KR0140639Y1 - Picture brightness control circuit of horizontal mode - Google Patents

Abstract

The present invention relates to a TV (TV) system, and in the related art, since the screen voltage applied to the electrode of the CPT is already fixed at the time of shipment of the product, the user may use the TV for a long time or may have a crystal embedded in the TV system ( If the oscillation of the constant voltage of X-TAL1) is changed, the brightness of the TV screen is not good and the user cannot expect a clear screen when watching TV, and the user cannot directly fix it. There was an uncomfortable problem that the user should visit the A / S center with the TV.

Therefore, in order to solve such a problem, the present invention configures a circuit to switch the aspect ratio (16: 9) (4: 3) mode of the TV set, thereby increasing the screen voltage of the CPT (TV screen). It is a screen brightness control circuit according to the aspect ratio of the horizontal mode that allows the user to watch a clearer TV screen by adjusting the brightness (Brightness).

Description

Screen brightness control circuit according to aspect ratio of horizontal mode

1 is a block circuit diagram showing a structure of a screen brightness control circuit of a conventional TV system.

2 is a block circuit diagram showing the structure of the screen brightness control circuit according to the aspect ratio of the present invention horizontal mode.

FIG. 3 (a) is a front view showing that the aspect ratio of the horizontal mode is 16: 9 in the TV set of the present invention.

(b) is a front view showing that the aspect ratio of the horizontal mode is 4: 3 in the TV receiver.

Figure 4 is a block circuit diagram showing another embodiment of the screen brightness control circuit according to the aspect ratio of the present invention horizontal mode.

* Explanation of symbols for main parts of the drawings

1: remote control 2: microcomputer

3: image processor 4: CPT

5: horizontal mode switching unit 6: deflection processing unit

7: flyback transformer unit 8: screen brightness adjustment unit

The present invention relates to a TV (TV) system, in particular in a TV receiver that can switch the aspect ratio (16: 9) (4: 3) mode of the TV receiver, by increasing the screen voltage of the CPT (CPT) of the TV screen It relates to a screen brightness control circuit according to the aspect ratio of the horizontal mode to adjust the brightness (Brightness).

The configuration and operation of the screen brightness control circuit of the conventional TV system will be described with reference to FIG. 1 as follows.

First, a remote controller 1 for outputting a constant signal for selecting and adjusting a function of a TV, a microcomputer 2 for controlling each part of the system according to the constant signal output from the remote controller 1, and the microcomputer 2 of the microcomputer 2; An image processor (3) for processing an image signal according to a control signal, a CPT (4) for displaying an RGB image signal processed by the image processor (3) on a screen of a TV; According to the control of the microcomputer 2, a TV screen according to the horizontal mode switching unit 5 for switching the horizontal aspect ratio of the CPT 4 and the horizontal aspect ratio of the CPT 4 switched by the horizontal mode switching unit 5. A deflection processor 6 for deflecting the RGB image signal to be displayed and a high voltage, a focus voltage and a screen voltage required for the CPT 4 operation under the control of the microcomputer 2 to the corresponding electrodes of the CPT 4. Consisting of a flyback transformer unit (FBT) 7 for generating a DC focus voltage It is composed of a crystal (X-TAL1) that oscillates to oscillate the DC focus voltage generated by the flyback transformer unit (FBT) (7).

Reference numerals R1 to R3 denote resistors, D1 denotes diodes, Q1 denotes transistors, and C1 denotes capacitors.

Referring to the operation of the screen brightness control circuit of the conventional TV system configured as described above is as follows.

First, when the user operates the remote controller 1 to watch TV in the horizontal aspect ratio of the constant mode (16: 9), the remote controller 1 sends a predetermined signal for the function selection and adjustment of the TV to the microcomputer 2. Will be printed.

In addition, the microcomputer 2 controls the image processor 3 for processing an image signal while being composed of resistors R1 to R3 and transistor Q1 according to a predetermined signal output from the remote controller 1, and the image. The processor 3 outputs an RGB image signal obtained by processing the image signal to the CPT 4 under the control of the microcomputer 2, and the CPT 4 outputs the RGB image signal processed by the image to the screen of the TV. Display on the screen.

At this time, the microcomputer 2 controls the operation of the deflection controller 5, and the microcontroller 5 inputs the RGB in a constant mode (4: 3 or 16: 9) under the control of the microcomputer 2. The video signal is deflected.

