvergence on the screen (a state in which the deflection yoke is set). Corrected at However, such a correction device has a disadvantage that a user adjustment screen cannot be obtained because it is adjusted in a set state.

The present invention is to solve the above problems, an object of the present invention is to balance the bobbin so that after the assembly of the set, it is possible to finally correct the amount of dispersion that may be caused by the deviation of the left and right inductance of the horizontal deflection coil It is to provide an inductance dispersion correction device using a balance bobbin in which a balanced coil is wound on only one side of a winding and connected in parallel with a horizontal deflection coil.

Dispersion correction device of the inductance using the balance bobbin according to the present invention for achieving the above object, the ferrite core is seated in the screw groove of the balance bobbin, the balance coil is wound on one winding portion of the balance bobbin The balance coil is connected in parallel with the horizontal deflection coil, and the distribution amount of inductance is adjusted according to the left / right movement of the ferrite core.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of an inductance dispersion correction device using a balance bobbin according to the present invention will be described in detail.

1 is a structural diagram showing an embodiment of an inductance dispersion correction device using a balance bobbin according to the present invention.

Referring to FIG. 1, the correction device includes a ferrite core 12 mounted on a screw groove 11 of a balance bobbin 10, and a balance coil on one winding part 13 of the balance bobbin 10. LH) is wound. The balance coil LH is connected in parallel with the horizontal deflection coils H1 and H2, as illustrated in the circuit diagram of FIG.

Therefore, if the ferrite core 12 in the balance bobbin 10 is moved to the left side, the inductance value induced by the balance coil LH increases, and if the ferrite core 12 is moved to the right side, the balance coil LH is reversed. Since the inductance value induced at is reduced, the overall inductance value generated at the horizontal deflection coils H1 and H2 can be adjusted. Therefore, the amount of inductance spreading in the horizontal deflection coils H1 and H2 can be easily adjusted according to the left / right movement of the ferrite core 12.

As described above, according to the dispersion correction device of the inductance using the balance bobbin according to the present invention, a ferrite core is seated in a screw groove of the balance bobbin, and a balance coil is wound on one winding part of the balance bobbin, and the balance coil is In parallel with the horizontal deflection coil, the amount of inductance spread is adjusted according to the left / right movement of the ferrite core.

Therefore, the dispersion correction device of inductance using the balance bobbin according to the present invention has an advantage of correcting the amount of dispersion that may be caused by the deviation of the left / right inductance of the horizontal deflection coil after the assembly of the deflection yoke set. .

Claims (1)

A ferrite core is seated in a screw groove of the balance bobbin, and a balance coil is wound on one winding portion of the balance bobbin, and the balance coil is connected in parallel with a horizontal deflection coil, so that the inductance of the ferrite core moves along the left and right sides. Dispersion correction device for inductance using a balanced bobbin in which the amount of dispersion is adjusted.