KR0162313B1 - Method and circuit for compensating screen quality of a tv set - Google Patents

Abstract

The present invention relates to an image quality compensation circuit and method of a TV, and in the related art, there is a problem in that the state of the image quality is not good due to the strength of the signal during the weak field. Therefore, the present invention determines the level of the automatic gain control (AGC) voltage in the TV with a booster to amplify the video signal during weak field and to supply the image signal to the chroma unit without amplifying the strong field to provide the best picture quality. Do it.

Description

TV image quality compensation circuit and method

1 is a conventional TV circuit diagram.

2 is a picture quality compensation circuit diagram of the present invention TV.

3 is an operation flowchart of a TV image quality compensation method of the present invention.

4 is a first embodiment of a makeup compensation circuit of the TV of the present invention.

Figure 5 is a first embodiment of the image quality compensation method of the invention TV.

6 shows the configuration of the booster switching data memory in FIG.

7 is a second embodiment of the image quality compensation method of the present invention TV.

* Explanation of symbols for main parts of the drawings

1, 21: key matrix 2, 22: microcomputer

3, 23: tuner 4, 24: intermediate frequency processing unit

5, 25: chroma 6, 26: CPT

7, 27: analog / digital converter 8, 28: booster

9, 29: booster switching unit 20: booster switching data memory

11: booster control unit

The present invention is to compensate for the picture quality of the weak electric field in the TV, and in particular, the level of the automatic gain control (AGC) voltage is determined by switching the signal passing through the booster and the non-passing signal during channel switching and passing the booster in the strong electric field. The present invention relates to a TV image quality compensation circuit and a method for supplying a signal that does not have a signal and a weak electric field to supply a signal that passes through a booster to provide the best image quality.

In the conventional TV circuit, as shown in FIG. 1, a key matrix 1 for allowing a user to adjust the size of a desired channel or volume as a key and a channel switching key input from the key matrix 1 are provided. The microcomputer 2 that calculates and outputs the PLL data of the corresponding channel at the time, and the radio frequency signal of the corresponding channel received through the antenna according to the PEL data received through the microcomputer 2 A tuner 3 for converting and outputting a frequency signal, an intermediate frequency processor 4 for signal-processing the intermediate frequency signal input from the tuner 3, and separating the signal into an audio signal and a video signal, and the intermediate frequency processor. It is composed of a chroma unit 5 for generating a color difference signal with respect to the video signal input from (4) and displaying it on the Citi 6.

Looking at the conventional tie circuit configured as described above are as follows.

When the user presses the channel switching key through the key matrix 1, the microcomputer 2 recognizes the channel switching key, calculates the PLL data of the corresponding channel, and outputs it to the tuner 3.

Accordingly, the tuner 3 tunes to a corresponding channel among several channels received through the antenna ANT, converts the radio frequency signal of the selected channel into an intermediate frequency signal, and outputs the intermediate frequency signal to the intermediate frequency processor 4.

The intermediate frequency processor 4 processes the input intermediate frequency signal into a voice signal and a video signal, and among the separated signals, the voice signal is a voice processor not shown and the video signal is chroma. Print each.

Then, the chroma unit 5 generates a color difference signal from the input image signal and outputs the color difference signal to the Citi 6, so that the image is displayed on the CPT.

However, in the conventional TV circuit, there is a problem that the state of the image quality is not good due to the strength of the signal during the weak electric field.

Accordingly, an object of the present invention for solving the conventional problems as described above is to provide a TV image quality compensation circuit and method for compensating the quality of the weak electric field.

Another object of the present invention is to provide an image quality compensation circuit and a method for compensating for the image quality of a TV by automatically controlling the booster during channel switching after storing the on / off data of the booster during the automatic channel storage by the initial setting. It is for.

Another object of the present invention is to determine the level of the automatic gain control (AGC) voltage in the TV with a booster to amplify the video signal in the weak field and to supply the video signal to the chroma unit without amplifying the strong field provides the best picture quality It is to provide a TV image quality compensation circuit and method to be able to.