In addition, the microcomputer 2 controls the operation of the flyback transformer unit (FBT) 7, and thus the flyback transformer unit (FBT) 7 controls the operation of the high voltage and the focus voltage required for the operation of the CPT 4. The screen voltage, the high voltage, the focus and the screen voltage, and the voltage required for the image processing unit 3 described above are applied to the corresponding electrode of the CPT 4 through the resistor R1 and the diode D1 through the capacitor C1 to supply the direct current. Generate voltage.

At this time, the voltage generated by the flyback transformer unit (FBT) 7 is applied to the CPT (4) to adjust the brightness of the TV screen.

On the other hand, when the user wants to watch TV viewing in the horizontal aspect ratio of the constant mode (4: 3 or 16: 9) by operating the remote control 1, the horizontal mode switching unit 5 under the control of the microcomputer (2) In this case, the horizontal aspect ratio of the CPT (4) is switched to the constant mode (4: 3 or 16: 9). Accordingly, the deflection control unit 6 receives the RGB image signal inputted in the constant mode (4: 3 or 16: 9). Will be biased.

However, in the screen brightness control circuit of the conventional TV system, since the screen voltage applied to the electrode of the CPT 4 is already fixed at the time of shipment of the product, the user may use the TV for a long time and the parts may age or the brightness of the TV screen may be reduced. As the condition is not good, the user can not expect a clear screen when watching TV, and also because the user cannot directly fix it, there is an uncomfortable problem that the user has to visit the A / S center with the TV to adjust the screen brightness.

Therefore, in order to solve such a problem, the present invention configures a circuit to switch the aspect ratio (16: 9) (4: 3) mode of the TV set, thereby increasing the screen voltage of the CPT. The purpose is to adjust the brightness of the screen so that the user can watch a clearer TV screen.

The configuration and operation of the screen brightness control circuit according to the aspect ratio of the horizontal mode of the present invention for achieving the above object will be described with reference to FIG. 2.

First, a remote controller 1 for outputting a constant signal for selecting and adjusting a function of a TV, a microcomputer 2 for controlling each part of the system according to the constant signal output from the remote controller 1, and the microcomputer 2 of the microcomputer 2; An image processor (3) for processing an image signal according to a control signal, a CPT (4) for displaying an RGB image signal processed by the image processor (3) on a screen of a TV; According to the control of the microcomputer 2, a TV screen according to the horizontal mode switching unit 5 for switching the horizontal aspect ratio of the CPT 4 and the horizontal aspect ratio of the CPT 4 switched by the horizontal mode switching unit 5. A deflection processor 6 for deflecting the RGB image signal to be displayed and a high voltage, a focus voltage and a screen voltage required for the CPT 4 operation under the control of the microcomputer 2 to the corresponding electrodes of the CPT 4. A flyback transformer unit (FBT) 7 for generating a DC focus voltage by In the screen system for adjusting the brightness of the TV system composed of a crystal (X-TAL1) oscillating at a constant voltage (180V) to oscillate the DC focus voltage generated by the layback transformer unit (FBT) (7), the microcomputer After recognizing the horizontal aspect ratio switching operation of the horizontal mode switching unit 6 according to the control of (2), the screen brightness of the TV receiver is controlled by controlling the oscillation operation of the crystal (X-TAL1) that oscillates at a constant voltage (180V). It is composed of the screen brightness adjusting unit 8 to adjust.

Referring to the operation of the screen brightness control circuit according to the aspect ratio of the present invention horizontal mode configured as described above are as follows.

First, as shown in (a) of FIG. 3, when a user operates the remote controller 1 to watch TV at a horizontal aspect ratio of a constant mode (16: 9), the remote controller 1 selects a function of the TV. And outputs a predetermined signal for adjustment to the microcomputer (2).

In addition, the microcomputer 2 controls the image processor 3 for processing an image signal while being composed of resistors R1 to R3 and transistor Q1 according to a predetermined signal output from the remote controller 1, and the image. The processor 3 outputs an RGB image signal obtained by processing the image signal to the CPT 4 under the control of the microcomputer 2, and the CPT 4 outputs the RGB image signal processed by the image on the TV screen. Will be displayed on the screen.

