KR200337109Y1 - Display apparatus - Google Patents

Abstract

The present invention provides a horizontal deflection circuit portion for oscillating a horizontal deflection signal, an S correction circuit portion for correcting current induced from the horizontal deflection circuit portion, and a focus output circuit portion for inducing a focus waveform by amplifying the parabola waveform extracted from the S correction circuit portion. A display device comprising: a focus compensation capacitor provided in a line branched between the S correction circuit part and the focus output circuit part; A switching unit connected in series with the focus compensation capacitor; When the frequency of the horizontal deflection signal exceeds the reference frequency, it characterized in that it comprises a control unit for turning on the switching unit so that the voltage level of the parabola waveform input to the focus output circuit unit is maintained at a constant level. As a result, the focus voltage of a predetermined level can be induced regardless of the change of the frequency of the horizontal deflection signal according to the resolution of the display apparatus.

Description

Display device {DISPLAY APPARATUS}

The present invention relates to a display apparatus, and more particularly, to a display apparatus for inducing a constant level of focus voltage regardless of a change in frequency of a horizontal deflection signal according to the resolution of the display apparatus.

The cathode ray tube (CRT) of the display device focuses and accelerates hot electrons emitted from R, G, and B electron guns, and then collides with R, G, and B fluorescent surfaces through a point on a shadow mask to form pixels. In addition, a sawtooth current flows through the vertical and horizontal deflection coils to form a two-dimensional screen.

In general, since the screen of the CRT is curved, a difference in the sharpness of the center and corners occurs due to the difference in the relative distance to the CRT surface. In other words, the focus at the edge is wider than the focus at the center of the screen, so the sharpness is poor at the edge. In order to compensate for this, in the case of a high resolution CRT, a focus output circuit unit is provided to apply a compensation waveform (hereinafter, referred to as a "focus waveform") to the CRT focus component. The focus waveform is usually derived from a horizontal deflection yoke that outputs a horizontal deflection signal, and has a parabola waveform.

1 is a block diagram for inducing a focus waveform in a conventional display apparatus. As shown in the drawing, the conventional display apparatus includes a horizontal deflection circuit unit 110 for oscillating a horizontal deflection signal, an S correction circuit unit 120 for correcting a current induced in the horizontal deflection circuit unit 110, and an S correction circuit unit. And a focus output circuit 130 for amplifying the parabola waveform extracted from 120 to output the focus waveform.

The S correction circuit unit 120 corrects the sawtooth wave induced in the horizontal deflection yoke of the horizontal deflection circuit unit 110 to maintain the linearity of the screen. In general, the S correction circuit unit 120 includes a plurality of capacitors and switching elements such as transistors that are turned on / off under the control of the controller 140, and flow in a horizontal deflection yoke according to the tone on / off of the switching elements. Adjust the voltage to correct the sawtooth wave current.

The focus output circuit unit 130 inverts and amplifies the parabola waveform extracted from the S correction circuit unit 120 to output the focus waveform.

On the other hand, recently produced display devices support various resolutions depending on the video card of the computer. For example, in VGA mode the resolution is 640 * 486, the horizontal frequency is 31.5KHZ, in SVGA mode the resolution is 1024 * 768 and the horizontal frequency is 35-37KHZ. In the high resolution mode, the resolution is 1024 * 768 to 1280 * 1024, and the horizontal frequency is 64 ~ 75KHZ. In addition, recently, display devices that support more advanced high resolution such as UXGA mode or SUXGA mode have been developed. In this case, the horizontal frequency is 75 KHz or more. Here, as the resolution of the display device increases and the magnitude of the horizontal frequency increases, a horizontal deflection signal having a high frequency is required.

However, in such a conventional display apparatus, as the resolution of the display apparatus is increased, the frequency of the horizontal deflection signal output from the horizontal deflection circuit unit 110 is also increased, and thus the voltage level of the parabola waveform is also increased, resulting in a parabola waveform. There is a problem that the focus output circuit unit 130, which amplifies at a constant rate, cannot generate a desired focus voltage.

Accordingly, an object of the present invention is to provide a display device that induces a constant level of focus voltage regardless of a change in frequency of the horizontal deflection signal according to the resolution of the display device.