As shown in FIG. 2, the image quality compensation circuit of the present invention for achieving the above object, when the channel switching key is input through the key matrix (1) tuner (PLL) data of the corresponding channel tuner (3) And an intermediate frequency signal corresponding to the PEL data through the microcomputer 2 and the tuner 3 for outputting a control signal according to the microcomputer 2. An analog / digital conversion unit for detecting the level of the automatic gain control (AGC) voltage of the intermediate frequency processing unit 4 separating the video signal and the audio signal, converting the digital signal into a digital value for recognition by the microcomputer 2, and outputting the digital value; 7), the booster 8 for amplifying the video signal of the intermediate frequency processor 4 to a predetermined level, the video signal of the intermediate frequency processor 4 and the amplified video signal of the booster 8 To the control signal of the microcomputer 22 La, including any of the switching unit (9) for selecting to provide a picture quality compensating circuit consisting of a television.

In addition, as shown in FIG. 4, the image quality compensation circuit of the present invention includes a booster switching data memory 20 for storing booster on / off data, and a PLL of a corresponding channel when a channel switching key is input. The signal received through the antenna and the microcomputer 22, which calculates data and outputs it to the tuner 3, reads booster switching data from the booster switching data memory 20, and outputs a control signal according to the predetermined level. The tuner 23 selects one of the booster unit 28 to amplify the signal and a signal directly received through the antenna or the signal amplified through the booster unit 28 under the control of the microcomputer 22. The booster switching unit 29 and the AGC voltage obtained by signal processing the output signal of the tuner 23 are output to the microcomputer 22 via the analog / digital conversion unit 27. In addition, the video signal is output to the Citi 26 through the chroma unit 25, and is composed of an intermediate frequency processing unit 24 for outputting the audio signal to each speaker not shown.

In addition, the operation flow diagram of the TV image quality compensation method of the present invention, as shown in Figure 3, the first step of determining the level of the automatic gain control (AGC) voltage at the time of the channel switching input, wherein the level is the reference voltage In the following case, a second step of selecting an amplified video signal through the booster is performed, and a third step of outputting an amplified video signal when the reference voltage is higher than the reference voltage in the first step.

In addition, the operation flowchart of the TV image quality compensation method of the present invention, as shown in Figure 7, the first step to switch to input the original signal through the non-boostered antenna during automatic channel setting, and the first step The second step of determining whether the input signal of the channel in step 1 determines whether there is a signal, and if the weak field in the second step, the booster switching data of the channel is stored as on-data and the weak field Otherwise, a third step of storing the booster switching data of the corresponding channel as off data.

In addition, an operation flowchart of the image quality compensation method of the present invention, as shown in FIG. And a second step of turning on the booster if the data read in the first step is the booster on data and performing the booster off if the booster off data.

Referring to the operation and effects of the present invention configured as described above in detail as follows.

First, setting according to FIG. 2 and FIG. 3, when the user presses the channel switching key through the key matrix 1, the microcomputer 2 recognizes this and calculates the PLL data of the inputted sea channel. Output to the tuner (3).

Accordingly, the tuner 3 tunes to a corresponding channel among several channels received through the antenna ANT, converts the radio frequency signal of the selected channel into an intermediate frequency signal, and outputs the intermediate frequency signal to the intermediate frequency processor 4.

When the intermediate frequency signal input from the intermediate frequency processor 4 is processed and separated into an audio signal and a video signal, the output video signal is input to the fixed terminal a of the booster switching unit 9 and In addition, the booster unit 8 is amplified to a predetermined level and input to the other fixed terminal b of the booster switching unit 9.

In addition, an automatic gain control (AGC) voltage is output to the analog / digital conversion unit 7.

The analog / digital converter 7 then converts the level of the analog automatic gain control (AGC) voltage output from the intermediate frequency processor 4 into a digital value and outputs it to the microcomputer 2.

