KR200162262Y1 - Vertical circuit of deflection yoke - Google Patents

Abstract

The present invention is a vertical deflection coil that receives the high voltage generated in the yoke clamp (Yoke Clamp) to control the vertical deflection of the electron beam, and rectifies the charging voltage of the voltage flowing through the vertical deflection coil to set the system of the rear stage ( set) relates to a vertical circuit of a deflection yoke having a coma precoil to be transmitted to an internal component side, and particularly, rectifies and outputs a high voltage directly generated by the yoke clamp from the coma precoil. ; The vertical deflection coil controls the deflection in the vertical direction of the electron beam by using the rectified voltage flowing through the coma precoil, and then transmits the deflection coil to a component side in a system set provided at a rear end thereof. It prevents the high (over) voltage generated by the system power on / off directly to the components in the system set, and the voltage difference between the yoke clamp and the vertical deflection coil It gradually slows down through comapricoil to suppress the generation of static electricity.

Description

Vertical circuit of deflection yoke

1A and 1B are side views and screen states of a conventional deflection yoke.

2a and 2b are front views of a commaprie attached to a conventional deflection yoke.

3 is a vertical circuit diagram of a conventional deflection yoke.

4 is a vertical circuit diagram of a deflection yoke according to the present invention.

<Explanation of symbols for main parts of drawing>

VC: vertical coil 31A, 31B: coma precoil

R1: resistance

The present invention relates to a vertical circuit of the deflection yoke, and more particularly, to a vertical circuit of the deflection yoke capable of preventing the static electricity generated by the comapricoil.

In general, a cathode ray tube (CRT) such as a TV receiver or a monitor is equipped with a deflection yoke for deflecting an electron beam emitted from an electron gun and scans the electron beam in a predetermined manner to form a screen.

As the size of the screen increases, the plane becomes smaller, the pixels become smaller, and the thickness of the CRT becomes thinner, the deflection angle becomes larger and the importance of the deflection yoke is increasing day by day.

A conventional deflection yoke is provided with a pair of horizontal deflection coils (not shown) inside the coil separator 13 including the neck portion 11 and the screen portion 12, as shown in FIG. 1A. A pair of vertical deflection coils VC are mounted to the outside of the coil separator 13, and a terminal board 14 for connecting to the misconvergence correction device is formed on one side.

Accordingly, as the sawtooth wave is applied to the vertical and horizontal deflection coils VC, the red (R), green (G), and blue (B) electron beams emitted from the electron gun determine the dice on the screen. .

However, as shown in FIG. 1B, among the in-line array electron guns, the intensity of the magnetic force is smaller than that of the red (R) and blue (B) beams located at both sides. The VCR phenomenon is generated by the green (G) beam that is scanned inside the screen.

To prevent this, the field regulator of magnetic material is installed in the electron gun of cathode ray tube to increase the intensity of green (G) beam.However, field regulator deteriorates due to heat generation or deflection due to the high definition and high frequency of cathode ray tube. Since the eddy current phenomenon occurs under the influence of the leakage magnetic field of the yoke, the field regulator is removed from the electron gun, and a comapricoil is provided on the top of the deflection yoke as shown in FIGS. 2a and b.

Comapricoil for correcting the VCR phenomenon by replacing the field adjuster as described above are two examples as shown in Figure 2a, b.

In the case of FIG. 2A, a deflection yoke is wound by winding a coma procoil 21 connected in series with a vertical deflection yoke VC to a connection piece of a pair of correction members 20 formed by stacking a plurality of thin “E” -shaped iron pieces. DY) is installed so as to face the neck 11 of the DY to increase the deflection force (F) of the green (G) beam to prevent VCR phenomenon, as shown in Figure 3 the variable resistor on the coma precoil 21 (R1) was connected in parallel to adjust the amount of current flowing through the coma precoil 21 to adjust the deflection force F appropriately.

On the other hand, according to Figure 2b showing another embodiment of the conventional comapricoil, winding the comapricoil 26 on the connecting piece of a pair of correction member 25 formed by stacking a plurality of thin "C" shaped iron pieces After connecting in series with the vertical deflection coil (VC), the variable resistor (R1) is connected in parallel to the coma procoil 26, this coma precoil 26 is the deflection force of the green (G) beam In addition to increasing (F) to prevent VCR, the horizontal and vertical directions are also adjusted.

At this time, in the vertical deflection coil (VC), in the case of the upward deflection, the Y side is + and the G side is-to form a magnetic field as shown in FIG. 2 (a) and (b) and the deflection force (F). This action raises the G beam. In the case of lower deflection, the opposite is true.

However, such a conventional deflection yoke vertical circuit has a possibility of breaking through elements such as an IC connected to a coma pricoil installed so that the deflection yoke is opposed to the neck portion when on / off.

An object of the present invention for solving the problems of the prior art as described above is to provide a vertical circuit of the deflection yoke that can prevent the static electricity generated by the comapricoil.

A feature of the present invention for achieving the above object is a vertical deflection coil for receiving a high voltage generated in the yoke clamp (Yoke Clamp) to control the vertical deflection of the electron beam, and the charging of the voltage flowing through the vertical deflection coil In a vertical circuit of a deflection yoke having a coma precoil for rectifying the voltage and transmitting the commutator to a component side inside a set of systems, a high voltage generated by the yoke clamp in the coma precoil is applied. Directly input and rectify the output; The vertical deflection coil controls the deflection in the vertical direction of the electron beam by using the rectified voltage flowing through the coma pricoil, and then transmits the deflection coil to a component side in the system set provided at the rear; It prevents the high (over) voltage generated by the system power on / off directly to the components in the system set, and the voltage difference between the yoke clamp and the vertical deflection coil It is to suppress the generation of static electricity by gradually slowing down through coma precoil.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

4 is an exemplary configuration diagram of the vertical circuit of the deflection yoke according to the present invention, and the vertical circuit of the deflection yoke according to the present invention is the appearance of the coil separator 13 in the conventional deflection yoke shown in FIGS. 1 and 2. A pair of correction members 20 so as to face each other, a coma precoil 31A and 31B wound by the number of turns set on the sections 21 and 26 formed on the correction member 20, and the coma precoil 31A and 31B) and a pair of vertical deflection coils VC connected in series.

In addition, a variable resistor R1 is connected in parallel to the coma precoils 31A and 31B, and the vertical deflection coils VC are connected to each other in parallel.

Looking at the operation of the vertical circuit of the deflection yoke according to the present invention configured as described above, the static electricity generated when the deflection yoke on / off is first rectified through the coma precoil (31A, 31B) and then the vertical deflection coil (VC) Because it is transmitted to the device of the rear end such as IC, the stress of the internal circuit elements is reduced, and the damage of the device by static electricity can be prevented.

Claims (1)

A vertical deflection coil that receives the high voltage generated from the yoke clamp and controls the vertical deflection of the electron beam, and rectifies the electrification voltage of the voltage flowing through the vertical deflection coil to internally set the system. 1. A vertical circuit of a deflection yoke having a coma precoil for transmitting to a component side of the component, the vertical circuit comprising: directly receiving and commutating a high voltage generated by the yoke clamp from the coma precoil; The vertical deflection coil controls the deflection in the vertical direction of the electron beam by using the rectified voltage flowing through the coma precoil, and then transmits the deflection coil to a component side in a system set provided at a rear end thereof. It prevents the high (over) voltage generated by the system power on / off directly to the components in the system set, and the voltage difference between the yoke clamp and the vertical deflection coil A vertical circuit of a deflection yoke, characterized in that it gradually slows down through the coma precoil to suppress the generation of static electricity.