1 is a control block diagram for inducing a focus waveform in a conventional display apparatus,

2 is a control block diagram for inducing a focus waveform in a display device according to the present invention,

3 is a circuit diagram for inducing a focus waveform of a display device according to an embodiment of the present invention,

4 is a circuit diagram for inducing a focus waveform of a display device according to another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: horizontal deflection circuit portion 11: drive transistor

12 damper diode 13 resonant capacitor

14: horizontal deflection yoke portion 20: S correction circuit portion

21: S correction capacitor 22: switching element

30: focus output circuit 31: capacitor

32: trance 40: control unit

50: focus compensation circuit 51: focus compensation capacitor

52: switching unit

The object is, according to the present invention, a horizontal deflection circuit portion for oscillating a horizontal deflection signal, an S correction circuit portion for correcting the current induced from the horizontal deflection circuit portion, and a parabolic waveform extracted from the S correction circuit portion to amplify a focus waveform. A display device having a focus output circuit section for inducing a light source, comprising: a focus compensation capacitor provided on a line branched between the S correction circuit section and the focus output circuit section; A switching unit connected in series with the focus compensation capacitor; When the frequency of the horizontal deflection signal exceeds a reference frequency, the display device comprising a control unit for turning on the switching unit so that the voltage level of the parabola waveform input to the focus output circuit unit is maintained at a constant level Can be.

Wherein the at least one auxiliary focus compensation capacitor is connected in parallel with the focus compensation capacitor, and the auxiliary switching unit is connected in series with the auxiliary focus compensation capacitor; When the frequency of the horizontal deflection signal exceeds the reference frequency, the control unit is configured to switch the switching unit based on the magnitude of the frequency of the horizontal deflection signal so that the voltage level of the parabola waveform input to the focus output circuit unit is maintained at a constant level. And it is preferable to selectively turn on at least one of the auxiliary switching unit.

The controller may determine whether the frequency of the horizontal deflection signal exceeds the reference frequency based on the magnitude of the horizontal frequency of the display device.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

2 is a control block diagram for inducing a focus waveform in the display device according to the present invention, Figure 3 is a circuit diagram for inducing a focus waveform in the display device according to an embodiment of the present invention. As shown in these figures, the display device according to the present invention includes a horizontal deflection circuit portion 10 for oscillating a horizontal deflection signal, an S correction circuit portion 20 for correcting a current induced from the horizontal deflection circuit portion 10, and And a focus output circuit section 30 which amplifies the parapolar waveform extracted from the S correction circuit section 20 to induce the focus waveform.

The horizontal deflection circuit unit 10 includes a driving transistor 11, a damper diode 12, a resonance capacitor 13, and a horizontal deflection yoke unit 14, and a driving transistor switched by a driving signal H_drive. The electron beam is horizontally deflected by the sawtooth current induced in the horizontal deflection yoke 14 by (11).

S correction circuit unit 20 is a plurality of S correction capacitors 21 are connected in parallel to each other in order to adjust the horizontal frequency according to the resolution, each connected in series to the S correction capacitor 21 is turned on by the control unit 40 A plurality of switching elements 22, such as transistors that are turned on / off.

The focus output circuit unit 30 is connected to the S correction circuit unit 20 and inverts the capacitor 31 for applying only an AC signal by DC-coupling the output signal and the parabolic waveform applied from the capacitor 311 to the secondary side. And a transformer 32 for boosting and outputting a focus waveform. Accordingly, the focus output circuit unit 30 may detect the parabola waveform from the S correction circuit unit 20 and output the focus waveform.

On the other hand, the display device according to the present invention further includes a focus compensation circuit unit 50 for causing the focus output circuit unit 30 to output a predetermined level of focus voltage regardless of the frequency change of the horizontal deflection signal according to the resolution of the display device. do.

Here, the focus compensation circuit unit 50 includes a focus compensation capacitor 51 and a switching unit 52, as shown in FIG.

The focus compensation capacitor 51 is provided in a line branched between the S correction circuit section 20 and the focus output circuit section 30. In addition, the switching unit 52 is connected in series with the focus compensating capacitor 51, and when the focus compensating capacitor 51 is turned on by the switching signal S_switch of the control unit 40, the focus compensating capacitor 51 and the S compensating circuit unit 20 and the focus. The output circuit unit 30 is connected in parallel, and when turned off by the control unit 40, the parabolic waveform input from the S correction circuit unit 20 to the focus output circuit unit 30 is not affected. Here, the switching unit 52 is preferably a switching element such as a field effect transistor (FET).