Accordingly, the microcomputer 2 receives a digital value output from the analog / digital converter 7 and recognizes it as a weak electric field when it is less than the reference voltage compared with the reference voltage so that an image signal passes through the booster 8. To control the switching of the movable terminal c of the switching unit 9 to the fixed terminal b so as to be input to the chroma unit 5, and when the automatic gain control (AGC) voltage is higher than the reference voltage, it is recognized as a strong electric field. By controlling the switching of the movable terminal (c) of the switching unit 9 to the fixed terminal (a) so that the image signal is input directly to the chroma unit 5 from the intermediate frequency processing unit (4).

In the same manner as described above, the chroma unit 5 which receives the signal output through the booster switching unit 9 during the strong electric field or the weak electric field generates each color difference signal with respect to the input image signal and outputs it to the Citi 6. By doing so, the image is displayed on the Citi 6.

The operation as described above will be described with reference to FIG. 3 as an operation flowchart.

First, if there is a channel switching key input, it outputs the corresponding channel data to the tuner (3) and waits for a certain time.

Next, an automatic gain control (AGC) voltage input from the analog / digital conversion unit 7 is compared with a reference voltage. If the AGC voltage is equal to or greater than the reference voltage, it is determined as a strong electric field and the operating terminal of the switching unit 9 c. Outputs a high signal H, and switches the non-amplified original signal, which is an image signal from the intermediate frequency processor 4, to be input to the chroma unit 5, and the automatic gain control (AGC) voltage is lower than the reference voltage. Judging by the weak electric field, the image signal is amplified by outputting the low signal L to the movable terminal c of the switching unit 9 in the microcomputer 2 so that the image signal is amplified by the booster unit 8 and input to the chroma unit 5. The video signal is switched to be input to the chroma unit 5.

Referring to FIG. 4 for the first embodiment of the present invention, the booster on / off information during automatic channel storage is stored in the booster switching data memory 20 of the booster controller 11, and FIG. As shown in FIG. 3, when the viewer first changes the channel through the key matrix 21, the booster 28 is automatically controlled on / off by the booster on / off data.

Here, the automatic channel memory booster on / off data storage method will be described with reference to FIG. 7. In the automatic channel memory, the microcomputer 22 controls the booster switching unit 29 and passes through the booster unit 28. The movable terminal is switched to the fixed terminal b 'so that a signal through the antenna ANT is not input to the tuner 23.

Next, the memory address of the switching data of the booster is calculated using the tuning channel number.

For example, in the case of 25 channels, 25 ÷ 8 = 3... Because it is 1, the quotient becomes 3 remaining 1, so bit 1 of address 3 becomes the 25 channel booster on / off data address. That is, the 25 channels of boost on data are stored in the booster switching data memory 20 as boost 1 on bit 1 of address 3 and boost off 2 when 0 is boosted.

As described above, when the automatic channel memory is completed, the microcomputer 22 controls the tuner 23 so that the broadcast signal of the corresponding channel is tuned next, and determines whether there is a signal of the tuned channel. If there is no channel signal, the booster unit 28 stores 0 at the booster address of the booster switching data memory 20 to turn off the booster unit 28, and if there is a signal of the tuning channel, gives a delay time and the signal from the analog / digital converter unit 27. To determine whether the automatic gain control (AGC) level is higher than the reference voltage, and if the automatic gain control (AGC) voltage is higher than the reference voltage, 1 is stored in the switching address so that the booster is turned off because the channel is a strong electric field during the subsequent channel tuning. When the automatic gain control (AGC) voltage is less than or equal to the reference voltage, zero is stored in the booster switching address.

This is because in the subsequent channel tuning, since the channel is a weak electric field, the booster is turned on so that the amplified signal is input to the tuner 23.

The reason for giving the delay time is the delay time from the completion of tuning until the automatic gain control (AGC) voltage for the tuning channel is detected and output.