At this time, the microcomputer 2 controls the operation of the deflection controller 5, and the microcontroller 5 deflects the RGB image signal input in the constant mode (16: 9) under the control of the microcomputer 2. Let's go.

In addition, the microcomputer 2 controls the operation of the flyback transformer unit (FBT) 6, so that the flyback transformer unit (FBT) 6 and the high voltage and focus voltage required for the operation of the CPT (4) The screen voltage is applied to the corresponding electrode of the CPT 4 through the resistor R1 and the diode D1 to generate a DC focus voltage.

At this time, the DC focus voltage generated by the flyback transformer unit (FBT) 6 is oscillated according to the oscillation operation of the constant voltage (180V) of the crystal (X-TAL1) and is applied to the CPT (4) to the TV screen. It will control the brightness of.

On the other hand, when the constant voltage (180V) oscillated in the oscillation operation of the crystal (X-TAL1) becomes high, the brightness of the TV screen becomes dark, the user operates the remote control 1 to watch TV viewing (b) of FIG. As described above, the switching operation of the horizontal mode switching unit 5 is controlled so that the user can watch at the horizontal aspect ratio of the constant mode (4: 3).

That is, under the control of the microcomputer 2, the horizontal mode switching unit 5 deflects the RGB image signal input in the constant mode (16: 9) in the deflection control unit 6 according to the horizontal aspect ratio of the CPT 4. The horizontal aspect ratio of the switched constant mode (4: 3) is recognized by the screen brightness adjusting unit (8) consisting of the resistors (R4 ~ R6) and the transistor (Q2) under the control of the microcomputer (2).

Accordingly, the screen brightness controller 8 adjusts the constant voltage 180V of the crystal X-TAL1 that is oscillated according to the horizontal aspect ratio of the recognized constant mode 4: 3, so that the screen of the TV receiver has become dark. By adjusting the brightness of the screen, the user can watch a clear screen.

On the other hand, Figure 4 is a block diagram of another embodiment of the present invention described above, and detects the screen voltage output from the flyback transformer unit 7, and the horizontal mode switching unit 6 in accordance with the detected screen voltage After recognizing the horizontal aspect ratio switching operation of), it is characterized in that it comprises a screen brightness control unit 8 for adjusting the screen brightness of the TV receiver, the same description as in the present invention of FIG. .

As described above, the present invention configures a circuit to switch the aspect ratio (16: 9) (4: 3) mode of the TV set, thereby increasing the screen voltage of the CPT, thereby increasing the brightness of the TV screen. ) So that the user can watch a clearer TV screen.

Claims (2)

A remote controller 1 for outputting a constant signal for selecting and adjusting a function of a TV, a microcomputer 2 for controlling each part of the system according to a constant signal output from the remote controller 1, and a control signal of the microcomputer 2 An image processor (3) for processing an image signal, a CPT (4) for displaying an RGB image signal processed by the image processor (3) on a screen of a TV, and a microcomputer ( 2) a horizontal mode switching unit 5 for switching the horizontal aspect ratio of the CPT 4 and a horizontal aspect ratio of the CPT 4 switched by the horizontal mode switching unit 5 according to the control of 2). A deflection processing unit 6 for deflecting the RGB image signal and a high voltage, a focus voltage and a screen voltage required for the CPT 4 operation under the control of the microcomputer 2 to the corresponding electrodes of the CPT 4 by direct current. A flyback transformer unit (FBT) 7 for generating a focus voltage, and the flyback In the screen brightness control circuit of a TV system composed of a crystal (X-TAL1) oscillating at a constant voltage (180V) to oscillate a DC focus voltage generated by a transformer unit (FBT) 7, the microcomputer 2 After controlling the horizontal aspect ratio switching operation of the horizontal mode switching unit 6 according to the control of the control unit, the screen brightness of the TV receiver is controlled by controlling the oscillation operation of the crystal (X-TAL1) oscillating at a constant voltage (180V). Screen brightness control circuit according to the aspect ratio of the horizontal mode, characterized in that consisting of the screen brightness control unit (8). The method according to claim 1, wherein the screen voltage output from the flyback transformer unit 7 is detected, and the horizontal aspect ratio switching operation of the horizontal mode switching unit 6 is recognized according to the detected screen voltage. Screen brightness control circuit according to the aspect ratio of the horizontal mode, characterized in that consisting of a screen brightness control unit for adjusting the screen brightness (8).