The controller 40 turns on the switching unit 52 when the frequency of the horizontal deflection signal exceeds the reference frequency. That is, as the resolution of the display device increases, the frequency of the horizontal deflection signal oscillating from the horizontal deflection circuit unit 10 increases in order to generate the required high frequency horizontal frequency. In this case, the frequency of the horizontal deflection signal is referred to. When the voltage level of the parabola waveform extracted from the S correction circuit section 20 increases beyond the frequency, the voltage level of the increased parabola waveform is maintained at a constant level by the focus compensation capacitor 51. As a result, the voltage of the focus waveform output from the focus output circuit section 30 is maintained by maintaining the voltage level of the parabola waveform input to the transformer 32 of the focus output circuit section 30 for amplifying the parabola waveform at a constant rate. The level can be kept constant.

Here, the controller 40 may determine whether the frequency of the horizontal deflection signal exceeds the reference frequency based on the information about the resolution set in the display device or based on the information about the horizontal frequency. For example, when the horizontal frequency of the display device exceeds 85KHz, it may be determined that the frequency of the horizontal deflection signal exceeds the reference frequency.

In the above-described embodiment, as shown in FIG. 3, the focus compensating circuit unit 50 includes one focus compensating capacitor 51 and the switching unit 52, but as shown in FIG. 4. Likewise, the auxiliary compensation unit 50 'is connected to the one or more auxiliary focus compensation capacitors 50a connected in parallel with the focus compensation capacitor 51, and the auxiliary switching unit connected in series to each auxiliary focus compensation capacitor 50a. Of course, it may further include (52b). In this case, when the frequency of the horizontal deflection signal exceeds the reference frequency, the controller 40 is based on the magnitude of the frequency of the horizontal deflection signal so that the voltage level of the parabola waveform input from the focus output circuit unit 30 is maintained at a constant level. At least one of the switching unit 52 and the auxiliary switching unit 52b may be selectively turned on. For example, the frequency of the horizontal deflection signal may be divided into predetermined band units in a region exceeding the reference frequency, and the control unit may sequentially turn on the auxiliary switching unit 52b whenever the frequency of the horizontal deflection signal exceeds each band. . Accordingly, when the frequency of the horizontal deflection signal exceeds the reference frequency, it is possible to more accurately maintain the voltage level of the parabola waveform varying according to the frequency band of the exceeded horizontal deflection signal.

As described above, the present invention provides a focus compensating capacitor 51 provided in a line branched between the S compensating circuit part 20 and the focus output circuit part 30, and a switching part 52 connected in series to the focus compensating capacitor 51. And a controller 40 for turning on the switching unit 52 so that the voltage level of the parabola waveform input to the focus output circuit unit 30 is maintained at a constant level when the frequency of the horizontal deflection signal exceeds the reference frequency. The focus voltage of a predetermined level can be induced regardless of the change of the frequency of the horizontal deflection signal according to the resolution of the display device.

As described above, according to the present invention, there is provided a display device that induces a constant level of focus voltage regardless of a change in frequency of the horizontal deflection signal according to the resolution of the display device.

Claims (3)

A display having a horizontal deflection circuit portion for oscillating a horizontal deflection signal, an S correction circuit portion for correcting current induced from the horizontal deflection circuit portion, and a focus output circuit portion for amplifying a parabolic waveform extracted from the S correction circuit portion to induce a focus waveform. In the apparatus, A focus compensation capacitor provided on a line branched between the S correction circuit part and the focus output circuit part; A switching unit connected in series with the focus compensation capacitor; And a control unit turning on the switching unit so that the voltage level of the parabola waveform input to the focus output circuit unit is maintained at a constant level when the frequency of the horizontal deflection signal exceeds a reference frequency. The method of claim 1, At least one auxiliary focus compensation capacitor connected in parallel with the focus compensation capacitor, and an auxiliary switching unit connected in series with the auxiliary focus compensation capacitor; When the frequency of the horizontal deflection signal exceeds the reference frequency, the control unit is configured to switch the switching unit based on the magnitude of the frequency of the horizontal deflection signal so that the voltage level of the parabola waveform input to the focus output circuit unit is maintained at a constant level. And selectively turning on at least one of the auxiliary switching units. The method according to claim 1 or 2, And the controller determines whether the frequency of the horizontal deflection signal exceeds the reference frequency based on the magnitude of the horizontal frequency of the display device.