As described above, when the booster on / off signal is stored and the viewer presses the channel switching key using the key matrix 21, the microcomputer 22 recognizes this and is currently tuning from the booster switching data memory 20. The booster switching data is read from the address of the channel number, and the booster switching unit 29 is switched by the data.

For example, when the data read from the memory 20 is 0, the microcomputer 22 recognizes a weak electric field and controls the booster switching unit 29 to switch the movable terminal c 'to the fixed terminal a'. The signal through the antenna ANT is output to the tuner 23 by a booster unit 28, and when the data of the memory 20 is 1, it is recognized as a strong electric field and the booster. The switching unit 29 is controlled to switch the movable terminal c 'to the fixed terminal b' so that the signal through the antenna ANT is directly output to the tuner 23.

In this way, when the tuner 23 is tuned and input to the intermediate frequency processing unit 24, the intermediate frequency processing unit 24 generates respective color difference signals with respect to the input image signal, and outputs the color difference signals to the Citi 26 to display the image. To be displayed.

Referring to FIG. 5 again for the above operation, if it is first determined whether there is a channel switching key input, the corresponding channel data is output to the tuner 23 and the corresponding channel address of the booster switching data memory 20 is output. The booster switching unit reads the booster switching data, and determines whether the read data is 1 or 0, and if it is 1, it is determined as a strong electric field and outputs directly to the tuner 23 without amplifying the signal input through the antenna ANT ( 29 is switched, and if the data read from the memory 20 is 0, it is determined as a weak electric field and the microcomputer 22 is amplified by the booster unit 29 and input to the tuner 23 for the signal through the antenna ANT. ) To control the booster switching unit 29 to switch.

As described in detail above, the present invention amplifies a video signal in a weak electric field in a TV with a booster, and supplies a video signal to a chroma unit without amplifying a strong electric field so that the image quality is poor due to the weakness of the weak electric field signal. By solving the problem that did not have the effect to provide the best image quality.

Claims (6)

A storage unit for storing booster on / off data, and when the channel switching key is input, the PLL data of the corresponding channel is calculated and output to the tuner, and the booster switching data is read from the storage unit and the corresponding control signal is read. Select one of the output microcomputer, a booster unit for amplifying a signal received through the antenna to a predetermined level, and a signal directly received through the antenna or amplified signal through the booster unit under the control of the microcomputer Booster switching unit for outputting to the tuner, AGC voltage obtained by signal processing for the output signal of the booster switching unit is output to the microcomputer through the analog / digital conversion unit and the image signal is output to the Citiity through the chroma unit and voice Intermediate frequency processing section for outputting the signal to the speaker not shown Picture quality compensation circuit of the television, characterized in that configured. 2. The microcomputer of claim 1, wherein the microcomputer calculates a booster switching address based on a channel number currently being tuned, compares a value input through an analog / digital conversion unit with a reference value, and determines a weak or strong electric field and accordingly the booster switching address. TV quality control circuit, characterized in that the control to store the on and off data. 3. The booster switching address operation divides the channel number currently being tuned by the number of bits and divides the quotient into the memory address of the corresponding channel, and the remainder is the corresponding channel bit of the memory address of the corresponding channel and boosts the corresponding channel bit. And a video or booster off-data stored therein. A first step of switching the original signal through the non-boostered antenna when the automatic channel is set; a second step of determining whether a signal is input from the input channel; If the weak field in the booster switching data of the channel is stored on-data, if not the weak field of the booster switching data of the TV image quality compensation method comprising a third step. In the first step of outputting the tuning data of the corresponding channel at the channel switching input and reading the booster switching data from the address of the tuning channel, and if the data read in the first step is the booster on data, the booster is turned on and the booster off data. And a second step of performing a booster off. 5. The method of claim 4, further comprising calculating a booster switching address using the channel switching in the first step, and storing the on / off data of the third step in the booster switching address calculated above. Image quality compensation method of the TV.